needletail-0.6.3/.cargo_vcs_info.json0000644000000001360000000000100131500ustar { "git": { "sha1": "3b916b89e5d2792508313114132621acdee7d19d" }, "path_in_vcs": "" }needletail-0.6.3/CHANGELOG.md000064400000000000000000000037251046102023000135600ustar 00000000000000# Changelog All notable changes to this project will be documented in this file. The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/), and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html). ## [Unreleased] ## [0.4.1] - 2020-03-12 ## Added - `ParseErrorKind::EmptyFile` variant to handle cases where there are less than two bytes in a file [[#51][51]] ## [0.4.0] - 2020-07-08 ## Changed - Added `parse_fastx_file` which replaces `parse_sequence_reader` and offers an iterator like usage and is faster than 0.3. Also adds `parse_fastx_reader` and `parse_fastx_stdin`. - `SequenceRecord` now offers more information about the file such as line ending, which allows writing a file identical to the input one. ## [0.3.0] - 2019-09-12 ### Added - Improved error reporting (i.e., a parse failure now gives the record it failed on). - Significant code cleanup and additional linting (`cargo clippy`). - Significant additional test coverage, including via fuzzing. - Significant improvements to library documentation. ### Changed - The `.kmers` method has been simplified and a new `.canonical_kmers` method has been introduced with much of the original's functionality. - Added `parse_sequence_reader`, which replaces `fastx_stream` and `fastx_bytes`. - `fastx_cli` updated and renamed to `parse_sequence_path`. - `SeqRecord` is now `SequenceRecord` and many of its methods are now in the `Sequence` trait (e.g., working on byte slices). - Automatic decompression now takes `Read` instead of `Read + Seek` so we can handle e.g. gzip files piped in through `stdin`. - See [this link](https://github.com/onecodex/needletail/pull/26#issuecomment-530982670) for additional details on updating code to `v0.3.0`. ### Removed - Single-file zip handling (zip requires `Seek`) 😞 ## [0.3.1] - 2019-09-18 ### Fixed - Needletail no longer runs out of memory when parsing large, compressed files. 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[package] edition = "2021" name = "needletail" version = "0.6.3" authors = [ "Roderick Bovee ", "Vincent Prouillet ", ] build = false include = [ "src/**/*", "tests/**/*", "LICENSE", "README.md", "CHANGELOG.md", ] autolib = false autobins = false autoexamples = false autotests = false autobenches = false description = "FASTX parsing and k-mer methods" readme = "README.md" keywords = [ "FASTA", "FASTQ", "kmer", "bioinformatics", ] categories = [ "science", "parsing", ] license = "MIT" repository = "https://github.com/onecodex/needletail" [features] compression = [ "bzip2", "flate2", "xz2", "zstd", ] default = ["compression"] python = ["pyo3/extension-module"] python_test = ["pyo3"] xz2 = ["liblzma"] [lib] name = "needletail" crate-type = [ "cdylib", "rlib", ] path = "src/lib.rs" bench = false [[test]] name = "format_specimens" path = "tests/format_specimens.rs" [[test]] name = "test_compressed" path = "tests/test_compressed.rs" [[test]] name = "test_stdin" path = "tests/test_stdin.rs" [dependencies.buffer-redux] version = "1" default-features = false [dependencies.bytecount] version = "0.6" features = ["runtime-dispatch-simd"] [dependencies.bzip2] version = "0.4" optional = true [dependencies.flate2] version = "1.0.30" optional = true [dependencies.liblzma] version = "0.3.1" optional = true [dependencies.memchr] version = "2.7.2" [dependencies.pyo3] version = "0.21.2" optional = true [dependencies.zstd] version = "0.13.2" optional = true [dev-dependencies.assert_cmd] version = "2" [dev-dependencies.bio] version = "1" [dev-dependencies.criterion] version = "0.5" [dev-dependencies.escargot] version = "0.5.0" [dev-dependencies.predicates] version = "3" [dev-dependencies.seq_io] version = "0.3" [dev-dependencies.serde] version = "1.0" [dev-dependencies.serde_derive] version = "1.0" [dev-dependencies.tempfile] version = "3" [dev-dependencies.toml] version = "0.8" [profile.release] lto = true needletail-0.6.3/Cargo.toml.orig000064400000000000000000000026761046102023000146420ustar 00000000000000[package] name = "needletail" version = "0.6.3" authors = ["Roderick Bovee ", "Vincent Prouillet "] description = "FASTX parsing and k-mer methods" keywords = ["FASTA", "FASTQ", "kmer", "bioinformatics"] categories = ["science", "parsing"] repository = "https://github.com/onecodex/needletail" license = "MIT" readme = "./README.md" edition = "2021" include = ["src/**/*", "tests/**/*", "LICENSE", "README.md", "CHANGELOG.md"] [lib] crate-type = ["cdylib", "rlib"] bench = false [features] default = ["compression"] compression = ["bzip2", "flate2", "xz2", "zstd"] python = ["pyo3/extension-module"] python_test = ["pyo3"] xz2 = ["liblzma"] [dependencies] buffer-redux = { version = "1", default-features = false } bytecount = { version = "0.6", features = ["runtime-dispatch-simd"] } bzip2 = { version = "0.4", optional = true } flate2 = { version = "1.0.30", optional = true } memchr = "2.7.2" pyo3 = { version = "0.21.2", optional = true } liblzma = { version = "0.3.1", optional = true } zstd = { version = "0.13.2", optional = true } [dev-dependencies] criterion = "0.5" # for stdin test assert_cmd = "2" escargot = "0.5.0" predicates = "3" tempfile = "3" # for benchmark comparisons bio = "1" seq_io = "0.3" # for testing with the FormatSpecimens.jl repo samples serde = "1.0" serde_derive = "1.0" toml = "0.8" [profile.release] lto = true [[bench]] name = "benchmark" harness = false path = "benches/benchmark.rs" needletail-0.6.3/LICENSE000064400000000000000000000020711046102023000127450ustar 00000000000000The MIT License (MIT) Copyright (c) 2016 Roderick Bovee Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. needletail-0.6.3/README.md000064400000000000000000000122301046102023000132150ustar 00000000000000![CI](https://github.com/onecodex/needletail/workflows/CI/badge.svg) [![crates.io](https://img.shields.io/crates/v/needletail.svg)](https://crates.io/crates/needletail) # Needletail Needletail is a MIT-licensed, minimal-copying FASTA/FASTQ parser and _k_-mer processing library for Rust. The goal is to write a fast *and* well-tested set of functions that more specialized bioinformatics programs can use. Needletail's goal is to be as fast as the [readfq](https://github.com/lh3/readfq) C library at parsing FASTX files and much (i.e. 25 times) faster than equivalent Python implementations at _k_-mer counting. ## Example ```rust extern crate needletail; use needletail::{parse_fastx_file, Sequence, FastxReader}; fn main() { let filename = "tests/data/28S.fasta"; let mut n_bases = 0; let mut n_valid_kmers = 0; let mut reader = parse_fastx_file(&filename).expect("valid path/file"); while let Some(record) = reader.next() { let seqrec = record.expect("invalid record"); // keep track of the total number of bases n_bases += seqrec.num_bases(); // normalize to make sure all the bases are consistently capitalized and // that we remove the newlines since this is FASTA let norm_seq = seqrec.normalize(false); // we make a reverse complemented copy of the sequence first for // `canonical_kmers` to draw the complemented sequences from. let rc = norm_seq.reverse_complement(); // now we keep track of the number of AAAAs (or TTTTs via // canonicalization) in the file; note we also get the position (i.0; // in the event there were `N`-containing kmers that were skipped) // and whether the sequence was complemented (i.2) in addition to // the canonical kmer (i.1) for (_, kmer, _) in norm_seq.canonical_kmers(4, &rc) { if kmer == b"AAAA" { n_valid_kmers += 1; } } } println!("There are {} bases in your file.", n_bases); println!("There are {} AAAAs in your file.", n_valid_kmers); } ``` ## Installation Needletail requires `rust` and `cargo` to be installed. Please use either your local package manager (`homebrew`, `apt-get`, `pacman`, etc) or install these via [rustup](https://www.rustup.rs/). Once you have Rust set up, you can include needletail in your `Cargo.toml` file like: ```shell [dependencies] needletail = "0.6.0" ``` To install needletail itself for development: ```shell git clone https://github.com/onecodex/needletail cargo test # to run tests ``` ### Python #### Documentation For a real example, you can refer to `test_python.py`. The python library only raise one type of exception: `NeedletailError`. There are 2 ways to parse a FASTA/FASTQ: one if you have a string (`parse_fastx_string(content: str)`) or a path to a file (`parse_fastx_file(path: str)`). Those functions will raise if the file is not found or if the content is invalid and will return an iterator. ```python from needletail import parse_fastx_file, NeedletailError, reverse_complement, normalize_seq try: for record in parse_fastx_file("myfile.fastq"): print(record.id) print(record.seq) print(record.qual) except NeedletailError: print("Invalid Fastq file") ``` A record has the following shape: ```python class Record: id: str seq: str qual: Optional[str] def is_fasta(self) -> bool def is_fastq(self) -> bool def normalize(self, iupac: bool) ``` Note that `normalize` (see for what it does) will mutate `self.seq`. It is also available as the `normalize_seq(seq: str, iupac: bool)` function which will return the normalized sequence in this case. Lastly, there is also a `reverse_complement(seq: str)` that will do exactly what it says. This will not raise an error if you pass some invalid characters. #### Building To work on the Python library on a Mac OS X/Unix system (requires Python 3): ```bash pip install maturin # finally, install the library in the local virtualenv maturin develop --cargo-extra-args="--features=python" ``` To build the binary wheels and push to PyPI ``` # The Mac build requires switching through a few different python versions maturin build --features python --release --strip # The linux build is automated through cross-compiling in a docker image docker run --rm -v $(pwd):/io ghcr.io/pyo3/maturin:main build --features=python --release --strip -f twine upload target/wheels/* ``` ## Releasing A New Version There is a Github Workflow that will build Python wheels for macOS (x86 and ARM) and Ubuntu (x86). To run, create a new release. ## Getting Help Questions are best directed as GitHub issues. We plan to add more documentation soon, but in the meantime "doc" comments are included in the source. ## Contributing Please do! We're happy to discuss possible additions and/or accept pull requests. ## Acknowledgements Starting from 0.4, the parsers algorithms is taken from [seq_io](https://github.com/markschl/seq_io). While it has been slightly modified, it is mainly coming from that library. Links to the original files are available in `src/parser/fast{a,q}.rs`. needletail-0.6.3/src/bitkmer.rs000064400000000000000000000223061046102023000145350ustar 00000000000000//! Compact binary representations of nucleic acid kmers pub type BitKmerSeq = u64; pub type BitKmer = (BitKmerSeq, u8); const NUC2BIT_LOOKUP: [Option; 256] = { let mut lookup = [None; 256]; lookup[b'A' as usize] = Some(0); lookup[b'C' as usize] = Some(1); lookup[b'G' as usize] = Some(2); lookup[b'T' as usize] = Some(3); lookup[b'a' as usize] = Some(0); lookup[b'c' as usize] = Some(1); lookup[b'g' as usize] = Some(2); lookup[b't' as usize] = Some(3); lookup }; fn nuc2bti_lookup_nocheck(nuc: u8) -> Option { unsafe { *NUC2BIT_LOOKUP.get_unchecked(nuc as usize) } } /// Takes a `BitKmer` and adds a new base on the end, optionally loping off the /// first base if the resulting kmer is too long. fn extend_kmer(kmer: &mut BitKmer, new_char: u8) -> bool { if let Some(new_char_int) = nuc2bti_lookup_nocheck(new_char) { let new_kmer = (kmer.0 << 2) + new_char_int as BitKmerSeq; // mask out any overflowed bits kmer.0 = new_kmer & (BitKmerSeq::pow(2, u32::from(2 * kmer.1)) - 1) as BitKmerSeq; true } else { false } } /// Used for the `BitNuclKmer` iterator to handle skipping invalid bases. fn update_position( start_pos: &mut usize, kmer: &mut BitKmer, buffer: &[u8], initial: bool, ) -> bool { // check if we have enough "physical" space for one more kmer if *start_pos + kmer.1 as usize > buffer.len() { return false; } let (mut kmer_len, stop_len) = if initial { (0, (kmer.1 - 1) as usize) } else { ((kmer.1 - 1) as usize, kmer.1 as usize) }; let cur_kmer = kmer; while kmer_len < stop_len { if extend_kmer(cur_kmer, buffer[*start_pos + kmer_len]) { kmer_len += 1; } else { kmer_len = 0; *cur_kmer = (0u64, cur_kmer.1); *start_pos += kmer_len + 1; if *start_pos + cur_kmer.1 as usize > buffer.len() { return false; } } } true } pub struct BitNuclKmer<'a> { start_pos: usize, cur_kmer: BitKmer, buffer: &'a [u8], canonical: bool, } impl<'a> BitNuclKmer<'a> { pub fn new(slice: &'a [u8], k: u8, canonical: bool) -> BitNuclKmer<'a> { let mut kmer = (0u64, k); let mut start_pos = 0; update_position(&mut start_pos, &mut kmer, slice, true); BitNuclKmer { start_pos, cur_kmer: kmer, buffer: slice, canonical, } } } impl Iterator for BitNuclKmer<'_> { type Item = (usize, BitKmer, bool); fn next(&mut self) -> Option<(usize, BitKmer, bool)> { if !update_position(&mut self.start_pos, &mut self.cur_kmer, self.buffer, false) { return None; } self.start_pos += 1; if self.canonical { let (kmer, was_rc) = canonical(self.cur_kmer); Some((self.start_pos - 1, kmer, was_rc)) } else { Some((self.start_pos - 1, self.cur_kmer, false)) } } } /// Reverse complement a `BitKmer` (reverses the sequence and swaps A<>T and G<>C) pub fn reverse_complement(kmer: BitKmer) -> BitKmer { // FIXME: this is not going to work with BitKmers of u128 or u32 // inspired from https://www.biostars.org/p/113640/ let mut new_kmer = kmer.0; // reverse it new_kmer = ((new_kmer >> 2) & 0x3333_3333_3333_3333) | ((new_kmer & 0x3333_3333_3333_3333) << 2); new_kmer = ((new_kmer >> 4) & 0x0F0F_0F0F_0F0F_0F0F) | ((new_kmer & 0x0F0F_0F0F_0F0F_0F0F) << 4); new_kmer = ((new_kmer >> 8) & 0x00FF_00FF_00FF_00FF) | ((new_kmer & 0x00FF_00FF_00FF_00FF) << 8); new_kmer = ((new_kmer >> 16) & 0x0000_FFFF_0000_FFFF) | ((new_kmer & 0x0000_FFFF_0000_FFFF) << 16); new_kmer = ((new_kmer >> 32) & 0x0000_0000_FFFF_FFFF) | ((new_kmer & 0x0000_0000_FFFF_FFFF) << 32); // complement it new_kmer ^= 0xFFFF_FFFF_FFFF_FFFF; // shift it to the right size new_kmer >>= 2 * (32 - kmer.1); (new_kmer, kmer.1) } /// Return the lexigraphically lowest of the `BitKmer` and its reverse complement and /// whether the returned kmer is the `reverse_complement` (true) or the original (false) pub fn canonical(kmer: BitKmer) -> (BitKmer, bool) { let rc = reverse_complement(kmer); if kmer.0 > rc.0 { (rc, true) } else { (kmer, false) } } /// Find the lexicographically lowest substring of a given length in the `BitKmer` pub fn minimizer(kmer: BitKmer, minmer_size: u8) -> BitKmer { let mut new_kmer = kmer.0; let mut lowest = !0; let bitmask = (BitKmerSeq::pow(2, u32::from(2 * minmer_size)) - 1) as BitKmerSeq; for _ in 0..=(kmer.1 - minmer_size) { let cur = bitmask & new_kmer; if cur < lowest { lowest = cur; } let cur_rev = reverse_complement((bitmask & new_kmer, kmer.1)); if cur_rev.0 < lowest { lowest = cur_rev.0; } new_kmer >>= 2; } (lowest, kmer.1) } pub fn bitmer_to_bytes(kmer: BitKmer) -> Vec { let mut new_kmer = kmer.0; let mut new_kmer_str = Vec::new(); // we're reading the bases off from the "high" end of the integer so we need to do some // math to figure out where they start (this helps us just pop the bases on the end // of the working buffer as we read them off "left to right") let offset = (kmer.1 - 1) * 2; let bitmask = BitKmerSeq::pow(2, u32::from(2 * kmer.1 - 1)) + BitKmerSeq::pow(2, u32::from(2 * kmer.1 - 2)); for _ in 0..kmer.1 { let new_char = (new_kmer & bitmask) >> offset; new_kmer <<= 2; new_kmer_str.push(match new_char { 0 => b'A', 1 => b'C', 2 => b'G', 3 => b'T', _ => unreachable!("Mathematical impossibility"), }); } new_kmer_str } #[cfg(test)] mod tests { use super::*; #[test] fn can_kmerize() { // test general function let mut i = 0; for (_, k, _) in BitNuclKmer::new(b"AGCT", 1, false) { match i { 0 => assert_eq!(k.0, 0b00 as BitKmerSeq), 1 => assert_eq!(k.0, 0b10 as BitKmerSeq), 2 => assert_eq!(k.0, 0b01 as BitKmerSeq), 3 => assert_eq!(k.0, 0b11 as BitKmerSeq), _ => unreachable!("Too many kmers"), } i += 1; } // test that we skip over N's i = 0; for (_, k, _) in BitNuclKmer::new(b"ACNGT", 2, false) { match i { 0 => assert_eq!(k.0, 0b0001 as BitKmerSeq), 1 => assert_eq!(k.0, 0b1011 as BitKmerSeq), _ => unreachable!("Too many kmers"), } i += 1; } // test that we skip over N's and handle short kmers i = 0; for (_, k, _) in BitNuclKmer::new(b"ACNG", 2, false) { match i { 0 => assert_eq!(k.0, 0x0001 as BitKmerSeq), _ => unreachable!("Too many kmers"), } i += 1; } // test that the minimum length works i = 0; for (_, k, _) in BitNuclKmer::new(b"AC", 2, false) { match i { 0 => assert_eq!(k.0, 0x0001 as BitKmerSeq), _ => unreachable!("Too many kmers"), } i += 1; } } #[test] fn test_iterator() { let seq = b"ACGTA"; let mut kmer_iter = BitNuclKmer::new(seq, 3, false); assert_eq!(kmer_iter.next(), Some((0, (6, 3), false))); assert_eq!(kmer_iter.next(), Some((1, (27, 3), false))); assert_eq!(kmer_iter.next(), Some((2, (44, 3), false))); assert_eq!(kmer_iter.next(), None); let seq = b"TA"; let mut kmer_iter = BitNuclKmer::new(seq, 3, false); assert_eq!(kmer_iter.next(), None); } #[test] fn test_reverse_complement() { assert_eq!(reverse_complement((0b00_0000, 3)).0, 0b11_1111); assert_eq!(reverse_complement((0b11_1111, 3)).0, 0b00_0000); assert_eq!(reverse_complement((0b0000_0000, 4)).0, 0b1111_1111); assert_eq!(reverse_complement((0b0001_1011, 4)).0, 0b0001_1011); } #[test] fn test_minimizer() { assert_eq!(minimizer((0b00_1011, 3), 2).0, 0b0010); assert_eq!(minimizer((0b00_1011, 3), 1).0, 0b00); assert_eq!(minimizer((0b1100_0011, 4), 2).0, 0b0000); assert_eq!(minimizer((0b11_0001, 3), 2).0, 0b0001); } #[test] fn test_bytes_to_bitkmer() { let mut ikmer: BitKmer = bytes_to_bitmer(b"C"); assert_eq!(ikmer.0, 1 as BitKmerSeq); ikmer = bytes_to_bitmer(b"TTA"); assert_eq!(ikmer.0, 60 as BitKmerSeq); ikmer = bytes_to_bitmer(b"AAA"); assert_eq!(ikmer.0, 0 as BitKmerSeq); } #[test] fn test_bitmer_to_bytes() { assert_eq!(bitmer_to_bytes((1 as BitKmerSeq, 1)), b"C"); assert_eq!(bitmer_to_bytes((60 as BitKmerSeq, 3)), b"TTA"); assert_eq!(bitmer_to_bytes((0 as BitKmerSeq, 3)), b"AAA"); } pub fn bytes_to_bitmer(kmer: &[u8]) -> BitKmer { let k = kmer.len() as u8; let mut bit_kmer = (0u64, k); for i in 0..k { extend_kmer(&mut bit_kmer, kmer[i as usize]); } bit_kmer } } needletail-0.6.3/src/errors.rs000064400000000000000000000116561046102023000144220ustar 00000000000000//! The errors needletail can return; only when parsing FASTA/FASTQ files use crate::parser::Format; use std::error::Error as StdError; use std::fmt; use std::io; /// Represents where we were in a file when an error occurred. #[derive(Debug, Clone, PartialEq, Eq, Default)] pub struct ErrorPosition { /// Line number where the error occurred (starting with 1) pub line: u64, /// ID of record if available pub id: Option, } impl fmt::Display for ErrorPosition { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { if let Some(id) = self.id.as_ref() { write!(f, "record '{id}' at ")?; } write!(f, "line {}", self.line) } } /// The type of error that occured during file parsing #[derive(Clone, Debug, PartialEq, Eq)] pub enum ParseErrorKind { /// An error happened during file/stream input/output Io, /// The file didn't start with `@` or `>` and we didn't know what to expect yet UnknownFormat, /// Invalid start byte of record encountered (expected `@` in FASTQ and `>` in FASTA) InvalidStart, /// The separator line in a FASTQ file is not valid (no `+`) InvalidSeparator, /// Sequence and quality lengths are not equal (in a FASTQ file only) UnequalLengths, /// Truncated record found UnexpectedEnd, /// The file appears to be empty EmptyFile, } /// The only error type that needletail returns #[derive(Clone, Debug, PartialEq, Eq)] pub struct ParseError { /// A description of what went wrong pub msg: String, /// The type of error that occurred pub kind: ParseErrorKind, /// Position within file pub position: ErrorPosition, /// The format of the file we were parsing pub format: Option, } impl ParseError { pub fn new_invalid_start(byte_found: u8, position: ErrorPosition, format: Format) -> Self { let msg = format!( "Expected '{}' but found '{}", format.start_char(), (byte_found as char).escape_default() ); Self { kind: ParseErrorKind::InvalidStart, msg, position, format: Some(format), } } pub fn new_invalid_separator(byte_found: u8, position: ErrorPosition) -> Self { let msg = format!( "Expected '+' separator but found '{}", (byte_found as char).escape_default() ); Self { kind: ParseErrorKind::InvalidSeparator, msg, position, format: Some(Format::Fastq), } } pub fn new_unknown_format(byte_found: u8) -> Self { let msg = format!( "Expected '@' or '>' at the start of the file but found '{}'.", (byte_found as char).escape_default() ); Self { kind: ParseErrorKind::UnknownFormat, msg, position: ErrorPosition::default(), format: Some(Format::Fastq), } } pub fn new_unequal_length(seq_len: usize, qual_len: usize, position: ErrorPosition) -> Self { let msg = format!("Sequence length is {seq_len} but quality length is {qual_len}"); Self { kind: ParseErrorKind::UnequalLengths, msg, position, format: Some(Format::Fastq), } } pub fn new_unexpected_end(position: ErrorPosition, format: Format) -> Self { Self { msg: String::new(), kind: ParseErrorKind::UnexpectedEnd, position, format: Some(format), } } pub fn new_empty_file() -> Self { Self { msg: String::from("Failed to read the first two bytes. Is the file empty?"), kind: ParseErrorKind::EmptyFile, position: ErrorPosition::default(), format: None, } } } impl fmt::Display for ParseError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self.kind { ParseErrorKind::Io => write!(f, "I/O error: {}", self.msg), ParseErrorKind::UnequalLengths | ParseErrorKind::InvalidStart | ParseErrorKind::UnknownFormat | ParseErrorKind::EmptyFile | ParseErrorKind::InvalidSeparator => write!(f, "{} ({})", self.msg, self.position), ParseErrorKind::UnexpectedEnd => { write!(f, "Unexpected end of input ({}).", self.position) } } } } impl From for ParseError { fn from(err: io::Error) -> Self { Self { msg: err.to_string(), kind: ParseErrorKind::Io, position: ErrorPosition::default(), format: None, } } } impl StdError for ParseError { fn cause(&self) -> Option<&dyn StdError> { // Ideally we would pass the io::Error but we don't for simplicity sake // since we wouldn't be able to `==` on the error kind otherwise. // TODO: impl partialeq manually? None } } needletail-0.6.3/src/kmer.rs000064400000000000000000000150571046102023000140430ustar 00000000000000//! Functions for splitting sequences into fixed-width moving windows (kmers) //! and utilities for dealing with these kmers. /// Returns true if the base is a unambiguous nucleic acid base (e.g. ACGT) and /// false otherwise. fn is_good_base(chr: u8) -> bool { matches!(chr as char, 'a' | 'c' | 'g' | 't' | 'A' | 'C' | 'G' | 'T') } /// Generic moving window iterator over sequences to return k-mers /// /// Iterator returns slices to the original data. pub struct Kmers<'a> { k: u8, start_pos: usize, buffer: &'a [u8], } impl<'a> Kmers<'a> { /// Creates a new kmer-izer for a nucleotide/amino acid sequence. pub fn new(buffer: &'a [u8], k: u8) -> Self { Kmers { k, start_pos: 0, buffer, } } } impl<'a> Iterator for Kmers<'a> { type Item = &'a [u8]; fn next(&mut self) -> Option { if self.start_pos + self.k as usize > self.buffer.len() { return None; } let pos = self.start_pos; self.start_pos += 1; Some(&self.buffer[pos..pos + self.k as usize]) } } /// A kmer-izer for a nucleotide acid sequences to return canonical kmers. /// /// Iterator returns the position of the kmer, a slice to the original data, /// and an boolean indicating if the kmer returned is the original or the /// reverse complement. pub struct CanonicalKmers<'a> { k: u8, start_pos: usize, buffer: &'a [u8], rc_buffer: &'a [u8], } impl<'a> CanonicalKmers<'a> { /// Creates a new iterator. /// /// It's generally more useful to use this directly from a sequences (e.g. /// `seq.canonical_kmers`. Requires a reference to the reverse complement /// of the sequence it's created on, e.g. /// ``` /// use needletail::Sequence; /// use needletail::kmer::CanonicalKmers; /// /// let seq = b"ACGT"; /// let rc = seq.reverse_complement(); /// let c_iter = CanonicalKmers::new(seq, &rc, 3); /// for (pos, kmer, canonical) in c_iter { /// // process data in here /// } /// /// ``` pub fn new(buffer: &'a [u8], rc_buffer: &'a [u8], k: u8) -> Self { let mut nucl_kmers = CanonicalKmers { k, start_pos: 0, buffer, rc_buffer, }; nucl_kmers.update_position(true); nucl_kmers } fn update_position(&mut self, initial: bool) -> bool { // check if we have enough "physical" space for one more kmer if self.start_pos + self.k as usize > self.buffer.len() { return false; } let (mut kmer_len, stop_len) = if initial { (0, (self.k - 1) as usize) } else { ((self.k - 1) as usize, self.k as usize) }; while kmer_len < stop_len { if is_good_base(self.buffer[self.start_pos + kmer_len]) { kmer_len += 1; } else { kmer_len = 0; self.start_pos += kmer_len + 1; if self.start_pos + self.k as usize > self.buffer.len() { return false; } } } true } } impl<'a> Iterator for CanonicalKmers<'a> { type Item = (usize, &'a [u8], bool); fn next(&mut self) -> Option<(usize, &'a [u8], bool)> { if !self.update_position(false) { return None; } let pos = self.start_pos; self.start_pos += 1; let result = &self.buffer[pos..pos + self.k as usize]; let rc_buffer = self.rc_buffer; let rc_result = &rc_buffer[rc_buffer.len() - pos - self.k as usize..rc_buffer.len() - pos]; if result < rc_result { Some((pos, result, false)) } else { Some((pos, rc_result, true)) } } } #[cfg(test)] mod tests { use super::*; use crate::sequence::Sequence; #[test] fn can_kmerize() { let k_iter = Kmers::new(b"AGCT", 1); // test general function for (i, k) in k_iter.enumerate() { match i { 0 => assert_eq!(k, b"A"), 1 => assert_eq!(k, b"G"), 2 => assert_eq!(k, b"C"), 3 => assert_eq!(k, b"T"), _ => unreachable!("Too many kmers"), } } // test that we handle length 2 (and don't drop Ns) let k_iter = Kmers::new(b"AGNCT", 2); for (i, k) in k_iter.enumerate() { match i { 0 => assert_eq!(k, b"AG"), 1 => assert_eq!(k, b"GN"), 2 => assert_eq!(k, b"NC"), 3 => assert_eq!(k, b"CT"), _ => unreachable!("Too many kmers"), } } // test that the minimum length works let k_iter = Kmers::new(b"AC", 2); for k in k_iter { assert_eq!(k, &b"AC"[..]); } } #[test] fn can_canonicalize() { // test general function let seq = b"AGCT"; let rc_seq = seq.reverse_complement(); let c_iter = CanonicalKmers::new(seq, &rc_seq, 1); for (i, (_, k, is_c)) in c_iter.enumerate() { match i { 0 => { assert_eq!(k, b"A"); assert!(!is_c); } 1 => { assert_eq!(k, b"C"); assert!(is_c); } 2 => { assert_eq!(k, b"C"); assert!(!is_c); } 3 => { assert_eq!(k, b"A"); assert!(is_c); } _ => unreachable!("Too many kmers"), } } let seq = b"AGCTA"; let rc_seq = seq.reverse_complement(); let c_iter = CanonicalKmers::new(seq, &rc_seq, 2); for (i, (_, k, _)) in c_iter.enumerate() { match i { 0 | 2 => assert_eq!(k, b"AG"), 1 => assert_eq!(k, b"GC"), 3 => assert_eq!(k, b"TA"), _ => unreachable!("Too many kmers"), } } let seq = b"AGNTA"; let rc_seq = seq.reverse_complement(); let c_iter = CanonicalKmers::new(seq, &rc_seq, 2); for (i, (ix, k, _)) in c_iter.enumerate() { match i { 0 => { assert_eq!(ix, 0); assert_eq!(k, b"AG"); } 1 => { assert_eq!(ix, 3); assert_eq!(k, b"TA"); } _ => unreachable!("Too many kmers"), } } } } needletail-0.6.3/src/lib.rs000064400000000000000000000042011046102023000136400ustar 00000000000000#![crate_name = "needletail"] //! Needletail is a crate to quickly and easily parse FASTA and FASTQ sequences out of //! streams/files and manipulate and analyse that data. //! //! A contrived example of how to use it: //! ``` //! extern crate needletail; //! use needletail::{parse_fastx_file, Sequence, FastxReader}; //! //! fn main() { //! let filename = "tests/data/28S.fasta"; //! //! let mut n_bases = 0; //! let mut n_valid_kmers = 0; //! let mut reader = parse_fastx_file(&filename).expect("valid path/file"); //! while let Some(record) = reader.next() { //! let seqrec = record.expect("invalid record"); //! // keep track of the total number of bases //! n_bases += seqrec.num_bases(); //! // normalize to make sure all the bases are consistently capitalized and //! // that we remove the newlines since this is FASTA //! let norm_seq = seqrec.normalize(false); //! // we make a reverse complemented copy of the sequence first for //! // `canonical_kmers` to draw the complemented sequences from. //! let rc = norm_seq.reverse_complement(); //! // now we keep track of the number of AAAAs (or TTTTs via //! // canonicalization) in the file; note we also get the position (i.0; //! // in the event there were `N`-containing kmers that were skipped) //! // and whether the sequence was complemented (i.2) in addition to //! // the canonical kmer (i.1) //! for (_, kmer, _) in norm_seq.canonical_kmers(4, &rc) { //! if kmer == b"AAAA" { //! n_valid_kmers += 1; //! } //! } //! } //! println!("There are {} bases in your file.", n_bases); //! println!("There are {} AAAAs in your file.", n_valid_kmers); //! } //! ``` //! #[cfg(any(feature = "python", feature = "python_test"))] extern crate pyo3; pub mod bitkmer; pub mod kmer; pub mod parser; pub mod sequence; pub mod errors; #[cfg(any(feature = "python", feature = "python_test"))] pub mod python; pub use parser::{parse_fastx_file, parse_fastx_reader, parse_fastx_stdin, FastxReader}; pub use sequence::Sequence; needletail-0.6.3/src/parser/fasta.rs000064400000000000000000000352231046102023000154740ustar 00000000000000//! The vast majority of the code is taken from https://github.com/markschl/seq_io/blob/master/src/fasta.rs use crate::errors::{ErrorPosition, ParseError}; use crate::parser::record::SequenceRecord; use crate::parser::utils::{ fill_buf, find_line_ending, grow_to, trim_cr, FastxReader, Format, LineEnding, Position, BUFSIZE, }; use memchr::{memchr2, Memchr}; use std::borrow::Cow; use std::fs::File; use std::io; use std::io::BufRead; use std::path::Path; #[derive(Clone, Debug)] pub struct BufferPosition { /// index of '>' pub(crate) start: usize, /// Indicate line start, but actually it is one byte before (start - 1), which is usually /// the line terminator of the header (if there is one). The last index in the Vec is always /// the last byte of the last sequence line (including line terminator if present). /// Therefore, the length of this Vec should never be 0. pub(crate) seq_pos: Vec, } impl BufferPosition { #[inline] fn is_new(&self) -> bool { self.seq_pos.is_empty() } #[inline] fn reset(&mut self, start: usize) { self.seq_pos.clear(); self.start = start; } #[inline] fn find_line_ending(&self, buffer: &[u8]) -> Option { find_line_ending(self.all(buffer)) } #[inline] pub(crate) fn all<'a>(&self, buffer: &'a [u8]) -> &'a [u8] { &buffer[self.start..*self.seq_pos.last().unwrap()] } #[inline] pub(crate) fn id<'a>(&self, buffer: &'a [u8]) -> &'a [u8] { trim_cr(&buffer[self.start + 1..*self.seq_pos.first().unwrap()]) } #[inline] pub(crate) fn raw_seq<'a>(&self, buffer: &'a [u8]) -> &'a [u8] { if self.seq_pos.len() > 1 { let start = *self.seq_pos.first().unwrap() + 1; let end = *self.seq_pos.last().unwrap(); trim_cr(&buffer[start..end]) } else { b"" } } #[inline] pub(crate) fn seq<'a>(&self, buffer: &'a [u8]) -> Cow<'a, [u8]> { // TODO: make that DRY let seq = if self.seq_pos.len() > 1 { let start = *self.seq_pos.first().unwrap() + 1; let end = *self.seq_pos.last().unwrap(); trim_cr(&buffer[start..end]) } else { b"" }; // first part is a fast check to see if we need to do any allocations let mut i; match memchr2(b'\r', b'\n', seq) { Some(break_loc) => i = break_loc, None => return seq.into(), } // we found a newline; create a new buffer and stripping out newlines // and writing into it let mut new_buf = Vec::with_capacity(seq.len() - 1); new_buf.extend_from_slice(&seq[..i]); while i < seq.len() { match memchr2(b'\r', b'\n', &seq[i..]) { None => { new_buf.extend_from_slice(&seq[i..]); break; } Some(match_pos) => { new_buf.extend_from_slice(&seq[i..i + match_pos]); i += match_pos + 1; } } } new_buf.into() } #[inline] pub(crate) fn num_bases(&self, buffer: &[u8]) -> usize { let seq = self.raw_seq(buffer); let num_lines = bytecount::count(seq, b'\n'); let windows_num_lines = bytecount::count(seq, b'\r'); seq.len() - num_lines - windows_num_lines } } /// Parser for FASTA files. /// Only use this directly if you know your file is FASTA and that it is not compressed as /// it does not handle decompression. /// If you are unsure, it's better to use [`parse_fastx_file`](fn.parse_fastx_file.html). pub struct Reader { buf_reader: buffer_redux::BufReader, buf_pos: BufferPosition, search_pos: usize, position: Position, finished: bool, line_ending: Option, } impl Reader where R: io::Read, { /// Creates a new reader with the default buffer size of 64 KiB /// /// # Example: /// /// ``` /// use needletail::parser::{FastaReader, FastxReader}; /// let fasta = b">id\nSEQUENCE"; /// /// let mut reader = FastaReader::new(&fasta[..]); /// let record = reader.next().unwrap().unwrap(); /// assert_eq!(record.id(), b"id") /// ``` #[inline] pub fn new(reader: R) -> Self { Self::with_capacity(reader, BUFSIZE) } /// Creates a new reader with a given buffer capacity. The minimum allowed /// capacity is 3. #[inline] pub fn with_capacity(reader: R, capacity: usize) -> Self { assert!(capacity >= 3); Self { buf_reader: buffer_redux::BufReader::with_capacity(capacity, reader), buf_pos: BufferPosition { start: 0, seq_pos: Vec::with_capacity(1), }, position: Position::new(0, 0), search_pos: 0, finished: false, line_ending: None, } } } impl Reader { /// Creates a reader from a file path. /// /// # Example: /// /// ```no_run /// use needletail::parser::{FastaReader, FastxReader}; /// /// let mut reader = FastaReader::from_path("seqs.fasta").unwrap(); /// /// // (... do something with the reader) /// ``` #[inline] pub fn from_path>(path: P) -> io::Result { File::open(path).map(Self::new) } } impl Reader where R: io::Read, { #[inline] fn get_buf(&self) -> &[u8] { self.buf_reader.buffer() } #[inline] fn next_pos(&mut self) { self.position.line += self.buf_pos.seq_pos.len() as u64; self.position.byte += (self.search_pos - self.buf_pos.start) as u64; self.buf_pos.reset(self.search_pos); } /// Finds the position of the next record /// and returns true if found; false if end of buffer reached. #[inline] fn find(&mut self) -> bool { if self._find() { return true; } // nothing found if self.get_buf().len() < self.buf_reader.capacity() { // EOF reached, there will be no next record self.finished = true; if !self.buf_pos.seq_pos.is_empty() { self.buf_pos.seq_pos.push(self.search_pos); } return true; } false } /// Returns true if complete position found, false if end of buffer reached. #[inline] fn _find(&mut self) -> bool { let bufsize = self.get_buf().len(); for pos in Memchr::new(b'\n', &self.buf_reader.buffer()[self.search_pos..]) { let pos = self.search_pos + pos; let next_line_start = pos + 1; if next_line_start == bufsize { // cannot check next byte -> treat as incomplete self.search_pos = pos; // make sure last byte is re-searched next time return false; } self.buf_pos.seq_pos.push(pos); if self.get_buf()[next_line_start] == b'>' { // complete record was found self.search_pos = next_line_start; return true; } } // record end not found self.search_pos = bufsize; false } /// To be called when the end of the buffer is reached and `next_pos` does not find /// the next record. Incomplete bytes will be moved to the start of the buffer. /// If the record still doesn't fit in, the buffer will be enlarged. /// After calling this function, the position will therefore always be 'complete'. /// this function assumes that the buffer was fully searched fn next_complete(&mut self) -> Result { loop { if self.buf_pos.start == 0 { // first record -> buffer too small self.grow(); } else { // not the first record -> buffer may be big enough self.make_room(); } // fill up remaining buffer fill_buf(&mut self.buf_reader)?; if self.find() { return Ok(true); } } } /// Grow internal buffer as needed fn grow(&mut self) { let cap = self.buf_reader.capacity(); let new_size = grow_to(cap); let additional = new_size - cap; self.buf_reader.reserve(additional); } /// Move incomplete bytes to start of buffer fn make_room(&mut self) { let consumed = self.buf_pos.start; self.buf_reader.consume(consumed); self.buf_reader.make_room(); self.buf_pos.start = 0; self.search_pos -= consumed; for s in &mut self.buf_pos.seq_pos { *s -= consumed; } } } impl FastxReader for Reader { fn next(&mut self) -> Option> { if self.finished { return None; } // Load some data in the buffer to start if self.position.line == 0 { match fill_buf(&mut self.buf_reader) { Ok(n) => { if n == 0 { self.finished = true; return None; } } Err(e) => { return Some(Err(e.into())); } }; if self.get_buf()[0] == b'>' { self.position.line = 1; self.position.byte = 0; self.buf_pos.start = 0; self.search_pos = 1; } else { return Some(Err(ParseError::new_invalid_start( self.get_buf()[0], ErrorPosition { line: self.position.line, id: None, }, Format::Fasta, ))); } } if !self.buf_pos.is_new() { self.next_pos(); } // Can we identify the start of the next record ? let complete = self.find(); if !complete { // Did we get a record? let got_record = match self.next_complete() { Ok(f) => f, Err(e) => { return Some(Err(e)); } }; if !got_record { return None; } } if self.buf_pos.seq_pos.is_empty() { return Some(Err(ParseError::new_unexpected_end( ErrorPosition { line: self.position.line, id: None, }, Format::Fasta, ))); } if self.line_ending.is_none() { self.line_ending = self.buf_pos.find_line_ending(self.get_buf()); } Some(Ok(SequenceRecord::new_fasta( self.get_buf(), &self.buf_pos, &self.position, self.line_ending, ))) } fn position(&self) -> &Position { &self.position } fn line_ending(&self) -> Option { self.line_ending } } #[cfg(test)] mod tests { use std::io::Cursor; use super::*; use crate::errors::ParseErrorKind; fn seq(s: &[u8]) -> Cursor<&[u8]> { Cursor::new(s) } #[test] fn test_basic() { let mut reader = Reader::new(seq(b">test\nACGT\n>test2\nTGCA\n")); assert!(reader.line_ending().is_none()); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.id(), b"test"); assert_eq!(r.raw_seq(), b"ACGT"); assert_eq!(r.all(), b">test\nACGT"); assert_eq!(reader.line_ending().unwrap(), LineEnding::Unix); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.id(), b"test2"); assert_eq!(r.raw_seq(), b"TGCA"); assert!(reader.next().is_none()); } #[test] fn test_wrapped_fasta() { let mut reader = Reader::new(seq(b">test\nACGT\nACGT\n>test2\nTGCA\nTG")); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.id(), b"test"); assert_eq!(r.raw_seq(), b"ACGT\nACGT"); assert_eq!(r.num_bases(), 8); assert_eq!(reader.line_ending().unwrap(), LineEnding::Unix); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.id(), b"test2"); assert_eq!(r.raw_seq(), b"TGCA\nTG"); assert_eq!(r.num_bases(), 6); assert!(reader.next().is_none()); } #[test] fn test_wrapped_fasta_windows_newlines() { let mut reader = Reader::new(seq(b">test\r\nACGT\r\nACGT\r\n>test2\r\nTGCA\r\nTG")); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.id(), b"test"); assert_eq!(r.raw_seq(), b"ACGT\r\nACGT"); assert_eq!(r.num_bases(), 8); assert_eq!(r.start_line_number(), 1); assert_eq!(reader.line_ending().unwrap(), LineEnding::Windows); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.id(), b"test2"); assert_eq!(r.raw_seq(), b"TGCA\r\nTG"); assert_eq!(r.num_bases(), 6); assert_eq!(r.start_line_number(), 4); assert!(reader.next().is_none()); } #[test] fn test_premature_ending() { let mut reader = Reader::new(seq(b">test\nAGCT\n>test2")); reader.next().unwrap().unwrap(); let rec = reader.next().unwrap(); assert!(rec.is_err()); let r = rec.unwrap_err(); assert_eq!(r.kind, ParseErrorKind::UnexpectedEnd); let mut reader = Reader::new(seq(b">test\r\nAGCT\r\n>test2\r\n")); reader.next().unwrap().unwrap(); let rec = reader.next().unwrap(); assert!(rec.is_err()); let r = rec.unwrap_err(); assert_eq!(r.kind, ParseErrorKind::UnexpectedEnd); } #[test] fn test_empty_records() { let mut reader = Reader::new(seq(b">\n\n>shine\nAGGAGGU")); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.id(), b""); assert_eq!(rec.raw_seq(), b""); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.id(), b"shine"); assert_eq!(rec.raw_seq(), b"AGGAGGU"); let mut reader = Reader::new(seq(b">\r\n\r\n>shine\r\nAGGAGGU")); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.id(), b""); assert_eq!(rec.raw_seq(), b""); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.id(), b"shine"); assert_eq!(rec.raw_seq(), b"AGGAGGU"); } } needletail-0.6.3/src/parser/fastq.rs000064400000000000000000000474741046102023000155270ustar 00000000000000//! The vast majority of the code is taken from https://github.com/markschl/seq_io/blob/master/src/fastq.rs use std::fs::File; use std::io::{self, BufRead}; use std::path::Path; use crate::errors::{ErrorPosition, ParseError}; use crate::parser::record::SequenceRecord; use crate::parser::utils::{ fill_buf, find_line_ending, grow_to, trim_cr, FastxReader, Format, LineEnding, Position, BUFSIZE, }; use memchr::memchr; /// Represents the position of a record within a buffer #[derive(Debug, Clone, Default)] pub struct BufferPosition { pub(crate) start: usize, pub(crate) end: usize, pub(crate) seq: usize, pub(crate) sep: usize, pub(crate) qual: usize, } impl BufferPosition { #[inline] pub(crate) fn is_new(&self) -> bool { self.end == 0 } #[inline] pub(crate) fn len(&self) -> u64 { (self.end + 1 - self.start) as u64 } #[inline] pub(crate) fn id<'a>(&'a self, buffer: &'a [u8]) -> &'a [u8] { trim_cr(&buffer[self.start + 1..self.seq - 1]) } #[inline] pub(crate) fn seq<'a>(&'a self, buffer: &'a [u8]) -> &'a [u8] { trim_cr(&buffer[self.seq..self.sep - 1]) } #[inline] pub(crate) fn qual<'a>(&'a self, buffer: &'a [u8]) -> &'a [u8] { trim_cr(&buffer[self.qual..self.end]) } #[inline] pub(crate) fn num_bases<'a>(&'a self, buffer: &'a [u8]) -> usize { self.seq(buffer).len() } #[inline] fn find_line_ending<'a>(&'a self, buffer: &'a [u8]) -> Option { find_line_ending(self.all(buffer)) } #[inline] pub(crate) fn all<'a>(&self, buffer: &'a [u8]) -> &'a [u8] { &buffer[self.start..self.end] } } #[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd)] enum SearchPosition { Id, Sequence, Separator, Quality, } /// Parser for FASTQ files. /// Only use this directly if you know your file is FASTQ and that it is not compressed as /// it does not handle decompression. /// If you are unsure, it's better to use [`parse_fastx_file`](fn.parse_fastx_file.html). pub struct Reader { buf_reader: buffer_redux::BufReader, buf_pos: BufferPosition, search_pos: SearchPosition, position: Position, finished: bool, line_ending: Option, } impl Reader where R: io::Read, { /// Creates a new reader with the default buffer size of 64 KiB /// /// # Example: /// /// ``` /// use needletail::parser::{FastqReader, FastxReader}; /// let fastq = b"@id\nACGT\n+\nIIII"; /// /// let mut reader = FastqReader::new(&fastq[..]); /// let record = reader.next().unwrap().unwrap(); /// assert_eq!(record.id(), b"id") /// ``` pub fn new(reader: R) -> Self { Self::with_capacity(reader, BUFSIZE) } /// Creates a new reader with a given buffer capacity. The minimum allowed /// capacity is 3. pub fn with_capacity(reader: R, capacity: usize) -> Self { assert!(capacity >= 3); Self { buf_reader: buffer_redux::BufReader::with_capacity(capacity, reader), buf_pos: BufferPosition::default(), search_pos: SearchPosition::Id, position: Position::new(1, 0), finished: false, line_ending: None, } } } impl Reader { /// Creates a reader from a file path. /// /// # Example: /// /// ```no_run /// use needletail::parser::{FastxReader, FastqReader}; /// /// let mut reader = FastqReader::from_path("seqs.fastq").unwrap(); /// /// // (... do something with the reader) /// ``` pub fn from_path>(path: P) -> io::Result { File::open(path).map(Self::new) } } impl Reader where R: io::Read, { #[inline] fn get_buf(&self) -> &[u8] { self.buf_reader.buffer() } // TODO: avoid duplication with find_incomplete. // TODO: having a single fn and adding branches introduce a noticeable slowdown /// Reads the current record and returns true if found. /// Returns false if incomplete because end of buffer reached, /// meaning that the last record may be incomplete. /// Updates `self.search_pos`. fn find(&mut self) -> Result { self.buf_pos.seq = if let Some(p) = self.find_line(self.buf_pos.start) { p } else { self.search_pos = SearchPosition::Id; return Ok(false); }; self.buf_pos.sep = if let Some(p) = self.find_line(self.buf_pos.seq) { p } else { self.search_pos = SearchPosition::Sequence; return Ok(false); }; self.buf_pos.qual = if let Some(p) = self.find_line(self.buf_pos.sep) { p } else { self.search_pos = SearchPosition::Separator; return Ok(false); }; self.buf_pos.end = if let Some(p) = self.find_line(self.buf_pos.qual) { p - 1 } else { self.search_pos = SearchPosition::Quality; return Ok(false); }; self.validate()?; Ok(true) } // Resumes reading an incomplete record without // re-searching positions that were already found. // The resulting position may still be incomplete (-> false). fn find_incomplete(&mut self) -> Result { if self.search_pos == SearchPosition::Id { self.buf_pos.seq = if let Some(p) = self.find_line(self.buf_pos.start) { p } else { self.search_pos = SearchPosition::Id; return Ok(false); }; } if self.search_pos <= SearchPosition::Sequence { self.buf_pos.sep = if let Some(p) = self.find_line(self.buf_pos.seq) { p } else { self.search_pos = SearchPosition::Sequence; return Ok(false); }; } if self.search_pos <= SearchPosition::Separator { self.buf_pos.qual = if let Some(p) = self.find_line(self.buf_pos.sep) { p } else { self.search_pos = SearchPosition::Separator; return Ok(false); }; } if self.search_pos <= SearchPosition::Quality { self.buf_pos.end = if let Some(p) = self.find_line(self.buf_pos.qual) { p - 1 } else { self.search_pos = SearchPosition::Quality; return Ok(false); }; } self.search_pos = SearchPosition::Id; self.validate()?; Ok(true) } /// Verify that the record is valid: /// - starts with @ /// - separator line starts with - /// - quality and sequence have the same length fn validate(&mut self) -> Result<(), ParseError> { let start_byte = self.get_buf()[self.buf_pos.start]; if start_byte != b'@' { self.finished = true; return Err(ParseError::new_invalid_start( start_byte, self.get_error_pos(0, false), Format::Fastq, )); } let sep_byte = self.get_buf()[self.buf_pos.sep]; if sep_byte != b'+' { self.finished = true; return Err(ParseError::new_invalid_separator( sep_byte, self.get_error_pos(2, true), )); } let buf = self.get_buf(); // We assume we only have ASCII in sequence and quality let seq_len = self.buf_pos.seq(buf).len(); let qual_len = self.buf_pos.qual(buf).len(); // TODO: we don't do that every time because it's a ~90% performance penalty. // TODO: mention it on the README // And we can further validate quality chars // and the vast majority of files don't have this issue // let qual_len = self // .buf_pos // .qual(&buf) // .iter() // .filter(|c| *c >= &b'!' && *c <= &b'~') // .count(); if seq_len != qual_len { self.finished = true; return Err(ParseError::new_unequal_length( seq_len, qual_len, self.get_error_pos(0, true), )); } Ok(()) } fn get_error_pos(&self, line_offset: u64, parse_id: bool) -> ErrorPosition { let id = if parse_id && self.buf_pos.seq - self.buf_pos.start > 1 { let id = self .buf_pos .id(self.get_buf()) .split(|b| *b == b' ') .next() .unwrap(); Some(String::from_utf8_lossy(id).into()) } else { None }; ErrorPosition { line: self.position.line() + line_offset, id, } } #[inline] fn find_line(&self, search_start: usize) -> Option { memchr(b'\n', &self.get_buf()[search_start..]).map(|pos| search_start + pos + 1) } /// Called when we couldn't find a complete record. /// We might be at EOF, buffer might be too small or we need to refill it fn next_complete(&mut self) -> Result { loop { if self.get_buf().len() < self.buf_reader.capacity() { // EOF reached, there will be no next record return self.check_end(); } if self.buf_pos.start == 0 { // first record already incomplete -> buffer too small self.grow(); } else { // not the first record -> buffer may be big enough but we need to make some space self.make_room(); } fill_buf(&mut self.buf_reader)?; if self.find_incomplete()? { return Ok(true); } } } /// Checks for EOF. /// If there is one last record that can be sent, return `true` otherwise `false`. fn check_end(&mut self) -> Result { self.finished = true; if self.search_pos == SearchPosition::Quality { // no line ending at end of last record self.buf_pos.end = self.get_buf().len(); self.validate()?; return Ok(true); } // It allows some blank lines at the end of the file let rest = &self.get_buf()[self.buf_pos.start..]; if rest.split(|c| *c == b'\n').all(|l| trim_cr(l).is_empty()) { return Ok(false); } Err(ParseError::new_unexpected_end( self.get_error_pos(self.search_pos as u64, self.search_pos > SearchPosition::Id), Format::Fastq, )) } // Grow the internal buffer. Used if the original buffer is not big // enough for a record fn grow(&mut self) { let cap = self.buf_reader.capacity(); let new_size = grow_to(cap); let additional = new_size - cap; self.buf_reader.reserve(additional); } // Consume bytes from records we've seen and move incomplete bytes to start of buffer fn make_room(&mut self) { let consumed = self.buf_pos.start; self.buf_reader.consume(consumed); self.buf_reader.make_room(); self.buf_pos.start = 0; if self.search_pos >= SearchPosition::Sequence { self.buf_pos.seq -= consumed; } if self.search_pos >= SearchPosition::Separator { self.buf_pos.sep -= consumed; } if self.search_pos >= SearchPosition::Quality { self.buf_pos.qual -= consumed; } } } impl FastxReader for Reader { fn next(&mut self) -> Option> { // No more records to read if self.finished { return None; } // Empty buffer, let's fill it if self.get_buf().is_empty() { // If we get an ParseError when reading or get back 0 bytes, we're done match fill_buf(&mut self.buf_reader) { Ok(n) => { if n == 0 { self.finished = true; return None; } } Err(e) => { return Some(Err(e.into())); } }; } // If we already did look at a record, let's setup for the next one if !self.buf_pos.is_new() { self.position.byte += self.buf_pos.len(); self.position.line += 4; self.buf_pos.start = self.buf_pos.end + 1; } // Can we identify all the positions of each element of the next record? let complete = match self.find() { Ok(f) => f, Err(e) => { return Some(Err(e)); } }; // If it's not complete, try to fetch more from the buffer until we have it in full if !complete { // Did we get a record? let got_record = match self.next_complete() { Ok(f) => f, Err(e) => { return Some(Err(e)); } }; if !got_record { return None; } } if self.line_ending.is_none() { self.line_ending = self.buf_pos.find_line_ending(self.get_buf()); } // We got one! Some(Ok(SequenceRecord::new_fastq( self.get_buf(), &self.buf_pos, &self.position, self.line_ending, ))) } fn position(&self) -> &Position { &self.position } fn line_ending(&self) -> Option { self.line_ending } } #[cfg(test)] mod test { use std::io::Cursor; use super::Reader; use crate::errors::ParseErrorKind; use crate::parser::utils::LineEnding; use crate::FastxReader; fn seq(s: &[u8]) -> Cursor<&[u8]> { Cursor::new(s) } #[test] fn test_simple_fastq() { // Test both line endings let sequences = vec![ ( "@test\nAGCT\n+test\n~~a!\n@test2\nTGCA\n+test\nWUI9", LineEnding::Unix, ), ( "@test\r\nAGCT\r\n+test\r\n~~a!\r\n@test2\r\nTGCA\r\n+test\r\nWUI9", LineEnding::Windows, ), ]; for (sequence, line_ending) in sequences { let mut i = 0; let mut reader = Reader::new(seq(sequence.as_bytes())); while let Some(record) = reader.next() { let rec = record.unwrap(); match i { 0 => { assert_eq!(&rec.id(), b"test"); assert_eq!(&rec.raw_seq(), b"AGCT"); assert_eq!(&rec.qual().unwrap(), b"~~a!"); assert_eq!(reader.line_ending().unwrap(), line_ending); } 1 => { assert_eq!(&rec.id(), b"test2"); assert_eq!(&rec.raw_seq(), b"TGCA"); assert_eq!(&rec.qual().unwrap(), b"WUI9"); assert_eq!(reader.line_ending().unwrap(), line_ending); } _ => unreachable!("Too many records"), } i += 1; } assert_eq!(i, 2); } } #[test] fn test_eof_in_qual() { let mut reader = Reader::new(seq(b"@test\nACGT\n+\nIII")); let rec = reader.next().unwrap(); assert!(rec.is_err()); let e = rec.unwrap_err(); // Not a eof error due to the way the validate is implemented assert_eq!(e.kind, ParseErrorKind::UnequalLengths); } #[test] fn test_eof_in_seq() { let mut reader = Reader::new(seq(b"@test\nAGCT\n+test\n~~a!\n@test2\nTGCA")); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let rec2 = reader.next().unwrap(); assert!(rec2.is_err()); let e = rec2.unwrap_err(); assert_eq!(e.kind, ParseErrorKind::UnexpectedEnd); } #[test] fn test_extra_empty_newlines_at_end_are_ok() { let mut reader = Reader::new(seq(b"@test\nAGCT\n+test\n~~a!\n\n")); let rec = reader.next().unwrap(); assert!(rec.is_ok()); assert!(reader.next().is_none()); } #[test] fn test_extra_non_empty_newlines_at_end_are_not_ok() { let mut reader = Reader::new(seq(b"@test\nAGCT\n+test\n~~a!\n\n@TEST\nA\n+TEST\n~")); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let rec2 = reader.next().unwrap(); let e = rec2.unwrap_err(); assert_eq!(e.kind, ParseErrorKind::InvalidStart); } #[test] fn test_empty_records() { let mut reader = Reader::new(seq(b"@\n\n+\n\n@test2\nTGCA\n+test2\n~~~~\n")); let mut i = 0; while let Some(record) = reader.next() { let rec = record.unwrap(); match i { 0 => { assert_eq!(&rec.id(), b""); assert_eq!(&rec.raw_seq(), b""); assert_eq!(&rec.qual().unwrap(), b""); assert_eq!(rec.all(), b"@\n\n+\n"); } 1 => { assert_eq!(&rec.id(), b"test2"); assert_eq!(&rec.raw_seq(), b"TGCA"); assert_eq!(&rec.qual().unwrap(), b"~~~~"); assert_eq!(rec.all(), b"@test2\nTGCA\n+test2\n~~~~"); } _ => unreachable!("Too many records"), } i += 1; } assert_eq!(i, 2); } #[test] fn test_weird_ncbi_file() { let test = b"@NCBI actually has files like this\nACGTACGATCGTACGTAGCTGCTAGCTAGCATGCATGACACACACGTACGATCGTACGTAGCTGCTAGCTAGCATGCATGACACAC\n+\n00000000000000000000000000000000000000000000000000000000000000000000000000000000000000\n@NCBI actually has files like this\n\n+\n\n@NCBI actually has files like this\nACGTACGATCGTACGTAGCTGCTAGCTAGCATGCATGACACACACGTACGATCGTACGTAGCTGCTAGCTAGCATGCATGACACAC\n+\n00000000000000000000000000000000000000000000000000000000000000000000000000000000000000"; let mut reader = Reader::new(seq(test)); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.start_line_number(), 1); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.start_line_number(), 5); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let r = rec.unwrap(); assert_eq!(r.start_line_number(), 9); } #[test] fn test_mismatched_lengths() { let mut reader = Reader::new(seq(b"@test\nAGCT\n+\nIII\n@TEST\nA\n+\nI")); let rec = reader.next().unwrap(); assert!(rec.is_err()); let e = rec.unwrap_err(); assert_eq!(e.kind, ParseErrorKind::UnequalLengths); } // https://github.com/onecodex/needletail/pull/36 #[test] fn test_bad_headers() { let mut reader = Reader::from_path("tests/data/bad_header.fastq").unwrap(); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let rec2 = reader.next().unwrap(); let e = rec2.unwrap_err(); // Ideally this would not be UnexpectedEnd since we know it's an invalid record // but that's for another day assert_eq!(e.kind, ParseErrorKind::UnexpectedEnd); } // https://github.com/onecodex/needletail/pull/39 #[test] fn test_fastq_with_random_tsv_inside() { let mut reader = Reader::from_path("tests/data/random_tsv.fq").unwrap(); let rec = reader.next().unwrap(); assert!(rec.is_ok()); let rec2 = reader.next().unwrap(); let e = rec2.unwrap_err(); // It errors when it tries to validate the separator line that needs to start with `+` assert_eq!(e.kind, ParseErrorKind::InvalidSeparator); } } needletail-0.6.3/src/parser/mod.rs000064400000000000000000000214061046102023000151530ustar 00000000000000//! Handles all the FASTA/FASTQ parsing use std::fs::File; use std::io::{stdin, Cursor, Read}; use std::path::Path; #[cfg(feature = "bzip2")] use bzip2::read::BzDecoder; #[cfg(feature = "flate2")] use flate2::read::MultiGzDecoder; #[cfg(feature = "xz2")] use liblzma::read::XzDecoder; #[cfg(feature = "zstd")] use zstd::stream::read::Decoder as ZstdDecoder; use crate::errors::ParseError; pub use crate::parser::fasta::Reader as FastaReader; pub use crate::parser::fastq::Reader as FastqReader; mod record; mod utils; mod fasta; mod fastq; pub use crate::parser::utils::FastxReader; // Magic bytes for each compression format #[cfg(feature = "flate2")] const GZ_MAGIC: [u8; 2] = [0x1F, 0x8B]; #[cfg(feature = "bzip2")] const BZ_MAGIC: [u8; 2] = [0x42, 0x5A]; #[cfg(feature = "xz2")] const XZ_MAGIC: [u8; 2] = [0xFD, 0x37]; #[cfg(feature = "zstd")] const ZST_MAGIC: [u8; 2] = [0x28, 0xB5]; fn get_fastx_reader<'a, R: 'a + io::Read + Send>( reader: R, first_byte: u8, ) -> Result, ParseError> { match first_byte { b'>' => Ok(Box::new(FastaReader::new(reader))), b'@' => Ok(Box::new(FastqReader::new(reader))), _ => Err(ParseError::new_unknown_format(first_byte)), } } /// The main entry point of needletail if you're reading from something that implements [`std::io::Read`]. /// This automatically detects whether the file is: /// 1. compressed: [`gzip`][gzip], [`bz`][bz], [`xz`][xz], and [`zstd`][zstd] are supported and will use the appropriate decoder /// 2. FASTA or FASTQ: the right parser will be automatically instantiated /// /// Option 1 is only available if the `compression` feature is enabled. /// /// # Errors /// /// If the object you're reading from has less than 2 bytes then a [`ParserError`](needletail::errors::ParserError) of the kind /// [`ParseErrorKind::EmptyFile`](needletail::errors::ParseErrorKind::EmptyFile) is returned. /// /// If the first byte in the object is unknown, then a `ParserError` of the kind /// [`ParseErrorKind::UnknownFormat`](needletail::errors::ParseErrorKind::UnknownFormat) is returned. /// /// # Examples /// /// ``` /// use needletail::parse_fastx_reader; /// /// let reader = ">read1\nACGT\nread2\nGGGG".as_bytes(); /// let mut fastx_reader = parse_fastx_reader(reader).expect("invalid reader"); /// let mut idx = 0; /// let read_ids = [b"read1", b"read2"]; /// /// while let Some(r) = fastx_reader.next() { /// let record = r.expect("invalid record"); /// assert_eq!(record.id(), read_ids[idx]); /// idx += 1; /// } /// ``` /// /// [gzip]: https://www.gnu.org/software/gzip/ /// [bz]: https://sourceware.org/bzip2/ /// [xz]: https://tukaani.org/xz/format.html /// [zstd]: https://facebook.github.io/zstd/ /// pub fn parse_fastx_reader<'a, R: 'a + io::Read + Send>( mut reader: R, ) -> Result, ParseError> { let mut first_two_bytes = [0; 2]; reader .read_exact(&mut first_two_bytes) .map_err(|_| ParseError::new_empty_file())?; let first_two_cursor = Cursor::new(first_two_bytes); let new_reader = first_two_cursor.chain(reader); match first_two_bytes { #[cfg(feature = "flate2")] GZ_MAGIC => { let mut gz_reader = MultiGzDecoder::new(new_reader); let mut first = [0; 1]; gz_reader .read_exact(&mut first) .map_err(|e| match e.kind() { io::ErrorKind::UnexpectedEof => ParseError::new_empty_file(), _ => e.into(), })?; let r = Cursor::new(first).chain(gz_reader); get_fastx_reader(r, first[0]) } #[cfg(feature = "bzip2")] BZ_MAGIC => { let mut bz_reader = BzDecoder::new(new_reader); let mut first = [0; 1]; bz_reader .read_exact(&mut first) .map_err(|e| match e.kind() { io::ErrorKind::UnexpectedEof => ParseError::new_empty_file(), _ => e.into(), })?; let r = Cursor::new(first).chain(bz_reader); get_fastx_reader(r, first[0]) } #[cfg(feature = "xz2")] XZ_MAGIC => { let mut xz_reader = XzDecoder::new(new_reader); let mut first = [0; 1]; xz_reader .read_exact(&mut first) .map_err(|e| match e.kind() { io::ErrorKind::UnexpectedEof => ParseError::new_empty_file(), _ => e.into(), })?; let r = Cursor::new(first).chain(xz_reader); get_fastx_reader(r, first[0]) } #[cfg(feature = "zstd")] ZST_MAGIC => { let mut zst_reader = ZstdDecoder::new(new_reader)?; let mut first = [0; 1]; zst_reader .read_exact(&mut first) .map_err(|e| match e.kind() { io::ErrorKind::UnexpectedEof => ParseError::new_empty_file(), _ => e.into(), })?; let r = Cursor::new(first).chain(zst_reader); get_fastx_reader(r, first[0]) } _ => get_fastx_reader(new_reader, first_two_bytes[0]), } } /// The main entry point of needletail if you're reading from stdin. /// Shortcut to calling `parse_fastx_reader` with `stdin()` pub fn parse_fastx_stdin() -> Result, ParseError> { let stdin = stdin(); parse_fastx_reader(stdin) } /// The main entry point of needletail if you're reading from a file. /// Shortcut to calling `parse_fastx_reader` with a file pub fn parse_fastx_file>(path: P) -> Result, ParseError> { parse_fastx_reader(File::open(&path)?) } pub use record::{mask_header_tabs, mask_header_utf8, write_fasta, write_fastq, SequenceRecord}; use std::io; pub use utils::{Format, LineEnding}; #[cfg(test)] mod test { use crate::errors::ParseErrorKind; use crate::parse_fastx_reader; #[cfg(feature = "bzip2")] use bzip2::{read::BzEncoder, Compression as BzCompression}; #[cfg(feature = "flate2")] use flate2::{write::GzEncoder, Compression as GzCompression}; #[cfg(feature = "xz2")] use liblzma::write::XzEncoder; #[cfg(feature = "zstd")] use zstd::stream::write::Encoder as ZstdEncoder; #[test] fn test_empty_file_raises_parser_error_of_same_kind() { let reader = "".as_bytes(); let actual = parse_fastx_reader(reader); assert!(actual.is_err()); let actual_err = actual.err().unwrap().kind; let expected_err = ParseErrorKind::EmptyFile; assert_eq!(actual_err, expected_err); } #[test] fn test_only_one_byte_in_file_raises_empty_file_error() { let reader = "@".as_bytes(); let actual = parse_fastx_reader(reader); assert!(actual.is_err()); let actual_err = actual.err().unwrap().kind; let expected_err = ParseErrorKind::EmptyFile; assert_eq!(actual_err, expected_err); } #[cfg(feature = "flate2")] #[test] fn test_empty_gz_raises_empty_file_error() { let encoder = GzEncoder::new(Vec::new(), GzCompression::default()); let compressed_bytes = encoder.finish().unwrap(); let actual = parse_fastx_reader(compressed_bytes.as_slice()); assert!(actual.is_err()); let actual_err = actual.err().unwrap().kind; let expected_err = ParseErrorKind::EmptyFile; assert_eq!(actual_err, expected_err); } #[cfg(feature = "bzip2")] #[test] fn test_empty_bz_raises_empty_file_error() { let encoder = BzEncoder::new("".as_bytes(), BzCompression::default()); let actual = parse_fastx_reader(encoder); assert!(actual.is_err()); let actual_err = actual.err().unwrap().kind; let expected_err = ParseErrorKind::EmptyFile; assert_eq!(actual_err, expected_err); } #[cfg(feature = "xz2")] #[test] fn test_empty_xz_raises_empty_file_error() { let encoder = XzEncoder::new(Vec::new(), 9); let compressed_bytes = encoder.finish().unwrap(); let actual = parse_fastx_reader(compressed_bytes.as_slice()); assert!(actual.is_err()); let actual_err = actual.err().unwrap().kind; let expected_err = ParseErrorKind::EmptyFile; assert_eq!(actual_err, expected_err); } #[cfg(feature = "zstd")] #[test] fn test_empty_zstd_raises_empty_file_error() { let encoder = ZstdEncoder::new(Vec::new(), zstd::DEFAULT_COMPRESSION_LEVEL).unwrap(); let compressed_bytes = encoder.finish().unwrap(); let actual = parse_fastx_reader(compressed_bytes.as_slice()); assert!(actual.is_err()); let actual_err = actual.err().unwrap().kind; let expected_err = ParseErrorKind::EmptyFile; assert_eq!(actual_err, expected_err); } } needletail-0.6.3/src/parser/record.rs000064400000000000000000000171261046102023000156560ustar 00000000000000use std::borrow::Cow; use std::io::Write; use memchr::memchr; use crate::errors::ParseError; use crate::parser::fasta::BufferPosition as FastaBufferPosition; use crate::parser::fastq::BufferPosition as FastqBufferPosition; use crate::parser::utils::{Format, LineEnding, Position}; use crate::Sequence; #[derive(Debug, Clone)] enum BufferPositionKind<'a> { Fasta(&'a FastaBufferPosition), Fastq(&'a FastqBufferPosition), } /// A FASTA or FASTQ record #[derive(Debug, Clone)] pub struct SequenceRecord<'a> { buffer: &'a [u8], buf_pos: BufferPositionKind<'a>, position: &'a Position, line_ending: LineEnding, } impl<'a> SequenceRecord<'a> { pub(crate) fn new_fasta( buffer: &'a [u8], buf_pos: &'a FastaBufferPosition, position: &'a Position, line_ending: Option, ) -> Self { Self { buffer, position, buf_pos: BufferPositionKind::Fasta(buf_pos), line_ending: line_ending.unwrap_or(LineEnding::Unix), } } pub(crate) fn new_fastq( buffer: &'a [u8], buf_pos: &'a FastqBufferPosition, position: &'a Position, line_ending: Option, ) -> Self { Self { buffer, position, buf_pos: BufferPositionKind::Fastq(buf_pos), line_ending: line_ending.unwrap_or(LineEnding::Unix), } } /// Returns the format of the record #[inline] pub fn format(&self) -> Format { match self.buf_pos { BufferPositionKind::Fasta(_) => Format::Fasta, BufferPositionKind::Fastq(_) => Format::Fastq, } } /// Returns the id of the record #[inline] pub fn id(&self) -> &[u8] { match self.buf_pos { BufferPositionKind::Fasta(bp) => bp.id(self.buffer), BufferPositionKind::Fastq(bp) => bp.id(self.buffer), } } /// Returns the raw sequence of the record. Only matters for FASTA since it can contain /// newlines. #[inline] pub fn raw_seq(&self) -> &[u8] { match self.buf_pos { BufferPositionKind::Fasta(bp) => bp.raw_seq(self.buffer), BufferPositionKind::Fastq(bp) => bp.seq(self.buffer), } } /// Returns the cleaned up sequence of the record. For FASTQ it is the same as `raw_seq` but /// for FASTA it is `raw_seq` minus all the `\r\n` pub fn seq(&self) -> Cow<[u8]> { match self.buf_pos { BufferPositionKind::Fasta(bp) => bp.seq(self.buffer), BufferPositionKind::Fastq(bp) => bp.seq(self.buffer).into(), } } /// Returns the quality line if there is one. /// Always `None` for FASTA and `Some` for FASTQ, even if the quality line is empty. #[inline] pub fn qual(&self) -> Option<&[u8]> { match self.buf_pos { BufferPositionKind::Fasta(_) => None, BufferPositionKind::Fastq(bp) => Some(bp.qual(self.buffer)), } } /// Returns the full sequence, including line endings. This doesn't include a trailing newline. #[inline] pub fn all(&self) -> &[u8] { match self.buf_pos { BufferPositionKind::Fasta(bp) => bp.all(self.buffer), BufferPositionKind::Fastq(bp) => bp.all(self.buffer), } } /// Return the number of bases in the sequence, computed efficiently. #[inline] pub fn num_bases(&self) -> usize { match self.buf_pos { BufferPositionKind::Fasta(bp) => bp.num_bases(self.buffer), BufferPositionKind::Fastq(bp) => bp.num_bases(self.buffer), } } /// Return the line number in the file of the start of the sequence pub fn start_line_number(&self) -> u64 { self.position.line } /// Return the line/byte position of the start of the sequence pub fn position(&self) -> &Position { self.position } /// Which line ending is this record using? pub fn line_ending(&self) -> LineEnding { self.line_ending } /// Write record back to a `Write` instance. By default it will use the original line ending but /// you can force it to use another one. pub fn write( &self, writer: &mut dyn Write, forced_line_ending: Option, ) -> Result<(), ParseError> { match self.buf_pos { BufferPositionKind::Fasta(_) => write_fasta( self.id(), self.raw_seq(), writer, forced_line_ending.unwrap_or(self.line_ending), ), BufferPositionKind::Fastq(_) => write_fastq( self.id(), self.raw_seq(), self.qual(), writer, forced_line_ending.unwrap_or(self.line_ending), ), } } } impl<'a> Sequence<'a> for SequenceRecord<'a> { fn sequence(&'a self) -> &'a [u8] { self.raw_seq() } } /// Mask tabs in header lines to `|`s pub fn mask_header_tabs(id: &[u8]) -> Option> { memchr(b'\t', id).map(|_| { id.iter() .map(|x| if *x == b'\t' { b'|' } else { *x }) .collect() }) } /// Convert bad UTF8 characters into �s pub fn mask_header_utf8(id: &[u8]) -> Option> { // this may potentially change the length of the id; we should probably // be doing something trickier like converting match String::from_utf8_lossy(id) { Cow::Owned(s) => Some(s.into_bytes()), Cow::Borrowed(_) => None, } } /// Write a FASTA record pub fn write_fasta( id: &[u8], seq: &[u8], writer: &mut dyn Write, line_ending: LineEnding, ) -> Result<(), ParseError> { let ending = line_ending.to_bytes(); writer.write_all(b">")?; writer.write_all(id)?; writer.write_all(&ending)?; writer.write_all(seq)?; writer.write_all(&ending)?; Ok(()) } pub fn write_fastq( id: &[u8], seq: &[u8], qual: Option<&[u8]>, writer: &mut dyn Write, line_ending: LineEnding, ) -> Result<(), ParseError> { let ending = line_ending.to_bytes(); writer.write_all(b"@")?; writer.write_all(id)?; writer.write_all(&ending)?; writer.write_all(seq)?; writer.write_all(&ending)?; writer.write_all(b"+")?; writer.write_all(&ending)?; // this is kind of a hack, but we want to allow writing out sequences // that don't have qualitys so this will mask to "good" if the quality // slice is empty if let Some(qual) = qual { writer.write_all(qual)?; } else { writer.write_all(&vec![b'I'; seq.len()])?; } writer.write_all(&ending)?; Ok(()) } #[cfg(test)] mod test { use std::io::Cursor; use crate::parse_fastx_reader; fn seq(s: &[u8]) -> Cursor<&[u8]> { Cursor::new(s) } #[test] fn test_start_line_number() { let mut reader = parse_fastx_reader(seq(b"@test\nACGT\n+\nIIII\n@test2\nACGT\n+\nIIII")).unwrap(); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.start_line_number(), 1); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.start_line_number(), 5); } #[test] fn test_position() { let mut reader = parse_fastx_reader(seq( b"@test1\nACGT\n+\nIIII\n@test222\nACGT\n+\nIIII\n@test3\nACGT\n+\nIIII", )) .unwrap(); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.position().byte(), 0); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.position().byte(), 19); let rec = reader.next().unwrap().unwrap(); assert_eq!(rec.position().byte(), 40); } } needletail-0.6.3/src/parser/utils.rs000064400000000000000000000066031046102023000155360ustar 00000000000000use std::io; use memchr::memchr; use crate::errors::ParseError; use crate::parser::record::SequenceRecord; pub(crate) const BUFSIZE: usize = 64 * 1024; /// Remove a final '\r' from a byte slice #[inline] pub(crate) fn trim_cr(line: &[u8]) -> &[u8] { if let Some((&b'\r', remaining)) = line.split_last() { remaining } else { line } } /// Standard buffer policy: buffer size /// doubles until it reaches 8 MiB. Above, it will /// increase in steps of 8 MiB. Buffer size is not limited, /// it could theoretically grow indefinitely. pub(crate) fn grow_to(current_size: usize) -> usize { if current_size < 1 << 23 { current_size * 2 } else { current_size + (1 << 23) } } /// Makes sure the buffer is full after this call (unless EOF reached) /// code adapted from `io::Read::read_exact` pub(crate) fn fill_buf(reader: &mut buffer_redux::BufReader) -> io::Result where R: io::Read, { let initial_size = reader.buffer().len(); let mut num_read = 0; while initial_size + num_read < reader.capacity() { match reader.read_into_buf() { Ok(0) => break, Ok(n) => num_read += n, Err(ref e) if e.kind() == io::ErrorKind::Interrupted => {} Err(e) => return Err(e), } } Ok(num_read) } /// Holds line number and byte offset of our current state in a parser #[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord)] pub struct Position { pub(crate) line: u64, pub(crate) byte: u64, } impl Position { pub fn new(line: u64, byte: u64) -> Self { Self { line, byte } } /// Line number (starting with 1) pub fn line(&self) -> u64 { self.line } /// Byte offset within the file pub fn byte(&self) -> u64 { self.byte } } /// FASTA or FASTQ? #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum Format { Fasta, Fastq, } impl Format { pub fn start_char(&self) -> char { match self { Self::Fasta => '>', Self::Fastq => '@', } } } /// Whether it uses \r\n or only \n #[derive(Debug, PartialEq, Eq, Hash, Copy, Clone)] pub enum LineEnding { Windows, Unix, } impl LineEnding { pub fn to_bytes(&self) -> Vec { match self { Self::Windows => vec![b'\r', b'\n'], Self::Unix => vec![b'\n'], } } } pub fn find_line_ending(bytes: &[u8]) -> Option { if !bytes.is_empty() { if let Some(idx) = memchr(b'\n', bytes) { if idx > 0 && bytes[idx - 1] == b'\r' { return Some(LineEnding::Windows); } return Some(LineEnding::Unix); } } None } /// The main trait, iterator-like, that the FASTA and FASTQ readers implement pub trait FastxReader: Send { /// Gets the next record in the stream. /// This imitates the Iterator API but does not support any iterator functions. /// This returns None once we reached the EOF. fn next(&mut self) -> Option>; /// Returns the current line/byte in the stream we are reading from fn position(&self) -> &Position; /// Returns whether the current stream uses Windows or Unix style line endings /// It is `None` only before calling `next`, once `next` has been called it will always /// return a line ending. fn line_ending(&self) -> Option; } needletail-0.6.3/src/python.rs000064400000000000000000000265321046102023000144260ustar 00000000000000//! Python bindings for needletail // TODO: // - Add a property to the `Record` class that returns the quality scores as a // list of integers. // - Make the return values of `__repr__` and `__str__` show up as raw strings. // - Make `normalize_seq` and `reverse_complement` functions able to handle // `Record` objects as input. use crate::sequence::{complement, normalize}; use crate::{ parse_fastx_file as rs_parse_fastx_file, parse_fastx_reader, parser::SequenceRecord, FastxReader, }; use pyo3::exceptions::PyValueError; use pyo3::prelude::*; use pyo3::{create_exception, wrap_pyfunction}; use std::hash::{DefaultHasher, Hash, Hasher}; use std::io::Cursor; use std::path::PathBuf; create_exception!(needletail, NeedletailError, pyo3::exceptions::PyException); // Avoid some boilerplate with the error handling macro_rules! py_try { ($call:expr) => { $call.map_err(|e| PyErr::new::(format!("{}", e)))? }; } fn get_seq_snippet(seq: &str, max_len: usize) -> String { if seq.len() > max_len { let start = &seq[..max_len - 4]; let end = &seq[seq.len() - 3..]; format!("{}…{}", start, end) } else { seq.to_string() } } /// An iterator that yields sequence records. /// /// Yields /// ------ /// Record /// A `Record` object representing a sequence record. /// /// See also /// -------- /// parse_fastx_file: /// A function to parse sequence records from a FASTA/FASTQ file. /// parse_fastx_string: /// A function to parse sequence records from a FASTA/FASTQ string. /// Record: /// A class representing a FASTA/FASTQ sequence record. #[pyclass] pub struct PyFastxReader { reader: Box, } #[pymethods] impl PyFastxReader { fn __repr__(&self) -> PyResult { Ok("".to_string()) } fn __iter__(slf: PyRefMut) -> PyRefMut { slf } fn __next__(mut slf: PyRefMut) -> PyResult> { if let Some(rec) = slf.reader.next() { let record = py_try!(rec); Ok(Some(Record::from_sequence_record(&record))) } else { Ok(None) } } } /// A record representing a biological sequence. /// /// Parameters /// ---------- /// id : str /// The identifier of the sequence record. /// seq : str /// A string representing the sequence. /// /// Attributes /// ---------- /// id : str /// The identifier of the sequence record. In a FASTA file, this is the /// string containing all characters (including whitespaces) after the /// leading '>' character. In a FASTQ file, this is the string containing /// all characters (including whitespaces) after the leading '@' character. /// seq : str /// A string representing the sequence. /// qual : str, optional /// A string representing the quality scores of the sequence. If the object /// represents a FASTA record, this attribute will be `None`. /// name : str /// The name of the sequence record. This is the string before the first /// whitespace character in the `id` attribute. /// description : str, optional /// The description of the sequence record. This is the string after the /// first whitespace character in the `id` attribute. If the `id` attribute /// contains no whitespace characters, this attribute will be `None`. /// /// Methods /// ------- /// is_fasta /// Check if the object represents a FASTA record. /// is_fastq /// Check if the object represents a FASTQ record. /// normalize(iupac) /// Normalize the sequence stored in the `seq` attribute of the object. #[pyclass] pub struct Record { #[pyo3(get)] id: String, #[pyo3(get)] seq: String, #[pyo3(get)] qual: Option, } impl Record { fn from_sequence_record(rec: &SequenceRecord) -> Self { Self { id: String::from_utf8_lossy(rec.id()).to_string(), seq: String::from_utf8_lossy(&rec.seq()).to_string(), qual: rec.qual().map(|q| String::from_utf8_lossy(q).to_string()), } } } #[pymethods] impl Record { #[getter] pub fn name(&self) -> PyResult<&str> { if let Some(pos) = self.id.find(char::is_whitespace) { Ok(&self.id[..pos]) } else { Ok(&self.id) } } #[getter] pub fn description(&self) -> PyResult> { if let Some(pos) = self.id.find(char::is_whitespace) { Ok(Some(&self.id[pos..].trim_start())) } else { Ok(None) } } /// Check if the object represents a FASTA record. /// /// Returns /// ------- /// bool /// `True` if the record lacks quality information, otherwise `False`. pub fn is_fasta(&self) -> PyResult { Ok(self.qual.is_none()) } /// Check if the object represents a FASTQ record. /// /// Returns /// ------- /// bool /// `True` if the record has quality information, otherwise `False`. pub fn is_fastq(&self) -> PyResult { Ok(self.qual.is_some()) } /// Normalize the sequence stored in the `seq` attribute of the object. /// /// See also /// -------- /// normalize_seq: A function to normalize nucleotide sequence strings. #[pyo3(signature = (iupac=false))] pub fn normalize(&mut self, iupac: bool) -> PyResult<()> { if let Some(s) = normalize(self.seq.as_bytes(), iupac) { self.seq = String::from_utf8_lossy(&s).to_string(); } Ok(()) } #[new] #[pyo3(signature = (id, seq, qual=None))] fn new(id: String, seq: String, qual: Option) -> PyResult { // If `qual` is not None, check if it has the same length as `seq` if let Some(qual) = &qual { if qual.len() != seq.len() { return Err(PyValueError::new_err( "Sequence and quality strings must have the same length", )); } } Ok(Record { id, seq, qual }) } pub fn __hash__(&self) -> PyResult { let mut hasher = DefaultHasher::new(); self.id.hash(&mut hasher); self.seq.hash(&mut hasher); match &self.qual { Some(qual) => qual.hash(&mut hasher), None => {} } Ok(hasher.finish()) } pub fn __eq__(&self, other: &Record) -> PyResult { Ok(self.id == other.id && self.seq == other.seq && self.qual == other.qual) } pub fn __len__(&self) -> PyResult { Ok(self.seq.len()) } pub fn __str__(&self) -> PyResult { if self.qual.is_none() { Ok(format!(">{}\n{}\n", self.id, self.seq)) } else { Ok(format!( "@{}\n{}\n+\n{}\n", self.id, self.seq, self.qual.clone().unwrap() )) } } fn __repr__(&self) -> PyResult { let id_snippet = match self.name() { Ok(name) if name != self.id => format!("{}…", name), Ok(name) => name.to_string(), Err(_) => self.id.clone(), }; let seq_snippet = get_seq_snippet(&self.seq, 20); let quality_snippet = match &self.qual { Some(qual) => get_seq_snippet(qual, 20), None => "None".to_string(), }; Ok(format!( "Record(id={}, seq={}, qual={})", id_snippet, seq_snippet, quality_snippet )) } } /// An iterator that reads sequence records from a FASTA/FASTQ file. /// /// Parameters /// ---------- /// path : str or pathlib.Path /// The path to a FASTA/FASTQ file. /// /// Returns /// ------- /// PyFastxReader /// A `PyFastxReader` iterator that yields `Record` objects representing /// sequences from the input file. /// /// Raises /// ------ /// NeedletailError /// If an error occurs while reading and parsing the input file. /// /// See also /// -------- /// parse_fastx_string: /// A function to parse sequence records from a FASTA/FASTQ string. /// PyFastxReader: /// A class with instances that are iterators that yield `Record` objects. #[pyfunction] fn parse_fastx_file(path: PathBuf) -> PyResult { let reader = py_try!(rs_parse_fastx_file(path)); Ok(PyFastxReader { reader }) } /// Parse sequence records from a FASTA/FASTQ string. /// /// Parameters /// ---------- /// content : str /// A string containing FASTA/FASTQ-formatted sequence records. /// /// Returns /// ------- /// PyFastxReader /// A `PyFastxReader` iterator that yields `Record` objects representing /// sequences from the input string. /// /// Raises /// ------ /// NeedletailError /// If an error occurs while parsing the input string. /// /// See also /// -------- /// parse_fastx_file: /// A function to parse sequence records from a FASTA/FASTQ file. /// PyFastxReader: /// A class with instances that are iterators that yield `Record` objects. #[pyfunction] fn parse_fastx_string(content: &str) -> PyResult { let reader = py_try!(parse_fastx_reader(Cursor::new(content.to_owned()))); Ok(PyFastxReader { reader }) } /// Normalize the sequence string of nucleotide records by: /// /// - Converting lowercase characters to uppercase. /// - Removing whitespace and newline characters. /// - Replacing 'U' with 'T'. /// - Replacing '.' and '~' with '-'. /// - Replacing characters not in 'ACGTN-' with 'N', unless `iupac` is `True`, /// in which case characters representing nucleotide ambiguity are not /// replaced. /// /// Parameters /// ---------- /// seq : str /// A string representing a nucleotide sequence. /// iupac : bool, default: False /// If `True`, characters representing nucleotide ambiguity ('B', 'D', /// 'H', 'V', 'R', 'Y', 'S', 'W', 'K', and 'M', and their lowercase /// forms) will not be converted to 'N'. Lowercase characters will still /// be converted to uppercase. /// /// Returns /// ------- /// str /// The normalized sequence string. /// /// Notes /// ----- /// The `normalize` method is designed for nucleotide sequences only. If /// used with protein sequences, it will incorrectly process amino acid /// characters as if they were nucleotides. #[pyfunction] #[pyo3(signature = (seq, iupac=false))] pub fn normalize_seq(seq: &str, iupac: bool) -> PyResult { if let Some(s) = normalize(seq.as_bytes(), iupac) { Ok(String::from_utf8_lossy(&s).to_string()) } else { Ok(seq.to_owned()) } } /// Compute the reverse complement of a nucleotide sequence. /// /// Parameters: /// ----------- /// seq : str /// A string representing a nucleotide sequence. /// /// Returns: /// -------- /// str /// The reverse complement of the input nucleotide sequence. #[pyfunction] pub fn reverse_complement(seq: &str) -> String { let comp: Vec = seq .as_bytes() .iter() .rev() .map(|n| complement(*n)) .collect(); String::from_utf8_lossy(&comp).to_string() } #[pymodule] fn needletail(py: Python, m: &Bound<'_, PyModule>) -> PyResult<()> { m.add_class::()?; m.add_class::()?; m.add_wrapped(wrap_pyfunction!(parse_fastx_file))?; m.add_wrapped(wrap_pyfunction!(parse_fastx_string))?; m.add_wrapped(wrap_pyfunction!(normalize_seq))?; m.add_wrapped(wrap_pyfunction!(reverse_complement))?; m.add("NeedletailError", py.get_type_bound::())?; Ok(()) } needletail-0.6.3/src/sequence.rs000064400000000000000000000300521046102023000147050ustar 00000000000000//! Generic functions for working with (primarily nucleic acid) sequences use std::borrow::Cow; use memchr::memchr2; use crate::bitkmer::BitNuclKmer; use crate::kmer::{CanonicalKmers, Kmers}; /// Transform a nucleic acid sequence into its "normalized" form. /// /// The normalized form is: /// - only AGCTN and possibly - (for gaps) /// - strip out any whitespace or line endings /// - lowercase versions of these are uppercased /// - U is converted to T (make everything a DNA sequence) /// - some other punctuation is converted to gaps /// - IUPAC bases may be converted to N's depending on the parameter passed in /// - everything else is considered a N pub fn normalize(seq: &[u8], allow_iupac: bool) -> Option> { let mut buf: Vec = Vec::with_capacity(seq.len()); let mut changed: bool = false; for n in seq { let (new_char, char_changed) = match (*n, allow_iupac) { c @ (b'A' | b'C' | b'G' | b'T' | b'N' | b'-', _) => (c.0, false), (b'a', _) => (b'A', true), (b'c', _) => (b'C', true), (b'g', _) => (b'G', true), // normalize uridine to thymine (b't' | b'u' | b'U', _) => (b'T', true), // normalize gaps (b'.' | b'~', _) => (b'-', true), // logic for IUPAC bases (a little messy) c @ (b'B' | b'D' | b'H' | b'V' | b'R' | b'Y' | b'S' | b'W' | b'K' | b'M', true) => { (c.0, false) } (b'b', true) => (b'B', true), (b'd', true) => (b'D', true), (b'h', true) => (b'H', true), (b'v', true) => (b'V', true), (b'r', true) => (b'R', true), (b'y', true) => (b'Y', true), (b's', true) => (b'S', true), (b'w', true) => (b'W', true), (b'k', true) => (b'K', true), (b'm', true) => (b'M', true), // remove all whitespace and line endings (b' ' | b'\t' | b'\r' | b'\n', _) => (b' ', true), // everything else is an N _ => (b'N', true), }; changed = changed || char_changed; if new_char != b' ' { buf.push(new_char); } } if changed { Some(buf) } else { None } } /// Returns the complementary base for a given IUPAC base code. /// /// Does not work for RNA sequences (maybe we should raise an error or something?) #[inline] pub fn complement(n: u8) -> u8 { match n { b'a' => b't', b'A' => b'T', b'c' => b'g', b'C' => b'G', b'g' => b'c', b'G' => b'C', b't' => b'a', b'T' => b'A', // IUPAC codes b'r' => b'y', b'y' => b'r', b'k' => b'm', b'm' => b'k', b'b' => b'v', b'v' => b'b', b'd' => b'h', b'h' => b'd', b's' => b's', b'w' => b'w', b'R' => b'Y', b'Y' => b'R', b'K' => b'M', b'M' => b'K', b'B' => b'V', b'V' => b'B', b'D' => b'H', b'H' => b'D', b'S' => b'S', b'W' => b'W', // anything else just pass through // 'u' | 'U' => panic!("Does not support complements of U"), x => x, } } /// Taking in a sequence string, return the canonical form of the sequence /// (e.g. the lexigraphically lowest of either the original sequence or its /// reverse complement) pub fn canonical(seq: &[u8]) -> Cow<[u8]> { let mut buf: Vec = Vec::with_capacity(seq.len()); // enough just keeps our comparisons from happening after they need to let mut enough = false; let mut original_was_canonical = false; // loop through the kmer and its reverse complement simultaneously for (rn, n) in seq.iter().rev().map(|n| complement(*n)).zip(seq.iter()) { buf.push(rn); if !enough && (*n < rn) { original_was_canonical = true; break; } else if !enough && (rn < *n) { enough = true; } // unstated if branch: if rn == n, keep comparing } match (original_was_canonical, enough) { (true, true) => panic!("Bug: should never set original_was_canonical if enough == true"), (true, false) => seq.into(), (false, true) => buf.into(), // the sequences were completely equal, return the ref (false, false) => seq.into(), } } /// Find the lexigraphically smallest substring of `seq` of length `length` /// /// There's probably a faster algorithm for this somewhere... pub fn minimizer(seq: &[u8], length: usize) -> Cow<[u8]> { let reverse_complement: Vec = seq.iter().rev().map(|n| complement(*n)).collect(); let mut minmer = Cow::Borrowed(&seq[..length]); for (kmer, rc_kmer) in seq.windows(length).zip(reverse_complement.windows(length)) { if *kmer < minmer[..] { minmer = kmer.into(); } if *rc_kmer < minmer[..] { minmer = rc_kmer.to_vec().into(); } } minmer } /// A generic FASTX record that also abstracts over several logical operations /// that can be performed on nucleic acid sequences. pub trait Sequence<'a> { fn sequence(&'a self) -> &'a [u8]; /// Remove newlines from the sequence; this handles `\r`, `\n`, and `\r\n` /// and removes internal newlines in addition to ones at the end. /// Primarily used for FASTA multiline records, but can also help process /// (the much rarer) multiline FASTQs. Always use before iteration methods /// below to ensure no newlines are being returned with e.g. `.kmers`. /// If you are using `normalize`, you do not need to call this function directly. fn strip_returns(&'a self) -> Cow<'a, [u8]> { let seq = self.sequence(); // first part is a fast check to see if we need to do any allocations let mut i; match memchr2(b'\r', b'\n', seq) { Some(break_loc) => i = break_loc, None => return seq.into(), } // we found a newline; create a new buffer and stripping out newlines // and writing into it let mut new_buf = Vec::with_capacity(seq.len() - 1); new_buf.extend_from_slice(&seq[..i]); while i < seq.len() { match memchr2(b'\r', b'\n', &seq[i..]) { None => { new_buf.extend_from_slice(&seq[i..]); break; } Some(match_pos) => { new_buf.extend_from_slice(&seq[i..i + match_pos]); i += match_pos + 1; } } } new_buf.into() } /// Returns the reverse complement of a sequence. Biologically this is /// equivalent to the sequence of the strand opposite the one you pass /// in. /// /// ``` /// use needletail::Sequence; /// /// assert_eq!(b"AACC".reverse_complement(), b"GGTT"); /// ``` fn reverse_complement(&'a self) -> Vec { self.sequence() .iter() .rev() .map(|n| complement(*n)) .collect() } /// [Nucleic Acids] Normalizes the sequence. See documentation for /// `needletail::sequence::normalize`. Do not use on amino acid /// sequences. Note that this returns a Cow so you may have to coerce /// to a Vec or &[u8] as necessary. /// /// ``` /// use needletail::Sequence; /// /// // IUPAC bases are coerced to N's if `false` /// assert_eq!(b"ADGH".normalize(false).as_ref(), b"ANGN"); /// // otherwise they're preserved /// assert_eq!(b"ADGH".normalize(true).as_ref(), b"ADGH"); /// /// // Uridine residues are converted to thymidine /// assert_eq!(b"ACGU".normalize(true).as_ref(), b"ACGT"); /// ``` fn normalize(&'a self, iupac: bool) -> Cow<'a, [u8]> { if let Some(s) = normalize(self.sequence(), iupac) { s.into() } else { self.sequence().into() } } /// [Nucleic Acids] Returns an iterator over the sequence that skips /// non-ACGT bases and returns a tuple containing (position, the /// canonicalized kmer, if the sequence is the complement of the original). fn canonical_kmers(&'a self, k: u8, reverse_complement: &'a [u8]) -> CanonicalKmers<'a> { CanonicalKmers::new(self.sequence(), reverse_complement, k) } /// Returns an iterator that returns a sliding window of k-sized /// sequences (k-mers). Does not skip whitespace or correct bases in the /// original sequence so `.normalize` or `.strip_returns` may be /// appropriate to use first. fn kmers(&'a self, k: u8) -> Kmers<'a> { Kmers::new(self.sequence(), k) } /// Return an iterator that returns valid kmers in 4-bit form fn bit_kmers(&'a self, k: u8, canonical: bool) -> BitNuclKmer<'a> { BitNuclKmer::new(self.sequence(), k, canonical) } } impl<'a> Sequence<'a> for &'a [u8] { fn sequence(&'a self) -> &'a [u8] { self } } impl<'a> Sequence<'a> for [u8] { fn sequence(&'a self) -> &'a [u8] { self } } impl<'a> Sequence<'a> for Cow<'a, [u8]> { fn sequence(&'a self) -> &'a [u8] { self } } /// [âš ï¸Unstable] A trait to wrap over sequence data that has associated /// quality information. /// /// Will be stabilized once we figure out a good way to handle sequences that /// have _optional_ quality information (like `SequenceRecord`) because the /// return trait requires a slice from an immutable reference and /// `SequenceRecords` can't return that without modifying themselves. pub trait QualitySequence<'a>: Sequence<'a> { fn quality(&'a self) -> &'a [u8]; /// Given a `SeqRecord` and a quality cutoff, mask out low-quality bases with /// `N` characters. fn quality_mask(&'a self, score: u8) -> Cow<'a, [u8]> { let qual = self.quality(); // could maybe speed this up by doing a copy of base and then // iterating though qual and masking? let seq: Vec = self .sequence() .iter() .zip(qual.iter()) .map(|(base, qual)| if *qual < score { b'N' } else { *base }) .collect(); seq.into() } } impl<'a> Sequence<'a> for (&'a [u8], &'a [u8]) { fn sequence(&'a self) -> &'a [u8] { self.0 } } impl<'a> QualitySequence<'a> for (&'a [u8], &'a [u8]) { fn quality(&'a self) -> &'a [u8] { self.1 } } #[cfg(test)] mod tests { use super::*; #[test] fn test_normalize() { assert_eq!( normalize(b"ACGTU", false).as_deref(), Some(b"ACGTT".as_slice()) ); assert_eq!( normalize(b"acgtu", false).as_deref(), Some(b"ACGTT".as_slice()) ); assert_eq!( normalize(b"N.N-N~N N", false).as_deref(), Some(b"N-N-N-NN".as_slice()) ); assert_eq!(normalize(b"BDHVRYSWKM", true), None); assert_eq!( normalize(b"bdhvryswkm", true).as_deref(), Some(b"BDHVRYSWKM".as_slice()) ); assert_eq!( normalize(b"BDHVRYSWKM", false).as_deref(), Some(b"NNNNNNNNNN".as_slice()) ); assert_eq!( normalize(b"bdhvryswkm", false).as_deref(), Some(b"NNNNNNNNNN".as_slice()) ); } #[test] fn test_complement() { assert_eq!(complement(b'a'), b't'); assert_eq!(complement(b'c'), b'g'); assert_eq!(complement(b'g'), b'c'); assert_eq!(complement(b'n'), b'n'); } #[test] fn can_canonicalize() { assert_eq!(canonical(b"A").as_ref(), b"A"); assert_eq!(canonical(b"T").as_ref(), b"A"); assert_eq!(canonical(b"AAGT").as_ref(), b"AAGT"); assert_eq!(canonical(b"ACTT").as_ref(), b"AAGT"); assert_eq!(canonical(b"GC").as_ref(), b"GC"); } #[test] fn can_minimize() { let minmer = minimizer(&b"ATTTCG"[..], 3); assert_eq!(&minmer[..], b"AAA"); } #[test] fn test_quality_mask() { let seq_rec = (&b"AGCT"[..], &b"AAA0"[..]); let filtered_rec = seq_rec.quality_mask(b'5'); assert_eq!(&filtered_rec[..], &b"AGCN"[..]); } } needletail-0.6.3/tests/data/28S.fasta000064400000000000000000030634371046102023000154270ustar 00000000000000>gi|913748563|ref|NG_042397.1| Pseudospiromastix tentaculata CBS 184.92 28S rRNA, partial sequence; from TYPE material GAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAAGAGCTCAAATTTGAAATCTGGCCTCC CCAGGGGGTCCGAGTTGTAATTTGGAGAGGATGCTTCGGGTGCGGCCCCGGTCTAAGTCCCTTGGAACGG GGCATCAGAGAGGGTGAGAGTCCCGTCTTCGGCCGGCGGCCAAGCCCGTGTGAAGCTCCTTCGACGAGTC GAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGTTGGAGACCG ATAGCGCACAAGTAGAGTGATCGAAAGACGAAAAGCACTTTGAAAAGAGAGTTAAACAGCACGTGAAATT GTTGAAAGGGAAGCGCTTGCGACCAGAGTCGGCCGCGGGGGCTCAGCGGGCATGCTTGCCCGTGCACTCC CCCGTGGTTGGGCCAGCATCGGTTCGGGCGGTTGGTTAAAGGTCCCCGGAATGTGTCGCCCTTCGGGGCG TCTTATAGCCGGGGGCGCAATGCGGCCTGCCCGGACCGAGGCACGCGCTACGGCACGGATGCTGGCATAA TGGTCGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCCACGCGAGTGTTCGGGTGTCAA ACCCGTCCGCGCAGTGAAAGCGAACGGAGGTGAGAGCCTGGCTTCCAGGTGCATCATCGACCGATCCTGA AGTCTTCGGATGGATTTGAGTAGGAGCGTGGCTGTGGGGACCCGAAAGATGGTGAACTATGCCTGAATAG GGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGG GTATAGGGGCGAAAGACTAATCGAACCATCTGGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAG CAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTA >gi|913748547|ref|NG_042384.1| Jianyunia sakaguchii CBS 8464 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GTAATCTGGCTCTTTCAGAGTCCGAGTTGTAGTCTAAAGAGGTCTTGCCTGGTTCGCACTTTGGATATGG TTGTTGGAATGCAACGTCAAAGAGGGTGACAATCCCGTCTGTGCCAAATGTGTTGGATCGTTGTGCATGG CTTTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATCGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAAAC AGTATGTGAAATTGCTGGAAGGGAAACGATTGAAGTTAGACTTGCGTTTGCGGTATTCAACCTGTCTTTG ACTGGTGTATTTGCCGCTTGTGCAGGCCAGCATCAGTTTTCGAGCGTGGATAAGGGTAGAAGGAATGTGG CAACTTCGGTTGTGTTATAGCCTTTTGCTGGATGCACGCTTGAAGACTGAGGACCGCGCTTTTGCTAGGA TGCTGGTAGAATAGCTTTACCGACCCGTCTTGAAACACG >gi|913748546|ref|NG_042383.1| Rhodotorula paludigena CBS 6566 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT ATAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCTAGAAGTGTTTTCCGCGTTGGACCGCACACAAGT CTGTTGGAATACAGCGGCACAGTGGTGACACCCCCGTACACGGTGCGGACGCCCAGCGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTGCCGGAGCTTGCTTCGGTTTGCAG GCCAGCATCAGTTTTCCGGGGTGGATAATGGCGGTTAGAAGGTAGCAGCTTCAGCTGTGTTATAGCTTTC CGCTGGATACATCCTGGGGGACTGAGGAACGCAGCGTGCTTTTAGCGGGGGTTTCGACCTCTTCACGCTT AGGATGCTGGTGTAATGGCTTTAAACGACCCGTCTTGAAACAC >gi|913748538|ref|NG_042375.1| Leucosporidium creatinivorum CBS 8620 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCCGGACCGCATACAAGT CTGTTGGAATACAGCGTCATAGTGGTGAGAACCCCGTAACTGATGCGGATGCCCGGTGCTTTGTGATATA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGAGCAAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTATTCGGAGTTCAGCCGCAAGGTGTA TTCTTCGATTTGCAGGCCAGCATCAGTTTTTGGGGGTGGAAAATCGTGGTTTGAAGGTAGCAGTTTCGGC TGTGTTATAGCTTTCCACTGGATTCATCTTCGGGGACTGAGGAACGCAGTACGCTTTTTGCAAGGCTTTC GAGCTTTTCGTACTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748534|ref|NG_042371.1| Kondoa yuccicola CBS 7331 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GTAATCTGGCTGTCTTTGGCAGTCCGAGTTGTAGTCTAGAGAAGTGTTATCCGCGCAGCCCCTTATAGAT TTCGGTTGGAATGCCAAGTCAAAGAGGGTGAGAATCCCGTATTTGATAAGGTGGGCTTGTGCATTGTGAT ACATTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGA AATAGTACATGAAATTGCTGAAAGGGAAACGATTGAAGTTAGACTTGCGCGGTTGGTATTCAGCCTTGGC TTCGGTCTTGGTGCATTTGCCTTCCATTGCAGGCCAGCATCAGTTTACTTTGCTGTAAAAGGGTTTGAGG AATGTGGCTTCTTCGGGAGTGTTATAGCCTCTTTCTGGATGCAGAATCGTAGACTGAGGAACGCAGCGCG CCTTTATGGCAAAGCTTTNNAGCTTCGAGCGCTTAGGATGCTGGTAGAATAGCTTTAAACGACCCGTCTT GAAACACG >gi|913748533|ref|NG_042370.1| Kondoa subrosea CBS 7283 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GTAATCTGGCTGTCTTTTGGCAGTCCGAGTTGTAGTCTAGAGAAGTGATGTCCGCGCAGACCCTTATAGA TTTCGGTTGGAATGCCAAGTCAAAGAGGGTGAGAATCCCGTATTTGATAAGGTGGTCTTGTGCATTGTGA TACGCTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCTAA ATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATG AAATAGTACATGAAATTGCTGAAAGGGAAACGATTGAAGTTAGACATGCGCTTTGGGTATTCAGCCTTGG CTTCGGTCTTGGTGCATTTGCCCAATTTTGCAGGCCAACATCAGTTATCTTTGCTGTAAAAGGGTTTAGG GAATGTGGCTCTTTCGGGAGTGTTATAGCCCTTTGCTGGATGCAGAATCGATGACTGAGGAACGCAGTGC GCCTTTATTGGCAAGGCTTTCGGGCTTCGAGCACTTAGGATGTTGGTAGAATAGCTTTAAACGACCCGTC TTGAAACACG >gi|913748532|ref|NG_042369.1| Kondoa phyllada CBS 7169 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAGAGCTCAACTTT GTAATCTGGCTGTTTCACAGTCCGAGTTGTAGTCTAGAGAAGTGTTGCCCGTGCTGGCGCTTGTAGATTT GTGTTGGAATACACAGTCATAGAGGGTGAGAATCCCGTATTTAACAAGCTGCTCATGTACATTGTGGTGC GCTTTCAAAGAGTCAGGTTGTTTGGGAATGCAGCCTAAAGTGGGTGGTAAATTCCATCTAAAGCTAAATA TTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAAA TAGTACCTGAAATTGCTGAAAGGGAAACGATTGAAGTTAGACTTGCGCGGTTTGGATTCAGCCTTGACTT CGGTCTTGGTGTATTTCCTTGCCATTTGCAGGCCAACATCAGTTTACTTTGCTGTAAAAGGGTGTTAGGA ATGTGGCTTCTCCGGGAGTGTTATAGCCTTTCACTGGATGCAGAATCGTAGACTGAGGAACGCAGTGCGC CTTTATGGCAAAGCTTTCGGGCTTCGAGCACTTAGGATGTTGGTAGAATAGCTTTAAACGACCCGTCTTG AAACACG >gi|913748530|ref|NG_042367.1| Pseudobensingtonia musae CBS 7965 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAACTTT GTAATCTGGCTGCTTCGCAGTCCGAGTTGTAGTCTATAGAAGCATGATCCGCGCCGGACCTTGGCCATGT CTGTTGGAAAGCAGTGTCAAAGAGGGTGATAATCCCGTACATACCAAGGACGACCGTGTGCATTGTGGTC TGCTCTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATCGGGTGGTAAATTCCATCTAAAGCTAAAT ACCGACGAGAGACCGATAGCGAACAAGTACAGTAATGGAAAGATGAAAAGTAGCCTGCAGAGGCAATGAA ACAATACGTGAAACCGTTTGTAGGGAAACGATGGAACCTTTTCACGCTGCAGGGGCTCAGCCTGGCTTCG GCTTGGTGTATTCCCCTGTTTTGCGGGCCAGCATCAGTTTGCTTTGCGGTATAAGGGTGATTGGAATGTG GCTCCCACGGGAGTGTTATAGCCTTTCACTGGATGCCGCGTCGCAGACTGAGGACTGCAGTGCGCCATTA GGCATTACCCCCGGGTAACGAGCACTTAGGATGCTGGTAGAATGGGTTTCAACGACCCGTCTTGAAACAC G >gi|913748529|ref|NG_042366.1| Kondoa miscanthi CBS 7282 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GTAATCTGGCTGTCTTTTGGCAGTCCGAGTTGTAGTCTAGAGAAGTNATGTCCGCGCAGACCCTTATAGA TTTCGGTTGGAATGCCAAGTCAAAGAGGGTGAGAATCCCGTATTTGATAAGGTGGTCTTGTGCATTGTGA TACGCTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCTAA ATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATG AAATAGTACATGAAATTGCTGAAAGGGAAACGATTGAAGTTAGACATGCGCTTTGGGTATTCAACCTTGG CTTCGGTCTTGGTGCATTTGCCTAATTTTGCAGGCCAACATCAGTTATCTTTGCTGTAAAAGGGTTTTGG GAATGTGGCTCTTTCGGGAGTGTTATAGCCCTTTGCTGGATGCAGAATCGATGACTGAGGAACGCAGTGC GCCTTTATTGGCAAGGCTTTCGGGCTTCGAGCACTTAGGATGTTGGTAGAATAGCTTTAAACGACCCGTC TTGAAACACG >gi|913748528|ref|NG_042365.1| Leucosporidium intermedium CBS 7226 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCCGGACCGCATACAAGT CTGTTGGAATACAGCGTCATAGTGGTGAGAGCCCAGTAACTGATGCGGATGCCCGGTGCTTTGTGATATA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACACTTGACGTCAGACTTGCGTTTCGGAGTTCAGCCGCAAGGTGTA TTCTTCGATTTGCAGGCCAGCATCAGTTTTCGGGGGTGGAAAATCGTGGTTTGAAGGTAGCAGTTTCGGC TGTGTTATAGCTTTCCACTGGATTCATCTTTGGGGACTGAGGAACGCAGTACGCTTTTTGCAAGGCTCTC GAGCTTTTCGTACTTAGGATGCTGGTGGAATGGCGTTAAATGACCCGTCTTGAAACACG >gi|913748527|ref|NG_042364.1| Pseudobensingtonia ingoldii CBS 7424 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAACTTT GTAATCTGGCTGCTTCGCAGTCCGAGTTGTAGTCTATAGAAGCATGATCCGCGCCGGACCTTGGCCATGT CTGTTGGAAAGCAGTGTCAAAGAGGGTGATAATCCCGTACATACCAAGGACGACCGTGTGCATTGTGGTC TGCTCTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAATTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACAGTAATGGAAAGATGAAAAGTAGCCTGCAGAGGCAATGAA ACAATACGTGAAACCGTTTGTAGGGAAACGATGGAACCTTTTCACGCTGCAAGGGCTCAACCTGGCTTCG GCCTGGTGCATTCCCTTGTTTTGCGGGCCAGCATCAGTTTGCTTTGCGGTATAAGGGTGATTGGAACGTG GCTCCCTCGGGAGTGTTATAGCCTTTCACTGGATGCCGCGTCGCAGACTGAGGACTGCAGTGCGCCTTTT GGCATTGCCCCCGGGCAACGAGCACTTAGGATGCTGGTAGAATGGGTTTCAACGACCCGTCTTGAAACAC G >gi|913748504|ref|NG_042345.1| Rhodotorula kratochvilovae CBS 7436 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT ATAATCTGGCACCTTCGGTGTCCGAGTTGTAATCTCTAGAAGTGTTTTCCGCGTTGGACCGCACACAAGT CTGTTGGAATACAGCGGCACAGTGGTGATACCCCCGTACACGGTGCGGACGCCCAGCGCTTTGTGATACA CTTTCAATGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTGCCGGAGCTTGCTTCGGTTTGCAG GCCAGCATCAGTTTTCCGGGGTGGATAATGGTGGTTTGAAGGTAGCAGCCTCGGCTGTGTTATAGCTTTC CACTGGATACATCCTGGGGGACTGAGGAACGCAGCGTGCTTTTTGCGAAGGTTTCGACCTTTTCACGCTT AGGATGCTGGTGTAATGACTTTAAACGACCCGTCTTGAAACACG >gi|913748503|ref|NG_042344.1| Rhodosporidiobolus microsporus CBS 7041 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCGCTTTCAGCGTCCGAGTTGTAATCTCTAGAAGTGTTTTCCGCGTTGGACCGCACATAAGT CTGTTGGAATACAGCGGCACAGTGGTGAGACCCCCGTATACGGTGCGGATGCCCAATGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTTTCGGGGTTTACTCCGGTTGGCAG GCCAGCATCAGTTTTTTGGGGCGGAAAATCACGGTTAGAAGGTAGCAGTTTCGGCTGTGTTATAGCTTTC CGTTGGATACGCTCTGAGGGACTGAGGAACGCAGTGTGCTTTTAGCGAGGGCTTCGGCTCTTTCACACTT AGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748502|ref|NG_042343.1| Sporobolomyces johnsonii CBS 5470 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAAAGCTCAAATTT GTAATCTGGCGCTTTCGGCGTCCGAGTTGTAATCTCGAGAAGTGTTTTCCGCGTCAGACCGCACACAAGT CTCCTGGAACGGAGCGTCATAGTGGTGAGAACCCAGTACACGGTGCGGATGCCTGATGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTATTCGGAGCTTGCTTCGATTCGCAG GCCCGCATCAGTTTTTCGGGGCGGAAAATCGTAGAGAGAAGGTAGCAGTTTCGGCTGTGTTATAGCTTTC TACTGGATTCGTCCTGGGGGACTGAGGAACGCAGCGTGCTTTTTGCATGGGCTTCGGCCTATCCACGCTT AGGATGCGGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748501|ref|NG_042342.1| Rhodotorula sphaerocarpa CBS 5939 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT ATAATCTGGCACCTTCGGTGTCCGAGTTGTAATCTCTAGAAGTGTTTTCCGCGTTGGACCGCGCATAAGT CTGTTGGAATACAGCGGCACAGTGGTGAGACCCCCGTATGTGGTGCGGACGCCCAGCGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTGCCGGGCAACCGGTTTGCAGGCCA GCATCAGTTTTCCGGGGTGGATAATGGTAGAGAGAAGGTAGCAGTTTCGGCTGTGTTATAGCTCTCTACT GGATACACCTTGGGGGACTGAGGAACGCAGTGTGCCTTACGGCGGAGGTTTCGACCTCTTCACACTTAGG ATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748500|ref|NG_042341.1| Rhodosporidiobolus fluvialis CBS 6568 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT ATAATCTGGCGCTTTCAGCGTCCGAGTTGTAATCTCTAGAAGTGTTTTCCGCGTTGGACCGCACATAAGT CTGTTGGAATACAGCGGCACAGTGGTGAGACCCCCGTATACGGTGCGGATGCCCAATGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTTTCGGGGTTTACTCCGGTTGGCAG GCCAGCATCAGTTTTCYGGGGCGGAAAATCACGGTTAGAAGGTAGCAGTTTCGGCTGTGTTATAGCTTTC CGTTGGATACGTCCTGGGGGACTGAGGAACGCAGTGTGCTTTTAGCGAGGGCTTCGGCCCTTTCACACTT AGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748499|ref|NG_042340.1| Rhodotorula diobovata CBS 6085 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT ATAATCTGGCACCTTCGGTGTCCGAGTTGTAATCTCTAGAAGTGTTTTTCGCGTTGGACCGCACACAAGT CTGTTGGAATACAGCGGCATAGTGGTGAAACCCCCGTATATGGTGCGGACGCCCAGCGCTTTGTGATACA CTTTCAATGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTGCCGGAGCTTGCTTCGGTTTGCAG GCCAGCATCAGTTTTCCGGGGTGGATAATGACGGTTTGAAGGTAGCAGTCTCGGCTGTGTTATAGCTTTC CGTTGGATACGCCCTGGGGGACTGAGGAACGCAGCGTGCTTTTTGCGAAAGACTCGTCTTTTTCACGCTT AGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748498|ref|NG_042339.1| Rhodotorula babjevae CBS 7808 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT ATAATCTGGCACCTTCGGTGTCCGAGTTGTAATCTCTAGAAGTGTTTTCCGCGTTGGACCGCACACAAGT CTGTTGGAATACAGCGGCATAGTGGTGAAACCCCCGTATATGGTGCGGACGCCCAGCGCTTTGTGATACA CTTTCAATGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTGCCGGAGCTTGCTTCGGTTTGCAG GCCAGCATCAGTTTTTCGGGGTGGATAATGACGGTTTGAAGGTAGCAGTCTCGGCTGTGTTATAGCTTTC CGTTGGATACATCCTGGGGGACTGAGGAACGCAGCGTGCTTTTTGCGAAAGACTCGTCTTTTTCACGCTT AGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748469|ref|NG_042319.1| Capulatispora sagittiformis HHUF 29754 28S rRNA, partial sequence; from TYPE material AACGNCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTTGGGGTCCGAGTTGTAATTTGTA GAGGGTGCTTTGGTGTTGGCTGTGGTCTAAGTTCCTTGGGACAGGACGTCACAGAGGGTGAGAATCCCGT ACGTGGCCGCCAGCCTCCACCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAA TGGGAGGTAAATTTCTTCTAAAGCTAAATATTTGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAA GATGAAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCTAG ACGTGCCTTGGGTTGATCAGCCGGACTTTTGCTCGGTGCACTCTTCCTTTGGCAGGCCAGCATCAGTTTG GGCGGCTGGATAAAGGTCTGTTAAACGTGACTTCCTTCGGGGAGAGCTTATAGGGCAGACGACATGCAGC CAGCCTGAACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATAGCTGTAAGCGGCCCGTCTTGAAAC ACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGTAATGAAAGTAAACG GAGGTGGGAACCCTTTGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATA GCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGC TCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATC TAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGA ATGATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTG TTACTTAATTGAACGTGGACATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG ATGCGGGATGAACCGAACGTGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTA GTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTG CCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGTTACCTATACCCCGCCGCCAGGGCAAGAT TTATGCCCTGGCGAGTAGGCANGCNTGGAGGT >gi|913749079|ref|NG_042787.1| Arthrinium xenocordella CBS 478.86 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTCGGGTCCGA GTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGG TGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGGAT TTATGACCAGACTTTTTCTGGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCCAGTGGAGGCCAG CATCGGTTCCTGTCGGGGGACAAAAGCTTCGGGAATGTGGCTCCTCCGGGAGTGTTATAGCCCGTTGCAT AATACCCTGACGGGGACCGAGGTTCGCGCATCTGCAAGGATGCTGGCGTAATGGTCATCAATCACCCGTC TTGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAAA GTGAACGGAGGTGAGAGCCCCTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTA AGAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTACCGC >gi|913749078|ref|NG_042786.1| Arthrinium pterospermum CPC 20193 28S rRNA, partial sequence; from TYPE material CGGAGGAAAAGAAACCAACAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAA TCTGGCCCTTGGGTCCGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGA ACGGGACGCCTTAGAGGGTGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCAACGAG TCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGAC CGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAA TTGTTGAAAGGGAAGGGTTTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACT TCCCCTAGTTGAGGCCAGCATCGGTTTCTGTAGGGGGATAAAAGCTTCGGGAATGTGGCTCCTTCGGGAG TGTTATAGCCCGTTGCATAATACCCTTACGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATG GTTATTAACCACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAAC CCTCACGCGTAATGAAAGTGAACGGAGGTGAGAGCCCTTCGGGGTGCATCATCGACCGATCCTGATGTCT TCGGATGGATTTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGA AGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATG GGGGCGAAAGACTAATCGAACCATTGACCAGCGGTCAAAATAATCACTAGGTGGTTAAGAGGGGGCCCGC GAGGGCCGTTGAGAGATCCTAGGCTGGTCTCAGTTACCCTGTAGCTACCCTGTAGCGACTTGGTGAGTTA CCCTGGAGCTACCCTGTAGCGACTTGGTAGGTTGCCCTGGAGCTACCCTGTAGCTACCCTGTAGCTGAGC CGGCCGACACCGCTAAAGTGCGGGGACATCCCTTCAAAGGGCCAAAGGCTACCGCTACGCGCTGAAAAGC GTGCTAGCACCGAGAATAGTGCTCTCGGGTATGGTAATAACGCCTGCGGCTGGGACGACCTGCAGCCAAC CCCGCCTCAGGGGAGAGTTCACAGACTAAACAGCGGTGGGTCAGCAGCTCCGGCTGCTGGCCTAAGATAT AGTCGACCCAGGGGCTTGAAAAAGCCGCCTAAACAAAGCGG >gi|913749077|ref|NG_042785.1| Arthrinium pseudospegazzinii CBS 102052 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGA ACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGC CTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGGTGAGAGCCCCGTACGGTTGGACACCAAGCCTATGT AAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCT AAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGG TTAAATAGCACGTGAAATTGTTGAAAGGGAAGGATTTATGACCAGACTTTTTCTAGGGGGATCATCCGGT GTTCTCACCGGTGCACTTCCCCTAGTGGAGGCCAGCATCGGTTTCTGTCGGGGGATAAAAGCTTCGGGAA TGTGGCTCTCTCCGGGGAGTGTTATAGCCCGTTGCATAATACCCTGACGGGGACCGAGGTTCGCGCATTG CAAGGATGCTGGCGTAATGGTTATTAATCACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGC GAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAAAGTGAACGGAGGTGAGAGCCTTTCGGGGTGCATCA TCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAA CTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCG ATCGTCAAATCTGCGCATGGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCC >gi|913749076|ref|NG_042784.1| Arthrinium pseudosinense CPC 21546 28S rRNA, partial sequence; from TYPE material CAACAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTTGGGTC CGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTTAGA GGGTGAGAGCCCCGTACGGTTGGACACCAAGCCTATGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGA ATGCTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGT AGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAG GATTTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCTAGTTGAGGC CAGCATCGGTTTCTGTCGAGGGATAAAAGCTTTAGGAATGTGGCTCTCTCCGGGGAGTGTTATAGCCTTT TGCATAATACCTTGACGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTATTAATCACC CGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGTAAT GAAAGTGAACGGAGGTGAGAGCCTTTAGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTG AGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAGACT AATCGAACCATTGACCAGCGGTCAAAACAATCACTAGGTGGTTAAGAGGGGGTCCGCGAGGACCATTTGA AAAACCTAGGCTGAGCCCGGTTACCCTGTAGCGCTACCTTGTAGCTTACCCGGTACCCGGTCCGGCCGAC ACCGCTAAAATGCGGGGACATCCCTTTACAGGGCCAAAGGCTACCGCCACGCGCTGAAAAGCGTGCTGGC ACCGAGGATAGTGACCTCGGGTACGGTAATAACGCCTGCGGCTGGGACGACCTGCAGCCAACCCCGCCTA GGGGAGAGTTCACAGACTAAACAGCGGTGGGTTGGCAGCGCCTCTCGGGGCCTGCCAGCCTAAGATATAG TCGACCCAGGGGCCTGAAAAGGTCACCTAAACAAA >gi|913749075|ref|NG_042783.1| Arthrinium phragmites CPC 18900 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGA GTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGG TGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGGAT TTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCTAGTTGAGGCCAG CATCGGTTTCTGTCGGGGGATAAAAGCTTCAGGAATGTGGCTCCTTCGGGAGTGTTATAGCCTGTTGCAT AATACCCTGACGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTATTAATCACCCGTCT TGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAAAG TGAACGGAGGTGAGAGCCCTTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAA GAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGG TGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAGACTAATCG AACCATCTAGTAGCTGGTTACCGCCGA >gi|913749074|ref|NG_042782.1| Arthrinium ovatum CBS 115042 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGA GTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGG TGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGGGT TTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCTAGTTGAGGCCAG CATCGGTTTCTGCCGGGGGATAAAAGCTTCGGGAATGTGGCTCCTTCGGGAGTGTTATAGCCCGTTGCAT AATACCCTGGCGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTATTAACCACCCGTCT TGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAAAG TGAACGGAGGTGAGAGCCCTTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAA GAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGG TGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAGACTAATCG AACCATCTAGTAGCTGG >gi|913749073|ref|NG_042781.1| Arthrinium marii 28S rRNA, partial sequence; from TYPE material AAAGAAACCAACAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCC CTTGGGTCCGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGAC GCCTTAGAGGGTGAGAGCCCCGTACGGTTGGACACCAAGCCTATGTAAAGCTCCTTCGACGAGTCGAGTA GTTTGGGAATGCTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGC GCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGA AAGGGAAGGATTTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCTA GTTGAGGCCAGCATCGGTTTCTGTCGGGGGATAAAAGCTTCAGGAATGTGGCTCCCTCCGGGGAGTGTTA TAGCCTGTTGCATAATACCCTGACGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTAT TAATCACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCA CGCGTAATGAAAGTGAACGGAGGTGAGAGCCTTTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGA TGGATTTGAGTAAGAGCATTAATGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGC GAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCCGA >gi|913749072|ref|NG_042780.1| Arthrinium malaysianum CBS 102053 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGA ACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGC CTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGGTGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGT AAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCT AAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGG TTAAATAGCACGTGAAATTGTTGAAAGGGAAGGATTTATGACCAGACTTTTTCTGGGGGGATCATCCGGT GTTCTCACCGGTGCACTTCCCCCAGTGGAGGCCAGCATCGGTTTCTGCCGGGGGATAAAAGCTTCGGGAA TGTGGCTCCTTCGGGAGTGTTATAGCCCGTTGCATAATACCCTGGCGGGGACCGAGGTTCGCGCATTGCA AGGATGCTGGCGTAATGGTTATTAATCACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGCGA GTGTTTGGGTGTTAAACCCTCACGCGTAATGAAAGTGAACGGAGGTGAGAGCCCCTCGGGGTGCATCATC GACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACT ATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGAT CGTCAAATCTGCGCATGGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCC >gi|913749070|ref|NG_042779.1| Arthrinium kogelbergense CBS 113333 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGA GTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGG TGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGGAT TTATGACCAGACTTTTTCTGGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCCAGTTGAGGCCAG CATCGGTTTCTGCCGGGGGATAAAAGCTTCGGGAATGTGGCTCCTTCGGGAGTGTTATAGCCCGTTGCAT AATACCCTGGCGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTATTAATCACCCGTCT TGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAAAG TGAACGGAGGTGAGAGCCTTTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAA GAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGG TGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAGACTAATCG AACCATCTAGTAGCTGG >gi|913749066|ref|NG_042778.1| Arthrinium hydei CBS 114990 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGA GTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTTAGAGGG TGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGGAT TTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCTAGTTGAGGCCAG CATCGGTTTCTGTCGGGGGATAAAAGCTTCAGGAATGTGGCTCCCTTCGGGGAGTGTTATAGCCTGTTGC ATAATACCCTGACGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTATTAATCACCCGT CTTGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAA AGTGAACGGAGGTGAGAGCCTTTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAGACTAAT CGAACCATTGACCAGCGGTCAAAACAATCACTAGGTGGTTAAGAGGGGGCCCGCGAGGGCCATGGAGAAA AACCTAGGCTGTGCCCGGTTACCCTGTAGCTACCCTGTAGCTACCCCGTAGCCGAGCCGGCCGACACCGC TAAAATGCGGGGACATCCCTTTACAGGGCCAAAGGCTACCGCCACGCGCTGAAAAGCGTGCTGGCACCGA GAATAGTGCTCTCGGGTATGGTAACAACGCCGGCGGCCGGGACGACCTGCAGCCAACCCCGCCTCAGGGG AGAGTTCACAGACTAAACAGCGGTGGGTTGGCAGCGCCCTTCGGGGCCTGCCAGCCTAAGATATAGTCGA CCCAGGGGC >gi|913749062|ref|NG_042777.1| Arthrinium aureum CBS 244.83 28S rRNA, partial sequence; from TYPE material AACCAACAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTGGCCCTTGG GTCCGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCTT AGAGGGTGAGAGCCCCGTACGGTTGGCCACCAAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTG GGAATGCTGCTCAAAATGGGAGGTATATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACA AGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGG AAGGATTTATGACCAGACTTTTTCTAGGGGGATCATCCGGTGTTCTCACCGGTGCACTTCCCCTAGTGGA GGCCAGCATCGGTTTCTGTCGGGGGATAAAAGCTTCAGGAATGTGGCTCCCTTCGGGGAGTGTTATAGCC TGTTGCATAATACCCTGACGGGGACCGAGGTTCGCGCATTGCAAGGATGCTGGCGTAATGGTTATTAATC ACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGCGAGTGTTTGGGTGTTAAACCCTCACGCGT AATGAAAGTGAACGGAGGTGAGAGCCTTTCGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGAT TTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATGCGTGGATAGGGTGAAGCCAGAGGA AACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGCGCATGGGGGCGAAAG ACTAATCGAACCATTGACCAGCGGTCAAAACAATCACTAGGTGGTTAAGAGGGGGCCCGCGAGGGCCATG GACAAAAACCTAGGCTGTGCCCGGTTACCCTGTAGCTACCCTGTAGCTACCCGGTAGCCGAGCCGGCCGA CACCGCTAAAATGCGGGGACATCCCTTTACAGGGCCAAAGGCTACCGCCACGCGCTGAAAAGCGTGCTGG CACCGAGAATAGTGCTCTCGGGTATGGTAACAACGCCGGCGGCCGGGACGACCTGCAGCCAACCCCGCCT CAGGGGAGAGTTCACAGACTAAACAGCGGTGGGTTGGCAGCGCCCTTCGGGGCCTGCCAGCCTAAGATAT AGTCGACCCAGGGGCTGAAAAAGCCGCCTCAACGAA >gi|913749061|ref|NG_042776.1| Geomyces auratus CBS 108.14 28S rRNA, partial sequence; from TYPE material TCAAATTTGAAATCTGGCCTCACGGTCCGAGTTGTAATTTGTAGAGGATGCTTCGAGCATGGTCTGGCCT AAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGCGGTCAGGTGCCTACGCTCATGTGA AGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAA ATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTT AAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGCGCGCGGCCGATCATCCGGTGT TCTCACCGGTGCACTCGGCCGTGCTCAGGCCAGCATCGGTTTCGGCGGTTGGATAAAGGCCTCAGGAATG TGGCTCCTCTCGGGGAGTGTTATAGCCTGGGGTGCAATGCAGCCTGCTGGGACCGAGGACCGCGCTTCGG CTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGC GAGTGTTTGGGTGTCAAACCCATACGCGTAATGAAAGTGAACGGAGGTGAGAACCCTTAAGGGTGCATCA TCGACCGATCCTGATGTCTTCGGAAGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAA CTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCG ATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTC CCTCAGGATAGCAGTGTTGAATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAAC AACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTCGA ATGTACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGAGTT AAGGTGCCGGAATATACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGC CATGGAAGTCGGAATCCGCTAAGGAATGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGA TGGCGCTT >gi|913749059|ref|NG_042775.1| Knufia petricola CBS 726.95 28S rRNA, partial sequence; from TYPE material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCTTTACGGTCCGAGTTGTA ATTTGGAGAGGATGTTTTGGGTACCGCCACGGTTTAAATTTCTTGGAACAGAATGTCAAAGAGGGTGAGA GTCCCGTCTTGGACCGCGGTAGGGCCTGTGTAAAACTCCTTCGAAGAGTCGACTTGTTTGGGAATGCAGG TCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGA TCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGTTGAAAGGGAAGCGCTGGC AACCAGACTCGTGCGCGGGGTTCCCCCTTGCTTCTGCTTGGGTCACTTCCCCGTGTCCGGGCCATCATCA GTTTCGGGGGCCGGTTAAAGGCCCTGGGAATGTACCCACGCCTTCGGGGGTGGACTTATAGCCCAGGGTG TCATGCGGCCACCCGGGACTGAGGAACGCGCTTCGGCGAGGATGATGGCGTAATGGTTGTCAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCTTGCGCGGAATGA AAGTGAACGGAGGTAGGAAGGCTTAAGCCTGCACTATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCGTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGCGTATAGGGGCGAAAGACTAA TCGAACCATCTGGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGA GGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATATGTAA GAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTCAATGCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTTAGGAGTGTGTAAC AACTCACCGGCCGAATGCATTGGCCCTGAAAATGGATGGCGCTTAAGCGTGTTACCCATACCTCGCCGTC AGGGTTGACATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCCGTGACGAAGGCTGG >gi|913749058|ref|NG_042774.1| Batrachochytrium salamandrivorans CBS 135744 28S rRNA, partial sequence; from TYPE material TAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAA TAGCTCAAATTTGAAATCTCATGGGAATAACAGCCCGTGCGAATTGTAGTTTAAAGAAACGTTTTCGAGG CAGCTTTGGGTATAAGTTCTTTGGAACAGGACATCATAGAGGGTGAGAATCCCGTATATGATCCAAATGT CTGTCTTTTGTGATACGTTTTCAAAGAGTCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATAC CATCTAAAGCTAAATACTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTT TGAAAAGAGAGTTAAACAGTACGTGAAATTGTCAAAAGGGAAACGCTTGAAACCAGTATTGAGTGATGAA ATTCAGTATTCCGTTTCTTTCGCAAGAGAGAAGGGGGGTATGCACTTTTCAGTTATCTCGAGTCAGCGTC AGTTTGGAACGTGGTAAAAAGTCTTTAGAAAGGTAGCCCCAGGATTTATTCTGGGGTGTTATAGTTTATT GACATTATGCCATGATCTGGACTGAGGAACGCAGCTGTATATAAGGAAGTTTAGGATCTTATCTGTGATG TCTATAAAACTGCATGCAGATTTGTAGATATTCTCATGGGTAAATATTTTAAATGTTTTTCACTCCCACA GCTTAGGATGCTGACGAAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGTAT GCGAGTATTTGGGTGTCAAACCCTTATGCGTAATGAAAGTGAAAAGGTGGGATCTTTTATTAGAGCACCA TCGACCAAACTCTGTATTTATATATGGTTTGAGTATGAGCATATATGTTGGGACCCGAAAGATGGTGAAC TATGCCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGA TCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT >gi|913749057|ref|NG_042773.1| Scheffersomyces illinoinensis NRRL Y-48827 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGAGTCAGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGTCTGATTCTATGT AAAGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTTTGAGATCAGACTTGGTATTTTGTATGTCTTGCTT TCGGGTGGGGCCTCTACAGTTTACTGGGCCAGCATCGGTTTGGACGGTAGGATAATGACATTGGAATGTG GCACCACTTCGGTGGTGTGTTATAGACTTTGTTGATACTGCCTGTCTAGACCGAGGACTGCGTCTTTGAC TAGGATGCTGGCATAATGATCTTAAACCGC >gi|913749056|ref|NG_042772.1| Candida fluviatilis ATCC 38621 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTAACCTTGGGGTTGGCTCTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCTATGT AAGGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATGAGATCAGACTTGGTGTTTTGCAACCTCACTCT CGGGTGGGGCCCCTGCAGTTCATCGGGCCAGCATCAGTTTGGATGGTAGGATAATGACATTGGAATGTGG CTTGACTTCGGTTAAGTGTTATAGCCCTTGTTGATACTACCTGTCTAGACTGAGGACTGCGTCTTTGACT AGGATGCTGGCATAATGATCCTATACCGC >gi|913749055|ref|NG_042771.1| Candida pseudoglaebosa ATCC 28472 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTAGCACCTTCGGTGTTCGAGTTGTAATTTGAAGAAGGTAACCTTGGGATTGGCTCTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGACCAATTCTATGT AAGGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATGAGATCAGACTTGGTGTTTTGCAACCTTATCTT CGGATGGGGCCCCTGCAGTTCATCGGGCCAGCATCAGTTTGGACGGTAGGATAATGACATTGGAATGTGA CTTGGCTTCGGTTAAGTGTTATAGCCCTTGTTGATACTGCCTGTCTAGACTGAGGACTGCGTCTTTGACT AGGATGCTGGCATAATGATCCTATACCGC >gi|913749054|ref|NG_042770.1| Luteocirrhus shearii CBS 130776 28S rRNA, partial sequence; from TYPE material AACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTTCGGCCCGA GTTGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGG TGAGAGCCCCGTATGGTTGGACACTAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGC TTGTGACCAGACTTGCGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCGGTTCAGGCCAG CATCGGTTCTTGTTGGGGGATAAGAACGACAGGAACGTGGCCCTCCCTCGGGAGGGTGTTATAGCCTGTC GTACGATACCCTGACGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGG >gi|913749053|ref|NG_042769.1| Aspergillus tanneri ATCC MYA-4905 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGCCCCCTCGGGGTCCGAGTTGTAATTTGCAGAGGATGCTTCGGATGCGGCCCCCG TCTAAGTGCCCTGGAATGGGCCGTCGGAGAGGGTGAGAATCCCGTCTGGGATGGGGTGCCCGTGTCCGTG TGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGC TAAATACTGGCCGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGA GTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTCGCCCGCGGGGTTCAGCCGGC ATTCGTGCCGGTGTACTTCCCCGCGGGCGGGCCAGCGTCGGTTTGGGCGGCCGGTCAAAGGCCCCCGGAA TGTAGCGCCCTTCGGGGCACCTTATAGCCGGGGGTGCAATGCGGCCAGCCTGGACCGAGGAACGCGCTTC GGCACGGACGCTGGCATAATGGTCGTAAACGA >gi|913749052|ref|NG_042768.1| Botrytis caroliniana ATCC MYA-4856 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTACCTCAGTAACGGCGAGTGAAGCGGTAAAAGCT CAAATTTGAAATCTGGCTCTTTTAGAGTCCGAATTGTAATTTGTAGAAGATGCTTCGGGTGTGGTTCCGG TCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGATACCTATGCTCATG TGAAGCTCTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGAGGTATATTTCTTCTAAAGC TAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGA GTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAATCAGACTTGCACTTGGTGTTCATCAGGG TCTCGTACCCTGTGTACTTCATCAAGTTCAGGCCAGCATCAGTTTGAGTGGTTAGATAAAGGCTTAGAGA ATGTGGCCCTCTTCGGGGGGTGTTATAGCTCTAGGTGCAATGTAGCCTACTTGGACTGAGGACCGCGCTT CGGCTAGGATGC >gi|913749051|ref|NG_042767.1| Pseudogymnoascus destructans ATCC MYA-4855 28S rRNA, partial sequence; from TYPE material AACCAACAGGGATTACCTCAGTAACGGCGAGTGAAGCGGTAACAGCTCAAATTTGAAATCTGGCCTCACG GTCCGAGTTGTAATTTGTAGAGGATGCTTCGAGCATGGTCTGGCCTAAGTTCCTTGGAACAGGACGTCAT AGAGGGTGAGAATCCCGTATGCGGCCAGGTGCCTACGCTCATGTGAAGCTCCTTCGACGAGTCGAGTTGT TTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCGC ACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAA GGGAAGCGCTTGCAACCAGACTTGCGCGCGGCCGATCATCCGGTGTTCTCACCGGTGCACTCGGCCGTGC TCAGGCCAGCATCGGTTTTGGCGGCTGGATAAAGGCCCTAGGAATGTAGCTCCTCTCGGGGAGTGTTATA GTCTAGGGTGCAATGCAGCCTGCTGGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGT AAGCGG >gi|913749050|ref|NG_042766.1| Trichoderma velutinum ATCC MYA-4841 28S rRNA, partial sequence; from TYPE material GAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCT AGGGTCCGAGTTGTAATTTGTAGAGGATGCTTTTGGTGAGGTGCCGCCCGAGTTCCCTGGAACGGGACGC CACAGAGGGTGAGAGCCCCGTCTGGCTGGCCACCGAGCCTCTGTAAAGCTCCTTCGACGAGTCGAGTAGT TTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGC ACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGAGGGTTAAATAGTACGTGAAATTGTTGAAA GGGAAGCGCTTGTGACCAGACTTGGGCGCGGCGGATCATCCGGGGTTCTCTCCGGTGCACTTCGCCGCGT CTAGGCCAGCATCAGTTCGTCGCGGGGGAAAAAGGCTTCGGGAACGTGGCTGCTCCGGCAGTGTTATAGC CCGTTGCATAATACCCTGCGGTGGACTGAGGACCGCGCATCTGCAAGGATGCTGG >gi|913749049|ref|NG_042765.1| Trichoderma cerinum ATCC MYA-4840 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCT CAAATTTGAAATCTGGCCCCTAGGGTCCGAGTTGTAATTTGTAGAGGATGCTTTTGGTGAGGTGCCGCCC GAGTTCCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTCTGGCTGGCCACCGAGCCTCTGTAAAGC TCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATA TTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGAGGGTTAAA TAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGTGACCAGACTTGGGCGCGGCGGATCATCCGGGGTTCT CTCCGGTGCACTTCGCCGCGTCTAGGCCAGCATCAGTTCGTCGCGGGGGAAAAAGGCTTCGGGAACGTGG CTCCTCCGGGAGTGTTATAGCCCGTTGCATAATACCCTGCTTTGGACTGAGGACCGCGCATCTGCAAGGA TGCTGGCGTAATGGTCACCAGCGA >gi|913749047|ref|NG_042764.1| Sulzbacheromyces caatingae F Sulzbacher 1478 28S rRNA, partial sequence; from TYPE material GTCAGTCGCATCTGCTGGGGATCAGCCTTGCTCTTTTGCTGGGTGCACTTCCTGCCGGATGGGTCAGCGT CGATTTCGACCGTCGGACAAGGTGAGGGGGAATGTGGCACCTCCGGGTGTGTTATAGCCCCTTCTCGCAT ACGTCGGTTGGGATCGAGGAACGCAGCATTTTATGCTTAGGACGCTGGCAAAATGGCTTTAAGCGACCCG TCTTGAAACACGGACCAAGGAGTCTAACATGCCCGCGAGTGTTTGGGTGTCAAACCCGAGCGCGTAATGA AAGTGAAAGTTGAGACCCCTGTCGCGGGGGGCATCGACGCCCGGACCAGAACTTTTGGGACGGATCTGCG GTTGAGCGTGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTATCAGATTTATG TGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTCAACCTATTCTCAAACTTTAAATATGTA AGAACGAGCCGTCTCTTGGTTGGACCGCTCGGCGATGAGAGT >gi|913749046|ref|NG_042763.1| Alternaria eichhorniae ATCC 22255 28S rRNA, partial sequence; from TYPE material CATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGC TCAAATTTGAAATCTGGCTCTTTTAGAGTCCGAGTTGTAATTTGCAGAGGGCGCTTTGGCTTTGGCAGCG GTCCAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGTCGCTGGCTATTGCCGTG TAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTACATTTCTTCTAAAGC TAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGA GTCAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCTTACAGTTGCTCATCCGG GCTTTTGCCCGGTGCACTCTTCTGTAGGCAGGCCAGCATCAGTTTGGGCGGTAGGATAAAGGTCTCTGTC ACGTACCTCCTTTCGGGGAGGCCTTATAGGGGAGACGACATACTACCAGCCTGGACTGAGGTCCGCGCAT CTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGC >gi|913749045|ref|NG_042762.1| Lecanosticta acicola CBS 133791 28S rRNA, partial sequence; from TYPE material ACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCACCAGCCCGAG TTGTAATTTGTAGAGGATGCTTCTGGGCAGCGGCCGTTCTAAGTTCCTTGGAACAGGACGTCATAGAGGG TGAGAATCCCGTATGTGACCGGCACGTACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAAT GCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAG AGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCG CTTGCAACCAGACTTCGTGGCGGTGTTCCGCCGGTCTTCTGACCGGTCCACTCGCCGCCGCGAGGCCAGC ATCGTCTGGGGCCGCCGGATAAGACCTTGGGAATGTAGCTCGCCTCGGTGAGTATTATAGCCCATGGTGA TACGGCGCGCCCCGGGCGAGGTCCGCGCTTCGGCAAGGATGCTGGCGTAATGGTTGTCAGCGGCCCGTCT TGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAG TGAACGGAGGTGGGAAGCGCAAGCTGCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGA GCATAGCTGTTGGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGT GGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATC >gi|913749044|ref|NG_042761.1| Microcyclospora rhoicola DAOM 242276 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCCGGGCAGCGGCCGATCTAAG TTCTTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTATGCGATCGGCTGGCACTCGAGACGTAGCTC CTTCGATGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACT GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACA GCACGTGAAATTGTTGAAAGGGAAGCGCATGCAACCAGACTTGCCGGTGGTGTTCCGCTGGTCTTTTGAC TGGTGTACTCGCCGCCGGCAGGCCAGCATCGTTTGGGACCGTCGGAGAAAGGCGCGGGGAATGTGGCTCC TCGGAGTGTTATAGCCCCGCGCACAATACGACGCGTCCCGAGCGAGGTCCGCGCTTCGGCTAGGATGCTG GCGTAATGGTTGTATGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTACCATCTATGCGAGTGTTCGGG TGTCAAACCCCTACGCGGAATGAAAGTGAACGGAGGTGGGAACGCAAGTGCACCATCGACCGATCCTGAT GTCTTCGGATGGATTTGAGTAAGAGCATAGCTGGTGGGACCCGAAAGATGGTGATCTTTACTTGAATAGG GTGAAGCCAGAGGAAACTCTGGTGGAAGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGG TAAAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGT AACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTC TCAAACTTTAAATATGTAAGAAGTCCTTGTTTCTTAATTGAACGTGGACATTTGAATGCACCGTTACTAG TGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATGC ACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAAT CCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTG CTACCCATACCTCGCCGCCAGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGA AGCCTTGGGAGTGATCCCGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATACTCAAAT GAGAACTTTGAGGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGACACGGGTTAGTCGATCCT AAGCCATAGGGAAACTCCGTTTCAAAGCGCACGCTCCGTGCCCCTCGGCGAAAGGGAAGCCGGTTAACAT TCCGGCACCTGGATGTGGATTATCCGCGGCAACGCAACTGAAGGCGCAGACGTCGGCGGGAGCCCCGGGA AGAGTTCTCTTTTCTTCTTAACGATCCGTCACCCTGAAATCGGTTTGTCCGGAGCTAGGGTTTAACGATC GGTAGAGCCGTACACCTTTGTGCGGTCCGGTGCGCTCTCGACGGCCCTTGAAAATGCGCCGGAAGGAATG ATTTTCACGCCAGGTCGTACTCATAACCGCAGCAGGCTCCCAAGGTG >gi|913749043|ref|NG_042760.1| Collembolispora aristata CPC 21145 28S rRNA, partial sequence; from TYPE material CTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTACCTCAGTAACGGCGAGTGAAGCGGT AACAGCTCAAATTTGAAAGCTGGCTCTTTTAGGGTCCGCGTTGTAATTTGTAGAAGATGCTTCGGGTGTG GCCCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGGTGCTTTC GCTCATGTGAAGCTCTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCAT CTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGG AAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGCGCGCTGATGAT CATCCGGGCTTCTGTCCGGTGCACTCGTCTGCGCTCAGGCCAGCATCGGTTTCGGTGGTGGGATAAAGGC CTTGGGAATGTGGCTCCTCTCGGGGAGTGTTATAGCCCTCGGTGCAATGCCGCCTACTGGGACCGAGGAC CGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTA ACATCTATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATGAAAGTGAACGGAGGTGAGAACCCTTAA GGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAA AGATGGTGAACTATGCGTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGCGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCG >gi|913749042|ref|NG_042759.1| Seiridium phylicae CPC 19962 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCTAGTAACGGCGAGTGAAGCGGC AACAGCTCAAATTTGAAATCTGGCCCTTGGGTCCGAATTGTAATTTGTAGAGGATGATTTTGGTGCGGTA TCTTCCGAGTTCCTTGGAACAGGACGCCTTAGAGGGTGAGAGCCCCGTACGGTTGAATGCCTAGCCTCTG TAAATCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATTTCTTCTAAAGC TAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGG GTTAAATAGCACGTGAAATTGTTGAAAGGGAAGGATTTATGACCAGACTTTTTCTGGGCGGATCATCCGG TGTTCTCACCGGTGCACTTTGCCCAGTTTAGGCCAGCATCGATTTTCGGAGAGGGATAAAAGCTTTGGGA ATGTGGCTCCTCCGGGAGTGTTATAGCCCATTGTATAATACCTTTCTGGGGATCGAGGTACGCGCTTCTG CAAGGATGCTGGCGTAATGGTTATCAATCACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGC AAGTGTTTGGGTGTTAAACCCTCACGCGTAATGAAAGTGAACGGAGGTGAGAGCCCTTACGGGTGCATCA TCGACCGATCCTGAAGTTTTCGGATGGATTTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAA CTATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCG ATCGTCAAATCTGCGCATGGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCCG >gi|913749040|ref|NG_042758.1| Penidiella carpentariae CPC 19439 28S rRNA, partial sequence; from TYPE material AGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACA GCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGGCAGCGGCCGGTC TAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGTTGGCACCCTCCACGTA GCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAA TACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCGGCGGTGTTCCGCCGGTCTTC TGACCGGTCTACTCGCCGCCGCCAGGCCAGCATCGTCTGGGGCCGCCGGACAAAGGCGTCGGGAATGTAG CTCCCTCGGGAGTGTTATAGCCCGTCGCACAATACGGCGCGCCCCGGGCGAGGTCCGCGCTTCGGCTTGG ATGCTGGCGTAATGGTCGCAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTG TTCGGGTGGCAAACCCCTACGCGCAATGAAAGTGAACGGAGGCGGGAACTTTTGTGCACCGTCGACCGAT CCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTG AATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAA TTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC >gi|913749039|ref|NG_042757.1| Toxicocladosporium posoqueriae CPC 19305 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAATCTGGCGTCTCCGGCGTC CGAGTTGTAATTTGTAGAGGATGCTTCTGGGCAGCCTCCGGTCTAAGTTCCTTGGAACAGGACGTCATAG AGGGTGAGAATCCCGTATGCGACCGGAAAGGCGCCCTATACGTAGCTCCTTCGACGAGTCGAGTTGTTTG GGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACA AGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGG AAGGGATTGCAACCAGACTTGCTCGCGGTGTTCCGCCGGTCTTCTGACCGGTCTATTCGCCGCGTTGCAG GCCAGCATCGTCTGGCGCCGCTGGATAAGACTTTGGGAATGTGGCTCCCCCGGGAGTGTTATAGCCCATT GTGATGCAGCGCGCGCCGGGCGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTCGTAATCCGCCC GTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATG AAAGTGAACGGAGGTGGGAAGCGCAAGCTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATCTAGTAGCTGGTTCCTGCCG >gi|913749038|ref|NG_042756.1| Zymoseptoria verkleyi CBS 133618 28S rRNA, partial sequence; from TYPE material GCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAA ATCTGGCCCCCCGGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGGTAGCGACCGGTCTAAGTTCCTTG GAACAGGACGTCATAGAGGGTGAGAATCCCGTATGCGACCGGCCCGCGCCCTCCACGTAGCTCCTTCGAC GAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGA GACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTG AAATTGTTGAAAGGGAAGCGCTTACAACCAGACTTTGGGGCGGTGTTCCGCCGGTCTTCTGACCGGTCTA CTCTCCGTCCCGAGGCCAACATCATCTGGGACCGCCGGACAAGACCTCAGGAATGTAGCTCCCCCTCGGG GGAGTGTTATAGCCTGTGGTGATGCGGCGCGTCCCGGGTGAGGTCCGCGCTTCGGCAAGGATGTTGGCGT AATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTC AAACCCCTACGCGGAATGAAAGTGAACGGAGGTGGGAAGGGTAACCTGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTA TAGGGGCGAAAGACTAATCGAAC >gi|913749036|ref|NG_042755.1| Devriesia stirlingiae CPC 19948 28S rRNA, partial sequence; from TYPE material GAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAA GCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGGCAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCA TAGAGGGTGAGAATCCCGTATGTGACCGGCTGGCACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTT TGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCA CAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAG GGAAGCGCTTGCTACCAGACTTGTCGGCGGTGTTCCGCCGGTCTTCTGACCGGTCTACTCGCCGTCGGCA GGCCAGCATCATCTGGGCCCGCCGGATAAAGGCTCTGGGAATGTAGCTCCCCTCGGGGAGTGTTATAGCC CTTTGCACAATACGGCGCGGCCCGGGTGAGGTCCGCGTTTCGGCAAGGATGCTGGCGTAATGGTTGTAAG CGGCCCGTCTTGAAACACGGACCAAGGAGTCGATTATCTATGCGAGTGTTCGGGCGTCAAACCCCTACGC GTAATGAAAGTGAACGGAGGTGGGAACCCTAGGGTGCACCATCGACCGATCCGGATGTCTTCGGATGGAT TTGAGTAAGAGCATAGCTAATCGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGA AACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAG ACTAATCGAACCAT >gi|913749035|ref|NG_042754.1| Zasmidium syzygii CPC 19792 28S rRNA, partial sequence; from TYPE material AGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACA GCTCAAATTTGAAACCTGGCGCTTGCGTCCGGATTGTAATTTGCAGAGGATGCTTCTGGGCAGCGGCCGT TCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCGCGCACCCTCCACG TAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTA AATATTGGCCCGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGT TAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTCCCACCAGACTCCGCGGCGGTGTTCCGCCGGCCT TCTGGCCGGTCTACTCGCCGCCGTGGGGCCAGCATCGTCTGGGGCCGTCGGATAAGACCGTAGGAATGTA GCTCATTGAGTGTTATAGCCTGCGGTGATGCGACGCGCCCCGGGCGAGGTCCGCGCTTCGGCAAGGATGC TGGCGTAATGGTGGGCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCG GGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATCGACCGATCCTG ATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATA GGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTG GGCATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGC >gi|913749034|ref|NG_042753.1| Neodevriesia shakazului CPC 19782 28S rRNA, partial sequence; from TYPE material GCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAA ATCTGGCGCAAGCCCGAATTGTAATTTGTAGAGGATGCTTCTGGGCAGCGGCCGGTCTAAGTTCCTTGGA ACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCTGGCACCCTCCACGTAGCTCCTTCGACGA GTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGA CCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAA ATTGTTGAAAGGGAAGCGCTTGCGACCAGACTTGTCGGCGGTGTTCCGCCGGTCTTCTGACCGGTTCACT CGCCGTCGGCAGGCCAGCATCATCTGGGGCCGCCGGATAAAGGCTTGGGGAATGTAGCTCCTCTCGGGGA GTGTTATAGCCCCTCGCACAATACGGCGCGCCCCGGGTGAGGTCCGCGTCTCGGCAAGGATGCTGGCGTA ATGGTCGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCGATTATCTATGCGAGTGTTCGGGCGTCA AACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACCTTTACCGGTGCACCATCGACCGATCCGGATG TCTTCGGATGGATTTGAGTAAGAGCATAGCTAATCGGACCCGAAAGATGGTGAACTATGCCTGAATAGGG TGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGT ATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTT >gi|913749033|ref|NG_042752.1| Phialophora livistonae CPC 19433 28S rRNA, partial sequence; from TYPE material ATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATT TGAAATCTGGCCTCTTGGGGTCCGAGTTGTAATTTGGAGAGGATGTTTCGGGTACGGTCCGGGCTTAAAT TTCTTGGAACAGAATGTCACAGAGGGTGAGAATCCCGTCTGGAGTCTGCGACACGGCCTATGTGAAACTC CTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATATT GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACA GTACGTGAAATTGTTGAAAGGGAAGCGCTGGCAACCAGACTTGCGCGTCGGGGTTCCCCCTTGCTTCTGC CTGGGCTACTCCCCGGCGTTCAGGCCAACATCGGTTTTGGGGGTCGGTTAAAGGCCCCGGGAATGTACCT ACTCTTCGGGGTAGACTTATAGCCCGGGGTGTCATGCGGCCACCCGGGACCGAGGAACGCGCTTCGGCTC GGATGTTGGCGTAATGGTTGTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAG TGTTAGGGTGTCAAACCCTTACGCGGAATGAAAGTGAACGGAGGTAGGAAGCCGTAACACGCTGCACTAT CGACCGATCCTGAAGTTTACGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAAC TATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGA TCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCA >gi|913749032|ref|NG_042751.1| Ceramothyrium podocarpi CPC 19826 28S rRNA, partial sequence; from TYPE material GAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCACTT TCAGTGTCCGAGTTGTAATTTGTAGAGGATGTTTCGGTCACGACCTCGGGATAAATTTCTTGGAACAGAA TGTCATAGAGGGTGAGAACCCCGTCTTGACCCGAGCGTACGGGCCGTGTGAAACTCCTTCGACGAGTCGA GTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGAT AGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGT TGAAAGGGAAGCGCTGGCAACCAGACTTGAGCGCGGCGGTTCCCCCTGGCTTCTGCTTGGGTTACTCCGT CGTGTCCAGGCCAACATCGGTTTCGGGGGTCGGTTAAAGGCCCTGGGAATGTATCTACCCTTCGGGGTCG ACTTATAGCCCAGGGTGTCATGCGACCACCCGGGACCGAGGAACGCGCTTCGGCTCGGATGTTGGCGTAA TGGTTGTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAACTATGCGAGTGTTCGGGTGTTAA ACCCTTGCGCGTAATGAAAGTGAACGGAGGTAAGAAGCTTCGGCTGCATTATCGACCGATCCTGAAGTTT ACGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCGTGAATAGGGTGA AGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGCGTATA GGGTACGTTGACACTCCGATCGTTTAACTATTGAAACAATGCTAACAATTTTTATAGGGCGAAAGACTAA TCGAACCAT >gi|913749030|ref|NG_042750.1| Strelitziana cliviae CPC 19822 28S rRNA, partial sequence; from TYPE material GGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAT CTGGCCGTAAGGTCCGAGTTGTAATTTGTAGAGGATGTTTTGGGCACCGTCGCGGTGTAAATTTCTTGGA ACAGAATGTCATAGAGGGTGAGAATCCCGTCTGAAACCGCGATAGGACCCGTGTAAAACTCCTTCGACGA GTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGA CCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTATGTGAA ATTGTTGAAAGGGAAGCGCAGGCAATCAGACTCGTGCGCGGGGTTCCCCCTTGCTTCTGCTTGGGTTACT TCCCCGCGACCGGGCCATCATCAGTTTGGGGGGCCGGTTAAAGGCCTCGGGAATGTACCCACTCCTCCGG GGGTGGACTTATAGCCCGGGGTGTCATGCGGCCTCTCCGGACTGAGGAACGCGCTTCGGCGAGGATGATG GCGTAATGGTTGTCTGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGG TGTCAAACCCTTGCGCGGAATGAAAGTGAACGGAGGTAGGAAGGCCTGAGCCTGCACTATCGACCGATCC TGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCGTGAA TAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATT TGCGTATAGGGGCGAAAGACTAATCGAACCATCTGGTAGCTGGTTCCTGCCGAAGTTTCCCTC >gi|913749029|ref|NG_042749.1| Ceramothyrium melastoma CPC 19837 28S rRNA, partial sequence; from TYPE material GCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAA ATCTGGCCTTACGGTCCGAGTTGTAATTTGTAGAGGATGTTTCGGGTACCGCTGTGGTCTAAATTTCTTG GAACAGGATGTCAGAGAGGGTGAGAATCCCGTCTGCGACCGCGGTAGGGCCTATGTGAAACTCCTTCGAC GAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGA GACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTATGTG AAATTGTTGAAAGGGAAGCGCTGGCAACCAGACTCGAGTGCAGGGGTTCCCCTGGGCTTCTGCCCAGGTT ACTCCCCTGTAACCGGGCCATCATCAGTTTTGGGGGTGGGTTAAAGGCGGTCGGAATGTACCCTCTCCTT CGGGGGAGGACTTATAGCCGGTCGTGTCATGCCACCTCCCGGGACTGAGGAACGCGCTTCGGCGAGGATG ATGGCGTAATGGTTGTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTC GGGTGTCAAACCCTTGCGCGTAATGAAAGTGAACGGAGGTAGGAAGGCTTGAGCCTGCACTATCGACCGA TCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCGT GAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAA ATTTGCGTATAGGGGCGAAAGACTAATCGAACCATCTGGTAGCTGGTTTCCGCC >gi|913749028|ref|NG_042748.1| Phaeococcomyces eucalypti CPC 17606 28S rRNA, partial sequence; from TYPE material CTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGC AACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGTTTCGGCGTCGGCCCC GTCCTAAGTTCCTTGGAACAGGACGTCCTAGAGGGTGAGAACCCCGTCTTCGGTCGGGTCGCCGTCGCCA TGTGAAACTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGCGGGAGGTAAATTTCTTCTAAA GCTAAATAACGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAAACAGCACGTGAAATTGTTAATAGGGAAGCTCAAGCTGCCAGACTTGACCTCGACTCTTCGGTG TCGAGGGCAGGCCAGCATCAGTTCGGGCGGCCTGATAAAGACCCTGGGAATGTAGCTCCCCCGGGAGTGT TATAGCCTAGGGTGTAATGGGGCCAGCCTGGACTGAGGATCGCGTTCGCTAGGATGCTGGCGTAATGGCA GTTTGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTAAAACCCA TGCGCGTAATGAAAGTGAACGGAGGTGGGAACCGCAAGGTGCACCATCGACCGATCCTGATGTCTTCGGA TGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGC GAAAGACTAATCGAACCATCTAGTAGCTGGTTCCAGCCGAAG >gi|913749027|ref|NG_042747.1| Synchaetomella acerina DAOM 242271 28S rRNA, partial sequence; from TYPE material CAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAACCTGCCTCCCGGCCG GATTGTAATTTGCAGAGGATGCTTTGGGAAGGGCGCTGATCTAAGTTACTTGGAACAGTACGTCACAGAG GGTGAGAATCCCGTCCGTGGTCGGCCGCCTGCCCCGTGTAAAGCTCCTTCAACGAGTCGAGTTGTTTGGG AATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAG TAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGCACGTGAAATTGTTGAAAGGGAA GCGCTTGCCACCAGACTTGGGCGCCGCCTTCAGGGTACTCTCGGGTGCCTGTACTTGGCGGCTGCACAGG CCAGCATCAGTTTTGGGGGTGGGATAAAGGCCGTTGGAATGTGGCTCTTCGGAGTGTTATAGCCTTCGGT GCCATGCCGCCTCCCGGGACTGAGGACCGCGCCTTCGGGCTAGGATGCTGGCGTAATGGTGGTCAGCGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGCTAAACCCACACGCGGAA TGAAAGTGAACGGAGGTGAGAGCCCTTGAGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTT GAGTATGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAA CTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGAC TAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTGTTGTCTTCAGTTTTA TGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATATG TAAGAAGTCCTTGTTACTTAAGTGAACGTGGACATTCGAATGTACCAACACTAGTGGGCCATTTTTGGTA AGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAGGTGCCGGAATCGACGCTCATCAGACACC ACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGT AACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTCGTACCCATACTTCACC GTCGGGGTAGCAACGACGCCCCGACGAGTAGGCAGGCGTGGCGGTCCGTGACGAAGCGGTGGGCGTGAGC CCCCGTCGAACGGCCGCTAGTGCAGATCTTGGTGGTAGTAGCAAATACTCAAATGAGAACTTTGAGGACT GAAGTGGGGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGATAGGGAAACT CCGTTTTAAAGGGCTACTCGTAGCCCGTCCCTCGAAAGGGAAGCCGGTTAACATTCCGGCACCTGGATGT GGATTCTCCACGGCAACGTAACTGAACGCGGAGACGATGGCATGAGCCCTGGGAAGAGTTCTCTTTTCTT CTTAACCGCCTCACACCCTGAAATCGGTTTGTCCGGAGCTAGGGTCGCATGGCGGGTAGAGCCCGACACC TCTGTCGGGTCCGGTGCGCTCGTGACGTCCCATGAAAATCCGCGGGAAGGAATAGCT >gi|913749026|ref|NG_042746.1| Delfinachytrium mesopotamicum BAFC ARG 113 28S rRNA, partial sequence; from TYPE material GCTCAATTTTGAAATCTCTCAGGTTCCCTGAGCGAATTGTAGTTTCTAGAAACGTTTTCGGGGGCAGCCC GGGTAAAAGTCCGTTGGAACGCGGCATCATGGAGGGTGAGAATCCCGTATTTGATCCGGTGTCTGCTCCT ATGTGATACGTTTTCAAAGAGTCGGATAGTTTGGGATTGCTGTCCAAAATGGGTGGTAAATACCATCTAA AGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAG AGAGTTAAACAGTACGTGAAATTGTCAAAAGGGAAACGCTTGAAACCAGTATTGCGGTGCGCAAATCAGT CGTTCACTAGAACGGTGCACTTTGCGTATTGCGGGTCAGCATCAGTTTCGTTCGGAGTAAAAAGCTAGAG GAAGGTAGCTCTTTTGAGTGTTATAGCCTCTGGTCATGCTTTGGACGGGACTGAGGTCTGCAGCCTTGCT TTTGGGACGTCGGCAGCCCTTTGATATCTGGCTGTAAACTGCTTGCAGATTACGGCTCGGTTAAGATGGC CCTGTCGGCTTACACAACTAGGCTTAGGATGCTGACGAAATGGTTTTAAACGACCCGTCTTGAAACACGG ACCAAGGAGTCCAACAATCCTGCGAGTGTTTGGGTGGCAAACCCGAGCGCGTAATGAAAGTGAATGTAGG AGGGACCCGTAAGGTGCACCTTCGACCGGTCTGGATTTTTTTGAAAGATCTGAGTAAGAGCATGATTGTT GGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG >gi|913749024|ref|NG_042745.1| Odontochytrium milleri BAFC ARG 095 28S rRNA, partial sequence; from TYPE material GCTCAAATTTAAAATCTCCTAGGTTCCCTAGGCGAATTGTAGTTTCAAGAAGCGTTTTCTGAGATGGCCT CGGTCCAAGTCTGCTGGAAGGCAGCGCCATAGAGGGTGATAGCCCCGTAGGATCCTGAACCATTTCTTTA TGATTGCGTCTTCGAAGAGTCGTACAGTTTGAGAATGCTGTGCTAAATGGGAGGTAAATATCTTCTAAAG CTAAATACTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAG AGTTAAATAGTACGTGAAATTGTCTAAAGTGAAACGTTTGAAACTAGTATTGGAGTGTGACGGACAGCCG CAAGGTGCATTCGTTGCTCTCTGTGCCAGCGACAGTTTTGTTTGGAGTAAATATGCTAGGGAATGTAGCT CTTCGGAGTGTTATAGCCTTGGTTTCTGCTCTGGACGAGACTGATGATCGCCGCTGCCTTGGGGAAGCTG CTGCCTCGAAGCAAGCTCTTGTAGACAACTTGTTGACTATAGGGGTTTTGTTAGGGATCGGTGGTGTACC ACTAACAGCGTAGGTCGCTGGTGAAATAGTTTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTTCTA CAAATGCGCGAGTCTTTGGGTGTCAAACCCGAGGGCGGAATGAAAGTAAACGTAGGTGTGATCCGCAAGG TGCAACATCGACCGGACTGGATTTCTTTGAAAGTTCTGAGTAAGAGCGCATTTGCAGAGACCCGAAAGAT GGTGAACTATACCTGAGTAGGGTGAAGTCAGAGG >gi|913749022|ref|NG_042744.1| Avachytrium platense BAFC ARG 053 28S rRNA, partial sequence; from TYPE material GCTCAAATTTAAAATCTCCTAGGTTTCCTAGGCGAATTGTAGTTTCAAGAAGCGTTTTCTGAGATGGCCT CGGTCCAAGCTGCTGGAAGGCAGCGCCATAGAGGGTGATAGCCCCGTAGGATCCTGAACCATTTCTTTAT ATTGCGTCTTCGAAGAGTCGTACAGTTTGAGAATGCTGTGCTAAATGGGAGGTAAATATCTTCTAAAGCT AAATATTGGCGTGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAG TTAAATAGTACGTGAAATTGTCTAAAGTGAAACGTTTGAAACTAGTATCGGAAGATTACGGACAGCCGCA AGGTGCACTCGTAGTTTTCTGTGCCAGCGACAGTTTTGCTCGCAGTAAATGCTCCTAGGAATGTAGCTTC GGTGTTATAGACTAGGGTGAGTGCTGTGGGTGGGACTGATGATCGCCACTGCCTTGGGGAAGCAGCTGCC TCGAAGCAAGCTGTTTTGGACAACTTGTTGACCAAGACTGTTTTGTTAGGGATCGGTTGTGTACCACTCT CAGTGTAGGTCGCTGGTGAAATAGTTTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTTCTACAAAT GCGCGAGTCTTTGGGTGTTAAACCCGAGGGCGGAATGAAAGTAAACGTAGGTGTGATCCGCAAGGTGCAA CATCGACCGGACTGGATTTCTTTGAAAGTTCGAGTAAGAGCGCATTTGCAGAGACCCGAAAGATGGTGAA CTATACCTGAGTAGGGTGAAGTCAGAGG >gi|913749020|ref|NG_042743.1| Pseudocercospora sphaerulinae CBS 112621 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG TAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGATTGGCTTGC ACCCTATACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCCCGCAATCAGACTTTGCGGCAGTGTT CGGCCGGTCTTCTGACCGGTTTACTCGCTGTCGTGAGGCCATCATCGTCTGGGACCGCTGGATAAGACCT TAGGAATGTAACTCCCTTCGGGGAGTGTTATAGCCTCTGGTGATGCAGCGCGTCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACTTTATTGTGC ACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749019|ref|NG_042742.1| Pseudocercospora robusta CBS 111175 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG TAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGCTTGC ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCCCGCAACCAGACTTTGCGGCAGTGTT CGGCCGGTCTTCTGACCGGTTTACTCGCTGTCGTGAGGCCATCATCGTCTGGGACCGCTGGATAAGACCT TAGGAATGTAGCTCCCCTCGGGGAGTGTTATAGCCTCTGGTGATGCAGCGCGTCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACTTTTTGTGCA CCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGT GAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749018|ref|NG_042741.1| Pseudocercospora norchiensis CBS 120738 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG TAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGCTTGC ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCCCGCAACCAGACTTTGCGGCAGTGTT CGGCCGGTCTTCTGACCGGTTTACTCGCTGTCGTGAGGCCATCATCGTCTGGGACCGCTGGATAAGACCT TAGGAATGTAGCTTCCCTCGGGAAGTGTTATAGCCTCTGGTGATGCAGCGCGTCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACTTTTTGTGCA CCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGT GAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749017|ref|NG_042740.1| Pseudocercospora madagascariensis CBS 124155 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGTAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG TAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGCTTGC ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCCCGCAACCAGACTTTGCGGCGGTGTT CGGCTGGTCTTCTGACCGGTTTACTCGCCGCCGTGAGGCCATCATCGTCTGGGACCGCTGGATAAGACCT GAGGAATGTAGCTCCCTTCGGGGTGTGTTATAGCCTCTGGTGATGCAGCGCGTCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACTTTTTGTGCA CCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGT GAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749016|ref|NG_042739.1| Pseudocercospora flavomarginata CBS 118824 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGTAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG TAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGCTTGC ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCCCGCAACCAGACTTTGCGGCGGTGTT CGGCCGGTCTTCTGACCGGTTTACTCGCCGCCGTGAGGCCATCATCGTCTGGGACCGCTGGATAAGACCT GAGGAATGTAGCTCCCTTCGGGGTGTGTTATAGCCTCTGGTGATGCAGCGCGTCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACTTTTTGTGCA CCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGT GAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749015|ref|NG_042738.1| Pseudocercospora chiangmaiensis CBS 123244 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGTAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG TAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGCTTGC ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCCCGCAACCAGACTTTGCGGCGGTGTT CGGCTGGTCTTCTGACCGGTTTACTCGCCGCCGTGAGGCCATCATCGTCTGGGACCGCTGGATAAGACCT GAGGAATGTAGCTCCCTTCGGGGTGTGTTATAGCCTCTGGTGATGCAGCGCGTCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACTTTTTGTGCA CCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGT GAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749014|ref|NG_042737.1| Mycosphaerella sumatrensis CBS 118499 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTAGG CAGCGGCCGGTCTAAGTTCTCTGGAACAGGACGTCACAGAGGGTGAGAACCCCGTATGTGATCGGCGCGC ACCTTCTACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTGAAACAGCACGTGAAATTGTTAAAAGGGAAGCGCTCGCAACCAGCCCTCGGGACGTCGTT CGGCCGGACTTCTGTCCGGTTTACTCTGCGTCTCGAGGCCAACATCATCTGGGGCCGTCGGATAAGACCG TGGGAATGTGGCTCCCCCTCAGGGGGAGTGTTATAGCCCGCGGTGATGCGACGCGCCCCGGGTGAGGTCC GCACTTCGGTAAGGATGTTGGCTTAATGGTTGCCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAA CATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAGCTTCGGCG CACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATG GTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749013|ref|NG_042736.1| Mycosphaerella ellipsoidea CBS 110843 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGC CAGCGGCCGTTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCGCGC AGCCTTTACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTCGTAGCGATGTT CCGCTGGTCTTCTGACCGGTCTACTCATCGTCGCGAGGCCAACATCGTCTGGGCCCGCTGGATAAGACCT AAGGAATGTGGCTTCTCTTCGGGGAAGTGTTATAGCCTGTGGTGATGCAGCGTGGCTCGGGCGAGGTCCG CGCTTCGGCAAGGATGTTGGCGTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAAGCGCAAGCT GCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749012|ref|NG_042735.1| Lecanosticta longispora CPC 17940 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCACCAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG CAGCGGCCGTTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCACGT ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTACAACCAGACTTCGTGGCGGTGTT CCGCCGGTCTTCTGACCGGTCCACTCGCCGCCGCGAGGCCAGCATCGTCTGGGGCCGCCGGATAAGACCT TGGGAATGTAGCTCGCCTCGGTGAGTATTATAGCCCAGGGTGATACGGCGCGCCCCGGGCGAGGTCCGCG CTTCGGCAAGGATGCTGGCGTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAAGCGCAAGCTGC ACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749011|ref|NG_042734.1| Lecanosticta guatemalensis IMI 281598 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCACCAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGG CAGCGGCCGTTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCACGT ACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTCGTGGCGGTGTT CCGCCGGTCTTCTGACCGGTCCACTCGCCGCCGCGAGGCCAGCATCGTCTGGGGCCGCCGGATAAGACCT TGGGAATGTAGCTCGCCTCGGTGAGTGTTATAGCCCAGGGTGATACGGCGCGCCCCGGGCGAGGTCCGCG CTTCGGCAAGGATGCTGGCGTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAAGCGCAAGCTGC ACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA >gi|913749010|ref|NG_042733.1| Calonectria pentaseptata CBS 133349 28S rRNA, partial sequence; from TYPE material GTTGACCTCGAATCAGGTAGGACTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCTCGGGTCCGA GTTGTAATTTGTAGAGGATGCTTTTGGTGAGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCATAGAGGG TGAGAGCCCCGTCTGGTTGGACACCGAACCTCTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCTAAATGGGAGGTATATGTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGC TTATGACCAGACTTGGGCTTGGTTGATCATCCTGGGTTCTCCCTGGTGCACTCTTCCAGTTCAGGCCAGC ATCAGTTCGCTGCGGGGGATAAAAGCTTTAGGAATGTGGCTCCTTCGGGAGTGTTATAGCCTATTGCATA ATACCCTGCTCCGGACTGAGGTTCGCGCATCTGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTCT TGAAACACGGACCAAGGAGTCGTCTTCGTATGCGAGTGTTCGGGTGTTAAACCCCTACGCGTAATGAAAG TGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGC ATACGGGGCCGGACCCGAAAGAAGGTGAACTATGCCTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGGGCATGGGGGCGAAAGACTAATCGAACC TTCTAGTAGCTGGTTTCCGCCGAGTC >gi|913749009|ref|NG_042732.1| Claviradulomyces xylopiae CBS 133260 28S rRNA, partial sequence; from TYPE material GCGGAGGAAGAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATC TGGCCTTTTAGGTCCGAATTGTAATTTGTAGAAGGCATCTCGGGCGCGGCACCAGTTTAAGTTCCTTGGA ATAGGGCGTCATAGAGGGTGAGAATCCCGTATGTGACTGGCCGCCAAACCCATGTGAGATCCTTTCGACG AGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAG ACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTATGTGA AATTGTTAAAAGGGAAGCGCTTGTAACCAGACTTGTTTGCAGTTGATCAACCTTCCTTCGGGCTGGTGCA CTCTTCTGTATGCAGGCCAGCATCAGTTTAGACGGTTGGATAAAGACTTCAGGAACGTAGCTCTCTTCGG GGAGTGTTATAGCCTGGGGTGTAATACAGCCTGCCTGGACTGAGGACCGCGCTTTTGCTAGGATGCTGGC GTAATGGTTGCCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCAACCAATTGTGCGAGTGTTTGGGTG TTAAAACCCATACGCGTAATGAAAGTGAACGGAGGTAGGAGCCCTTACGGGTGCACTATCGACCGATCCT GATGTTTTCGGATGGATTTGAGTATGAGCATCATTGGCTGGACCCGAAAGATGGTGAACTATGCATGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT GTGCATAGGGCGAAAGACTAATCGACTCATCTAGTA >gi|913749008|ref|NG_042731.1| Donadinia helvelloides LY PB 940 28S rRNA, partial sequence; from TYPE material ACTGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTCTGGGTGCCCGAGTTGTAATTTGGA GAGGCAACTTCGGAGAGGGCGCTGGCTTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGT GCGTGGCTGGCTGTCCTTCTTCATGTGAAGTGTCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAA ATGGGTGGTAAACTCCATCTAAGGCTAAATACTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAA AGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCA GACTCGGTGATTGGTGATCAGCGGTAGCTTTTGCTCCGTGCACTTGCCTTTTACCGGGCCAGCATCAGTT GCAGGGGTGGGATAAAGACCTAGGGAATGTGGCTCCCTTCGGGGAGTGTTATAGCCCTGGGTGTAATGCT GCCTGTTGCGACTGAGGACCGCGCTTTGGCTAGGATGCTGGCATAATGGTCTTCAGCGACCCGTCTTGAA ACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGGAAAACCCCTACGCGTAATGAAAGTGAA CGGAGGTGGGAACTCTTCGGAGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAGGAGC ATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACC ATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGATCTCAGTTTTATGAGGTAAAG CGAATGATTAGAGGCCTTGGGGTTGGAATAACCTTAACCTATTCTCAAACTTTAAATGTGTAAGAAGTCC TTGTTGCTTAATTGAACGTGGACATTTGAATGTACGTTACTAG >gi|913749007|ref|NG_042730.1| Urnula padeniana WTU F-033051 28S rRNA, partial sequence; from TYPE material ACTGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTTTGGGTGCCCGAGTTGTAATTTGGA GAGGCAACTTCGGAGGAGGCGCTGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGT GCTTGGCTGGCTGTCCTCCTTCATGTGAAGTGTCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAA ATGGGTGGTAAACTCCATCTAAGGCTAAATACTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAA AGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCA GACTCGGTGATAGGTGATCAGCGGTGGCTTCTGCTCCGTGCACTTGCCTGTTACTGGGCCAGCATCAGTT GCGACGGCGGGATAAAGCCCTGAGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCTTGGGGGCAATGCC GCCTGTCACGACTGAGGACCGCGCTTCGGCTAGGATGCTGGCATAATGGTCTTCAGCGACCCGTCTTGAA ACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTAAAACCCCTACGCGTAATGAAAGTGAA CGGAGGTGGGAACTCTCTGGAGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAGGAGC ATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAA >gi|913749006|ref|NG_042729.1| Plectania zugazae 28S rRNA, partial sequence; from TYPE material ACTGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTTTGGGTGCTCGAGTTGTAATTTGGA GAGGCAACTTCGAAGGAGGCGCTGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGT GCTTGGCTGGCTGTCCTCCTTCATGTGAAGTGTCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAA ATGGGTGGTAAACTCCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAA AGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCA GACTCGGTGATAGGTGATCAGCGGTTGCTTTTGCTCCGTGCACTTGCCTTTTATCGGGCCAGCATCAGTT GCGACGGTGGGATAAAGACTCAGGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCCTGGGTGTAATGCC ACCTGTTGCGACTGAGGACCGCGCTTCGGCTAGGATGCTGGCATAATGGTCTTCAGCGACCCGTCTTGAA ACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTAAAACCCCTACGCGTAATGAAAGTGAA CGGAGGTGGGAACTCCTCGGAGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAGGAGC ATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACC ATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGATCTCAGTTTTATGAGGTAAAG CGAATGATTAGAGGCCTTGGGGTTGGAATAACCTTAACCTATTCTCAAACTTTAAATGTGTAAGAAGTCC TTGTTGCTTAATTGAACGTGGACATTTGAATGTACGTTACTAG >gi|913749005|ref|NG_042728.1| Pseudoplectania nigrella KL BK-4914 28S rRNA, partial sequence; from TYPE material ACTGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCATTCGGTGCTCGAATTGTAATTTGGA GAGGCAACTTCGGAGAGGGCGTTGGCCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGT GCTTGGCTGACTGTCCCTCTTCATGTGAAGTGTCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAA ATGGGTGGTAAACTCCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAA AGATGAAAAGCACTTTGAAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCA GACTCGGTGATAGGTGATCAGCGGTTGCTTTTGCTCCGTGCACTTGCCTTTTACCGGGCCAGCATCAGTT ACAGCGGTGGGATAAAGACTCAGGGAATGTGGCTCCCTTCGGGGAGTGTTATAGCCCTGGGTGTAATGCC ACCTGTTGTGACTGAGGACCGCGCTTCGGCTAGGATGCTGGCATAATGGTCTTCAGCGACCCGTCTTGAA ACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTAAAACCCCTACGCGGAATGAAAGTGAA CGGAGGTGGGAACCTTTTAGGTGCACCATCGACCGATCCTGATGTTTACGGATGGATTTGAGTAGGAGCA TAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAG GCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCA TCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGATCTCAGTTTTATGAGGTAAAGC GAATGATTAGAGGCCTTGGGGTTGGAATAACCTTAACCTATTCTCAAACTTTAAATGTGTAAGAAGTCCT TGTTGCTTAATTGAACGTGGACATTTGAATGTACGTTACTAG >gi|913749004|ref|NG_042727.1| Sphaeropsis eucalypticola MFLUCC 11-0579 28S rRNA, partial sequence; from TYPE material AGACAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAAGCTGGCCCTTTC AGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCCCGCCTAAGTCCCCTGGAACGGGGCG TCATAGAGGGTGAGAATCCCGTATGCGGTGGGCTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGT TGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAG CGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTG AAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTG CGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTT ATAGCCCGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCTTCGGCAAGGATGCTGGCGTAATGGT TGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCAGTGTTTGGGTGTCAAACCCA TACGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAAGGGCGCACCATCGGCCGATCCTGATGTCTTCG GATGGATTTGAGCAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGG CGAAAGACTAATCGA >gi|913749003|ref|NG_042726.1| Lasiodiplodia lignicola MFLUCC 11-0435 28S rRNA, partial sequence; from TYPE material AGACACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCCCTTTTA GGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCCTGCCTAAGTCCCCTGGAACGGGGCGT CATAGAGGGTGAGAATCCCGTATGCGGTAGGTTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGTT GTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGC GCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGA AAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGC GGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTA TAGCCCGGGGTGGAATGCGACCAGCCTGGACTGAGGATCTCGCTTCGGCAAGGATGCTGGCGTAATGGTT GTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCG TACGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAAGGGTGCACCATCGGCCGATCCTGATGTCTTCG GATGGATTTGAGCAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGG CGAAAG >gi|913749002|ref|NG_042725.1| Dothiorella thailandica MFLUCC 11-0438 28S rRNA, partial sequence; from TYPE material GTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCCCCCTCGGGGTCCGCGTTGTAATTTG TAGAGGATGATTCGGCGAGGGCTCCCGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCC GTATGTGATGGGTTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTA AATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGA AAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGTC AGACTTGTCCGCGGTTGCTCAGCCGGTCTCTTGACCGGCGTACTCTTCCGCGGCCAGGCCAGCATCAGTT CGGGCGGTCGGATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCG GCCAGCCTGGACTGAGGATCTCGCTTCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAA ACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATGAAAGTGAA CGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGC ATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGAC >gi|913749001|ref|NG_042724.1| Botryobambusa fusicoccum MFLUCC 11-0143 28S rRNA, partial sequence; from TYPE material TTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGTCCTTTCAGGGCCCGCGTT GTAATTTGTAGAGGATGATTCGGCGAGGGCTCCCGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTG AGAATCCCGTATGCGGTGGGCTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATG CAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGC TTGCAACCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAG CATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGC GGAATGCGGCCAGCCTGGACTGAGGATCTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCC GTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATG AAAGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGGCCGATCCTGATGTCTTCGGATGGATTTGA GCAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGG >gi|913749000|ref|NG_042723.1| Botryosphaeria agaves MFLUCC 11-0125 28S rRNA, partial sequence; from TYPE material TAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCTCCTTCGGAGTCCGCGTTGTAATT TGTAGAGGATGATTCGGCAAGGGCTCCCGCCTAAGTCTCCTGGAACGGAGCGTCATAGAGGGTGAGAATC CCGTATGCGGTGGGCTGCCTAAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTC TAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATC GAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAG CCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTATTCTTCTGCGGCCAGGCCAGCATCAG TTCGGGCGGTCGGATAAAGACCTCGGGAACGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATG CGGCCAGCCTGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTG AAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAGTG AACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGA GCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTG GAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAA CCA >gi|913748999|ref|NG_042722.1| Botryosphaeria fusispora MFLUCC 10-0098 28S rRNA, partial sequence; from TYPE material GCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCTCCTTTGGAGTCCGCGTTGT AATTTGTAGAGGATGATTCGGCAAGGGCTCCCGCCTAAGTCTCCTGGAACGGAGCGTCATAGAGGGTGAG AATCCCGTATGCGGTGGGCTGCCTAAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCA GCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTT GCAGCCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGGCCAGGCCAGCA TCAGTTCGGGCGGTCGGATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGG AATGCGGCCAGCCTGGACTGAGGATCTCGCTTCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGT CTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAA AGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAA >gi|913748998|ref|NG_042721.1| Lindgomyces angustiascus ILL A640-1a 28S rRNA, partial sequence; from TYPE material GTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGC GAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGTTCCTTCCGGGGCCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCCATGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGTTGGCCTTCGCCATGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCCGTAGTCGCTCATCTAGGCTTCTGCCTGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTTCAGGCGG TCGGATAAAGGTCTTGGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCCAGGGCGCAATGCGACCAGCC TGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGCAATGAAAGTGAACGGAGGT GGGAACCCGCAAGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG >gi|913748997|ref|NG_042720.1| Coniochaeta canina UAMH 11702 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAATCTGGCTTCGGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGGCGAGGTGCCTTCTG AGTTCCCTGGAACGGGACGCCATAGAGGGTGAGAGCCCCGTATAGTCGGACACCTAGCCTCTGTAAAGCT CCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATCTCTTCTAAAGCTAAATAT AGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAT AGCACGTGAAATTGTTGAAAGGGAAGCGCTTGTGACCAGACTTGTGCCGGGCTGATCATCCAGTGTTCTC ACTGGTGCACTCGACCCGGCTCAGGCCAGCGTCGGTTGTCGCGGGGGGATAAAAGCGGCGGGAACGTGGC TCCTCCGGGAGTGTTATAGCCCGCCGCTCAATGCCCTCGCGGCGACCGAGGTTCGCGCTCTGCAAGGACG CTGGCATAATGGTCATCAGCGACCCGTCTTGAAACACGGACC >gi|913748996|ref|NG_042719.1| Pseudovalsaria ferruginea UAMH 11490 28S rRNA, partial sequence; from verified material TTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAAC AGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCCGGCCTCGGCCCGAGTT GTAATTTGCAGAGGATGCTTTTGGTGCGGCGCCTACTGAGTCCCCTGGAACGGGGCGCCAGAGAGGGTGA GAGCCCCGTATAGTGGGACGCCTAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTG CTCAAAACGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTCAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTCGT GACCAGACTTGCGCCGGGCCGATCATCCGGTGTTCTCACCGGTGCACTCGGCCCGGCTCAGGCCAGCATC GGTTCTCGCGGGGGGACAAAAGCCCCGGGAACGTAGCTCCTCCGGGAGTGTTATAGCCCTGGGCACAATA CCCTCGCGGGGACCGAGGACCGCGCTCTGCAAGGATGCTGGCGTAATGGTCACCAGCGACCCGTCTTGAA ACACGGACCAAGGAGTCAAGGTTTTGCGCGAGTGTTTGGGTGTAAAACCCGCACGCGTAATGAAAGTGAA CGTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCGTAA TGCCTTGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCT CGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCAGGGCATGGGGGCGAAAGACTAATCGAACCATCT AGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGTCTTCAGTTTTATGAGGTAAAGCGAA TGATTAGGGACTCGGGGGCGCTATTTTGCCTTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCTTG TTGCTTAGTTGAACGTGGGCATTCGAATGCACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG ATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCGGAGTGGACGCTCATCAGACACCA >gi|913748995|ref|NG_042718.1| Endoxyla operculata UAMH 11085 28S rRNA, partial sequence; from verified material ACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCTCGGCC CGAGTTGTAATTTGCAGAGGATGCTTTAGGCGCGGCGCCTCCCGAGTCCCCTGGAACGGGGCGCCACAGA GGGTGAGAGCCCCGTATGGTAGGACGCCTAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGA ATGCTGCTCAAAATGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGTACAAGT AGAGTGATCGAAAGATGAAAAGTACTTTGAAAAGAGGGTTAAACAGCACGTGAAATTGTTGAAAGGGAAG CGCTCGTGACCAGACTTGCGCCGGGGCGATCATCCGGTGTTCTCACTGGTGCACTCGTCCCGGCTCAGGC CAGCATCGGTTCTCGCGGGGGGATAAAAGTCCCGGGAACGTAGCTCCTCTGGGAGTGTTATAGCCCGGGG CACAATGCCCTCGCGGGGACCGAGGCCCGCGCATCTCGCAAGGATGCTGGCGTAATGGTCACCAGCGACC CGTCTTGAAACACGGACCAAGGAGTCAAGGTTTTGCGCGAGTGTTTGGGTGCCAAACCCGCACGCGTAAT GAAAGTGAACGTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTA AGAGCGTAATGCCTTGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCAGGGCATGGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTTCAGTTTTATGA GGTAAAGCGAATGATTAGGGACTCGGGGGCGCTATTTTGCCTTCATCCATTCTCAAACTTTAAATATGTA AGAAGCCCTTGTTGCTTAGCTGAACGTGGGCATTCGAATGAAACAACACTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCGGAGTGGACGCTCATCAGACACCA >gi|913748994|ref|NG_042717.1| Endoxyla mallochii UAMH 11087 28S rRNA, partial sequence; from TYPE material ACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAGCAGCTCAAATTTGAAATCCGGCCCTTGGC CCGAGTTGTAATTTGCAGAGGATGCTTTGGGCGCGGCGCCTCCCGAGTCCCCTGGAACGGGGCGCCACAG AGGGTGAGAGCCCCGTATGGTAGGACGCCTGGCCCGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGG AATGCTGCTCAAAACGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGTACAAG TAGAGTGATCGAAAGATGAAAAGTACTTTGAAAAGAGGGTTAAACAGCACGTGAAATTGTTGAAAGGGAA GCGCTCGTGACCAGACTTGCGTCGGGCCGATCATCCGGTGTTCTCACCGGTGCACTCGGCCCGGTTCAGG CCAGCATCGGTTTCCGGCGGGGGGATAAAAGCCCTGGGAACGTAGCTCCCCCGGGAGTGTTATAGCCCTG GGCACAATACCCTCGCGGGGACCGAGGCCCGCGCTCTGCAAGGATGCTGGCGTAATGGTCACCAGCGACC CGTCTTGAAACACGGACCAAGGAGTCAAGGTTTTGCGCGAGTGTTTGGGTGCCAAACCCGCACGCGTAAT GAAAGTGAACGTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGACGGATTTGAGTA AGAGCGTAATGCCTTGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCAGGGCATGGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTCAGTTTTATGAG GTAAAGCGAATGATTAGGGACTCGGGGGCGCTATTTTGCCTTCATCCATTCTCAAACTTTAAATATGTAA GAAGCCCTTGTTACTTGGCTGAACGCGGGCATTCGAATGTACCAACACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCGGAGTGGACGCTCATCAGACACCA >gi|913748993|ref|NG_042716.1| Endoxyla macrostoma UAMH 11491 28S rRNA, partial sequence; from verified material TTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAAC AGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCCGGCTTCGGCCCGAGTT GTAATTTGCAGAGGATGCTTTTGGCGCGGCGCCTCCCGAGTCCCCTGGAACGGGGCGCCACAGAGGGTGA GAGCCCCGTATGGTAGGACGCCTAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTG CTCAAAATGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGTACTTTGAAAAGAGGGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTCG TGACCAGACTTGCGCCGGGTCGATCATCTGGTGTTCTCACCGGTGCACTCGGCCCGGTTCAGGCCAGCAT CGGTTCTCGCGGGGGGATAAAAGCCCTGGGAACGTAGCTCCTCCGGGAGTGTTATAGCCCTGGGCACAAT ACCCTCGCGGGGACCGAGGCCCGCGCTCTGCAAGGATGCTGGCGTAATGGTCACCAGCGACCCGTCTTGA AACACGGACCAAGGAGTCAAGGTTTTGCGCGAGTGTTTGGGTGTAAAACCCGCACGCGTAATGAAAGTGA ACGTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGACGGATTTGAGTAAGAGCGTA ATGCCTTGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGC TCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCAGGGCATGGGGGCGAAAGACTAATCGAACCATC TAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGATCTTCAGTTTTATGAGGTAAAGCG AATGATTAGGGACTCGGGGGCGCTATTTTGCCTTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCT TGTTACTTGGCTGAACGTGGGCATTCGAATGTACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGG CGATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCGGAGTGGACGCTCATCAGACACCA >gi|913748992|ref|NG_042715.1| Apiorhynchostoma curreyi UAMH 11088 28S rRNA, partial sequence; from verified material AGAAGACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCCGGCTT CGGCCCGAGTTGTAATTTGCAGAGGATGCTTTGGGCGCGGCGCCTACTGAGTCCCCTGGAACGGGGCGCC ACAGAGGGTGAGAGCCCCGTATAGTAGGACGCCTAGCCTGTGTAAAGCTCCTTCGACGAGTCGAGTAGTT TGGGAATGCTGCTCAAAATGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCA CAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTCAAACAGCACGTGAAATTGTTGAAAG GGAAGCGCTCGTGACCAGACTTGCGCCGGGCCGATCATCCGGTGTTCTCACCGGTGCACTCGGCCCGGCT CAGGCCAGCATCGGTTTTCGCGGGGGGACAAAAGCCCCGGGAACGTAGCTCCTCCGGGAGTGTTATAGCC CGGGGCATAATACCCTCGCGGGGACCGAGGCCCGCGCATCTGCAAGGATGCTGGCGTAATGGTCACCAGC GACCCGTCTTGAAACACGGACCAAGGAGTCAAGGTTTCGCGCGAGTGTTTGGGTGTAAAACCCGCACGCG TAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTTTCGGATGGATTTG AGTAAGAGCGTGGTGCCTTGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCAGGGCATGGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGTCTTCAGTTTTAT GAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTATTTAGCCTTCATCCATTCTCAAACTTTAAATATG TAAGAAGCCCTTGTTACTTAGTTGAACGTGGGCGTTCGAATGCACCAACACTAGTGGGCCATTTTTGGTA AGCAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCGGAGTGGACGCTCATCAGACACC A >gi|913748991|ref|NG_042714.1| Kellermania yuccigena CBS 131727 28S rRNA, partial sequence; from TYPE material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAMGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTT GTAATTTGTAGAGGATGTTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGTG AGAATCCCGTATGTGATGGGTTGCTCGAGCCATGTGAAACTCCTTCGACGAGTCGAGTTGTTTGGGAATG CAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGC TTGCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAG CATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGT GCAATGCGGCCAGCCTGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCC GTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATG AAAGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGA GTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGC CAGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGGG >gi|913748990|ref|NG_042713.1| Kellermania yuccifoliorum CBS 131726 28S rRNA, partial sequence; from verified material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTG TAATTTGTAGAGGATGTTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGTGA GAATCCCGTATGTGATGGGTTGCTCGAGCCATGTGAAACTCCTTCGACGAGTCGAGTTGTTTGGGAATGC AGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAG TGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCT TGCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGC ATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTG CAATGCGGCCAGCCTGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGA AAGTGAACGGAGGTGGGAACCCTTACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGA GGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAA GAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCC AGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGG >gi|913748989|ref|NG_042712.1| Kellermania uniseptata CBS 131725 28S rRNA, partial sequence; from verified material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTG TAATTTGTAGAGGATGTTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGA GAATCCCGTATGTGATGGGTTGCTCGAGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGC AGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAG TGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCT TGCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGC ATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTG CAATGCGGCCAGCCTGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGA AAGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGA GGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAA GAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCC AGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGGG >gi|913748988|ref|NG_042711.1| Kellermania rostratae CBS 131721 28S rRNA, partial sequence; from TYPE material GCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTGT AATTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGTGAG AATCCCGTATGTGATGGGTTGCCCGAGCCGCGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCA GCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTT GCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGCA TCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGC AATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGT CTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAA AGTGAACGGAGGTGGGAACCCTCGCGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAG GTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAG AAGTCCTTGTTGCTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCA GAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAA AAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACA ACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCA GGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTG >gi|913748987|ref|NG_042710.1| Kellermania ramaleyae CBS 131722 28S rRNA, partial sequence; from TYPE material CCTCAGTAACGGCGAGTGAAGCGGCAGCAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTGTA ATTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCCTGGAACGGGGCGTCGCAGAGGGTGAGA ATCCCGTATGTGATGGGTTGCCCGAGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAG CTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTG CAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGTCCGGGCCAGCAT CAGTTCGGGCGGTCGGATAAAGGCCCCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGCA ATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTC TTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAA GTGAACGGAGGTGGGAACCCTCGCGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTA AGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAGG TAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGA AGTCCTTGTTGCTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAG AACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAA AGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAA CTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAG GGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGGG >gi|913748986|ref|NG_042709.1| Kellermania plurilocularis CBS 131719 28S rRNA, partial sequence; from verified material GCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTGT AATTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGAG AATCCCGTACGTGATGGGCTGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCA GCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTT GCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGTCCGGGCCAGCA TCAGTTCGGGCGGCCGGATAAAGGCCCCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGC AATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGT CTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGAAATGAA AGTGAACGGAGGTGGGAACCCTCGCGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATTGGCCTGCGGCTGCTAGGTGGTCAAGAGGCCGCGCGACGGGAAAGCGCGGCCTAGTCCCTCC ACTCGGGGCGACATCATCAAATTGTTCGGGGACGTCCTTAGAGCTCAGGCCACCGCGGCGCCGTCGAAAG GCGGCGCGCAGCACCGGGGTAACGACCCAGGGGATGGTAACAGCGCCTGAGATTGGACAATCCGCAGCCA AGCCCCTAAGGGCCCGGCGACCTCGCTCGGGGTCGCGGGGCCTACGGGGAAGGTTCACAGACTAGATGGT GATGGGTGCGCCCTCGGGCGTGCTTAAGATATAGTCGACCCTCACGGAAACGTGAACGGCGGGACGAAGC CGGCAGGGGTGAGTGGGCGCCGCGGGTCTCAAACCCGCCCGCGGCGGCACCCCCCGGCCCGAATCCCGCC GCGGGGGCCTGGCGGCCAGGCCC >gi|913748985|ref|NG_042708.1| Kellermania nolinifoliorum CBS 131718 28S rRNA, partial sequence; from verified material GTAACGGCGAGTGAAGCGGCAACACGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTGTAATTT GTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGTGAGAATCC CGTATGTGATGGGTTGCTCGAGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCT AAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCG AAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAAC CAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGCATCAGT TCGGGCGGTCGGATAAAGGCCTCGGGAACGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGCAATGC GGCCAGCCTGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGA AACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAGTGA ACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAG CATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGG AGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAAC CATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAGGTAAA GCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTC CTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACT GGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGT GTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCA CCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAGGGTA GATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAA >gi|913748984|ref|NG_042707.1| Kellermania nolinae CBS 131717 28S rRNA, partial sequence; from verified material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTG TAATTTGTAGAGGATGCTTCGGCGAGGGCCCCCGTCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGA GAATCCCGTATGTGATGGGCGGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGC AGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAG TGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCT TGCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGC ATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTG CAATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGA AAGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGA GGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAA GAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCC AGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTTGGGGG >gi|913748983|ref|NG_042706.1| Kellermania micranthae CBS 131724 28S rRNA, partial sequence; from TYPE material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTG TAATTTGCAGAGGATGCTTCGGCGAGGGCTCCCGTCTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGT GAGAATCCCGTATGTGATGGGCTGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAAT GCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAG AGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCG CTTGCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCA GCATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGG TGCAATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCC CGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAAT GAAAGTGAACGGAGGTGGGAACCCTCGCGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTG AGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAA GCAGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCA CAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTA ACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCG CCAGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGG >gi|913748982|ref|NG_042705.1| Kellermania macrospora CBS 131716 28S rRNA, partial sequence; from verified material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTG TAATTTGTAGAGGATGCTTCGGCAAGGGCTCCCGTCTAAGTCCCCTGGAACGGGGCGTCGCAGAGGGTGA GAATCCCGTATGTGATGGGCTGCCCGAGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGC AGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAG TGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCT TGCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGC ATCAGTTCGGGCGGCCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTG CAATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGA AAGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGA GGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAA GAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCC AGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGGG >gi|913748981|ref|NG_042704.1| Kellermania dasylirionis CBS 131715 28S rRNA, partial sequence; from verified material CCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTGTA ATTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGAGA ATCCCGTATGTGATGGGCTGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAG CTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTG CAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGCAT CAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGCA ATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTC TTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAA GTGAACGGAGGTGGGAACCCTCGCGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTA AGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAGG TAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGA AGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAG AACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAA AGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAA CTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAG GGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGG >gi|913748980|ref|NG_042703.1| Kellermania dasylirionicola CBS 131720 28S rRNA, partial sequence; from TYPE material GCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTGT AATTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGAG AATCCCGTATGTGATGGGTTGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCA GCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTT GCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGCA TCAGTTCGGGCGGCCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGC AATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGT CTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAA AGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAG GTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAG AAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCA GAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAA AAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACA ACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCA GGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGG >gi|913748979|ref|NG_042702.1| Kellermania crassispora CBS 131714 28S rRNA, partial sequence; from verified material TGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTG TAATTTGTAGAGGATGCTTCGGCGAGGGCCCCCGTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGTGA GAATCCCGTATGTGATGGGCAGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGC AGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAG TGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCT TGCAACCAGACTCGCGCGCAGTCGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGC ATCGGTTCGGGCGGTCGGATAAAGGCCCCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTG CAATGCGGCCAGCCCGGACCGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGA AAGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATTAAGGGCCTTTCCGGCCGCTAGGTGGTTGAGAGGCCGCGCGACGGGAAAGCGCGGCCTAGT CCCTCCACTCGGGGCGACATCATCAAATTGTTCGGGGACGTCCTTAGAGCTCAGGCCACCGCGGCGCCGC CGAAAGGCGGCGCGCAGCACCGGGGTAACGACCCAGGGGATGGTAACAGCGCCCGAGATTGGATAATCCG CAGCCAAGCCCCTAAGGGCCCGCGCCTCCGCGGGCCACGGGGAAGGTTCACAGACTAGATGGTGATGGGT GCGCCCGACGGGCGTGCTTAAGATATAGTCGACCCTCACGGAAACGTGAACGGCGGGACGAAGCCGGCAG GGGAGAGTGGGCGCCGCGGCGGCTCCCCCCGGCCCGAATCCCGCCGCGGAGGCCCCACGCAGGTGGGCGC CTCCGGGGGCTACGTGCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGT TTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAA TATGTAAGAAGTCCTTGTTGCTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTT GGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGA CACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGT GTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACAT CGCCGCCAGGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGG >gi|913748977|ref|NG_042701.1| Kellermania confusa CBS 131723 28S rRNA, partial sequence; from TYPE material GCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTGT AATTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCCTGGAACGGGGCGTCGCAGAGGGTGAG AATCCCGTATGTGATGGGCTGCCCGAGCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCA GCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTT GCAACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGCA TCAGTTCGGGCGGCCGGATAAAGGCCTCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGC AATGCGGCCAGCCCGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGT CTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAA AGTGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAG GTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAG AAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCA GAACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAA AAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACA ACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCA GGGTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGA >gi|913748975|ref|NG_042700.1| Kellermania anomala CBS 132218 28S rRNA, partial sequence; from verified material CTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCCCTCGGCGTCCGAGTTGTAA TTTGTAGAGGATGCTTCGGCGAGGGCTCCCGTCTAAGTCCCTTGGAACAGGGCGTCGCAGAGGGTGAGAA TCCCGTATGTGATGGGTTGCTCGAGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGC TCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGA TCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGC AACCAGACTCGCGCGCAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGTCCGGGCCAGCATC AGTTCGGGCGGTCGGATAAAGGCCTCGGGAACGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGTGCAA TGCGGCCAGCCTGGACTGAGGAACTCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCT TGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAG TGAACGGAGGTGGGAACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAA GAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGG TGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCG AACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAGGT AAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAA GTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGA ACTGGCGATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAA GGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAAC TCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAGG GTAGATACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGG >gi|913748974|ref|NG_042699.1| Aquasubmersa mircensis MFLUCC 11-0401 28S rRNA, partial sequence; from TYPE material CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAAGAGCTCAAATTTGAAATCTGGCTCTTTCAGAGTC CGAGTTGTAATTTGTAGAGGGCGCTTTGGTGTTGGCTACGGCCTAAGTTCCTTGGAACAGGACGTCACAG AGGGTGAGAACCCCGTACGTGGTTGCTGGCCTTCACCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTG GGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACA AGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGG AAGCGCTTGCAGCCAGACTTGCCTGTAGTTGCTCATCCGAGCTCTTGCTCGGTGTACTCTTCTGCGGGCA GGCCAGCATCAGTCCAGGCGGTCGGATAAAGGCCTTGGAAATGTAGCTCTCTTCGGGGAGTGTTATAGTC CAGGGTGTCATGCGACCAGCTTGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAG CGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGC GCAATGAAAGTGAACGGAGGTGGGAACCCTTCGGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGG ATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAG GAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAA AGACTAATCGA >gi|913748973|ref|NG_042698.1| Acrocalymma aquatica MFLUCC 11-0208 28S rRNA, partial sequence; from TYPE material ACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGACCTCTTCGGGGT CCGAGTTGTAATTTGTAGAGGGCGCTTTGGTGTTGGCTGCGGTCTAAGTTCCTTGGAACAGGACGTCATA GAGGGTGAGAATCCCGTCTGTGGTCGCATGCCTTCACCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTT GGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCAC AAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAACAGCACGTGAAATTGTTGAAAGG GAAGCGCTTGCAGCCAGACTTGCTTATAGTTGCTCATCCGGGCGCTCGCCCGGTGCACTCTTCTGTAGGC AGGCCAGCATCAGTTTGGGCGGTTGGATAAAGGCCTCTGTCATGTATCTCCTCCGGGAGACCTTATAGGG GAGGCGTAATGCAACCAGCCTGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGC GGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCG CAATGAAAGTGAACGGAGGTGGGAACCCTCGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATT TGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCTTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGG >gi|913748972|ref|NG_042697.1| Multifurca stenophylla MEL 2352529 28S rRNA, partial sequence; from TYPE material TAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTTTGGCCGTCCGAGTTGTAA TTTAGAGAAGTGCCTTCCGCGCCGGACCATGCACAAGTCTCCTGGAATGGAGCGTCATAGAGGGTGAGAA TCCCGTCTTTGGCATGGAGCCCCGGTGCTTCTGTGATGCGCTCTCGAAGAGTCGAGTTGTTTGGGAATGC AGCTCAAAATGGGTGGTGAACTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCG TGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTGAAACAGTACGTGAAATTGTTGAAAGGGAAACGCT TGAAGTCAGTCGCGTCGACCGAGACTCAGCCTTGCCTTGGCTTGGTGAACTTCTCGGCCGACGGGTCAGC ATCAATTTTGCCCCTCGGATAATGGCAAGGGAAAGGTGGCACCTTTACGGGTGTGTTATAGTCTCCTGTC GCATGCGAGGGTCAGGATTGAGGAACTCAGCGCGCACCTCACGGTGTCGGGGCTTCGGCCCACGTCACGC GCTTAGGATGCTGGCGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCCAACATGCCC GCGAGTGTTCGGGTGGAAAACCCGTGCGCGTAATGAAAGTGAAAGTTGGGACCTCTGTCGTGGAGGGCAC CGACGCCCGGACCAGACCTTCTGTGACGGATCTGC >gi|913748971|ref|NG_042696.1| Deniquelata barringtoniae MFLUCC 110422 28S rRNA, partial sequence; from TYPE material GGCGAGTGAAGCGGCTACAGCTCAAATTTGAAATCTGGCCCTCCTCAGGGGTCCGAGTTGTAATTTGCAG AGGATGCTTTGGCGTTGGCGGCGTTCCAAGTTCCCTGGAACAGGACATCGCAGAGGGTGAGAATCCCGTA CGCGGGCGCCTGCCTCCGCCGTGTAAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAAT GGGAGGTAAATTTCTCCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAG ATGAAAAGTACTTTGGAAAGAGAGTCAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCCGCCAGA CGTGCCCGCGGTTGCTCACCCAGGCTTCTTTGCCTGGGGCACTCTTCCGCGGGCAGGCCAGCATCGGTTC GGGCGGTCGGACAAAGGCCTCTGTCAAGTACCACCCTTCGGGGTGGCCTTATAGGGGAGGCGCAATGCGA TCAGCCCGGACCGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGCAAGCGGCCCGTCTTGAAA CACGGATCGAGGAGTCTAACATCTACGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGCAATGAAAGTGAAC GGAGGTGGGAGCCTCTCGGGGCGCACCATCGACCGATCCTGAAGTCTTCGGA >gi|913748970|ref|NG_042695.1| Geminibasidium hirsutum DAOM 241969 28S rRNA, partial sequence; from TYPE material CTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAACCTGGCGTCCTTCGGGCGTCCGGATTGTA TTCTGGAGAAGCGTCTTCCACGCTGGTCCACGTATAAGTGCCCTGGAACGGGCTGTCATAGAGGGTGAGA ATCCCGTCCTTGACGTGGGCTACCAGTGTTTTTGTGATGCGCTTTCTAAGAGTCGAGTTGTTTGGGAATG CAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCCTGAGACCGATAGCGAACAAGTACC GTGAGGGAAAGATGAAAAGCACTTTGAAAAGAGAGTCAAACAGTACGTGAAATTGCTGAAAGGGAAACGC TTGAAGTCAGTCGCGCCTCCTGGGATTCAGCCTTGCTTTTGCAAGGCGTACTTCCCAGGAGGCGGGCCAA CATCAGTTTCGACCGGCGGACAAAGGCCGGGGGAATGTGGCTCCTCCGGGAGTGTTATAGCCCCCGGTCA CATACGCCGGTCGGGACTGAGGAACGCAGCGCGCCCTCGTGGCAGGCCTTCGGGCACTTTCGCGCTTAGG ATGTTGGCATAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATCTGCGAGTA TTTGGGTGGCAAACCCGAGTGCGCAATGAAAGTGAATGCAGGTGGGAAGCGCAAGCTGCACCATCGACCG GTCTGGATTTTTAATGATGGATCTGAGTAAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCC TGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCA AATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGG ATAGCAGACACTCGCATCAGTTTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTT AACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTGATTGAACGAGGGCATGCGAATGAGA GTGTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGATCGTGAGGTTAAGGTGC CGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAA GTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCT CAAGCGTGTTACCCATACCTCACCGTTGGCGTTATTGCGATGCGCCAACGAGTAGGCAGGCGTGGAGGTT TGTGAAGAAGCCTTGGCAGTGATGCTGGGTGAAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAAT ATTCAAGTGAGAACCTTGAAGACTGAAGTGGAGAAAGGTTCCATGGTAACAGCAGTTGGACATGGGTTAG TCGATCCTAAGAGATAGGGAAGCTCCGTTTCAAAGCGCGCGATTCTTCGCGCCGCCTATCGAAAGGGAAT CCGGTTAAAATTCCGGAACCAGGATGTGGACCTTTAGCGGCAACGCAACTGAACTTGGAGACGCTAGCAG GGACCCTGGGAAGAGTTATCTTTTCTCCTTAACAGCTTACGACCCTGAAATCGGATTATCCGGAGCTAGG GTTAGATGGCTGGTAGAGCCCGACACTTCTGTCGGGTCCGGTGCGTTCCTGATAGCCCTTGAAAATCCAA GGGAATGAATAACTTTCACGCCTGGTCGTACTCATAACC >gi|913748969|ref|NG_042694.1| Geminibasidium donsium DAOM 241966 28S rRNA, partial sequence; from TYPE material CGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAACCTGGCGTCCTTCGGGCGTCCGGATTGTATTCTAGA GAAGCGTCTTCCACGCTGGTCCACGTATAAGTGCCCTGGAACGGGCCGTCGCAGAGGGTGAGAATCCCGT CCTTGACGTGGGCTACCAGTGTTTTTGTGATGCGCTTTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCA AAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCCTGAGACCGATAGCGAACAAGTACCGTGAGGG AAAGATGAAAAGCACTTTGAAAAGAGAGTCAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGT CAGTCGCGCCTCCTGGGATTCAGCCCCGCTTTTGCGGGGCGTACTTTCCAGGAGGCGGGCCAACATCAGT TTCGACCGGCGGACAAAGGCCGGGGGAATGTGGCTCCTCCGGGAGTGTTATAGCCCCCGGTCACATACGC CGGTCGGGACTGAGGAACGCAGCGCGCCCTCGTGGCAGGCCTTCGGGCACTTTCGCGCTTAGGATGTTGG CATAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATCTGCGAGTATTTGGGT GTCAAACCCGAGTGCGCAATGAAAGTGAATGCAGGTGGGAAGCGCAAGCTGCACCATCGACCGGTCTGGA TTTTTAATGATGGATCTGAGTAAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAG GGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGG GTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAG ACACTCGCATCAGTTTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTAT TCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTGATTGAACGAGGGCATGCGAATGAGAGTGTCTA GTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGATCGTGAGGTTAAGGTGCCGGAATA CACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAA TCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGT GTTACCCATACCTCACCGTTGGCGTTATTGCGATGCGCCAACGAGTAGGCAGGCGTGGAGGTTTGTGAAG AAGCCTTGGCAGTGATGCTGGGTGAAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAG TGAGAACCTTGAAGACTGAAGTGGAGAAAGGTTCCATGGTAACAGCAGTTGGACATGGGTTAGTCGATCC TAAGAGATAGGGAAGCTCCGTTTCAAAGCGCGCGATTCTTCGCGCCGCCTATCGAAAGGGAATCCGGTTA AAATTCCGGAACCAGGATGTGGACCTTTAGCGGCAACGCAACTGAACTTGGAGACGCTAGCAGGGACCCT GGGAAGAGTTATCTTTTCTCCTTAACAGCCTACGACCCTGAAATCGGATTATCCGGAGCTAGGGTTAGAT GGCTGGTAGAGCCCGACACCTCTGTCGGGTCCGGTGCGTTCCTGATAGCCCTTGAAAATCCAAGGGAATG AATAACTTTCACGCCTGGTCGTACTCATAACCGCAGCA >gi|913748968|ref|NG_042693.1| Basidioascus magus DAOM 241948 28S rRNA, partial sequence; from TYPE material CCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTGAAATCTGGCACCCTTCGGGTGTCCGAGTTGT AATCTAGAGAGGCGTTTTCCACGCTGGTCCACGTATAAGTCTCCTGGAACGGAGTGTCATAGAGGGTGAG AATCCCGTCCTTTACGTGGGCTACCAGTGTTTCTGTGATACGCTTTCTAAGAGTCGAGTTGTTTGGGAAT GCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCCTGAGACCGATAGCGAACAAGTAC CGTGAGGGAAAGATGAAAAGCACTTTGAAAAGAGAGTCAAACAGTACGTGAAATTGTTGAAAGGGAAACG CTTGAGGTCAGTCGCGCCTTTTGAGACTCAGCCTTCCTTTTGGTTGGTGTATTTCTCAAGAGGCGGGTCA ACATCAGTTTCGACCGGTGGATAAAGGCGGGAGGAATGTGGCTTCTTCGGAAGTGTTATAGCCTCCCGTT GCATACATCGGTTGGGACTGAGGAACGCAGCACGCCGCAAGGCAGCCCCTCGGGGACTTTCGTGCTTAGG ATGTTGACATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATCTGCGAGTA TTTGGGTGGCAAACCCGAGTGCGCAATGAAAGTGAATGCAGGTGGGAAGCGCAAGCTGCACCATCGACCG GTCTGGATTTTTAATGATGGATCTGAGTAAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCC TGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCA AATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGG ATAGCAGACACTCATATCAGTTTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTT AACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGAGGACATGCGAATGAGA GTGTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGATCGTGAGGTTAAGGTGC CGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAA GTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCT CAAGCGTGTTACCCATACCTCACCGTTAACGTTATTGTGATGCGTTAACGAGTAGGCAGGCGTGGAGGTT GTGAAGAAGCCTTGGCAGTGATGCTGGGTGAAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATA TTCAAGTGAGAACCTTGAAGACTGAAGTGGAGAAAGGTTCCATGGTAACAGCAGTTGGACATGGGTTAGT CGATCCTAAGAGATAGGGAAGCTCCGTTTTAAAGTGCACGATTCTTCGTGCCGCCTATCGAAAGGGAATC CGGTTAACATTCCGGAACCAGGATGTGGATCTTTAGCGGCAACGCAACTGAACTTGGAGACGCTGGCAGG AGCCCTGGGAAGAGTTATCTTTTCTCCTTAACTGTCTACCACCCTGAAATCGGATTATCCGGAGCTAGGG TTCAATGGCAGGTAGAGCCCCACACTTCTGTGGGGTCCGGTGCGTTCCTGACAGTCCTTGAAAATCCAAG GGAATGAATAATTTTCACGCCTGGTCGTACTCATAACCGCAGCAG >gi|913748967|ref|NG_042692.1| Basidioascus undulatus DAOM 241956 28S rRNA, partial sequence; from TYPE material GAAGCGGGAAGAGCTCAAATTTGAAATCTGGCACCCTTCGGGTGTCCGAGTTGTAATCTAGAGAGGCGTT TTCCACGCTGGTCCACGTATAAGTCTCCTGGAACGGAGTGTCATAGAGGGTGAGAATCCCGTCCTTTACG TGGGCTACCAGTGTTTCTGTGATACGCTTTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTCCATCTAAAGCTAAATATTGGCCTGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGCACTTTGAAAAGAGAGTCAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTGAGGTCAGTCGCG CCTTTTGAGACTCAGCCTTCCTTTTGGTTGGTGTACTTCTCAAGAGGCGGGTCAACATCAGTTTCGACCG GTGGATAAAGGCGGGAGGAATGTGGCTTCCTCGGAAGTGTTATAGCCTCCCGTTGGATACATCGGTTGGG ACTGAGGAACGCAGCACGCCGCAAGGCAGCCCCTCGGGGACTTTCGTGCTTAGGATGTTGACATAATGGC CTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATCTGCGAGTATTTGGGTGGCAAACCC GAGTGCGCAATGAAAGTGAATGCAGGTGGGAAGCGCAAGCTGCACCATCGACCGGTCTGGATTTTTAATG ATGGATCTGAGTAAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGCGAAGCC AGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGG CGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGACACTCATA TCAGTTTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAACT TTAAATATGTAAGAAGTCCTTGTTACTTTATTGAACGAGGACATGCGAATGAGAGTGTCTAGTGGGCCAT TTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGATCGTGAGGTTAAGGTGCCGGAATACACGCTCAT CAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAG GAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCAT ACCTCACCGTTAACGTTATTGTGATGCGTTAACGAGTAGGCAGGCGTGGAGGTTGTGAAGAAGCCTTGGC AGTGATGCTGGGTGAAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAGTGAGAACCTT GAAGACTGAAGTGGAGAAGGTTCCATGGTAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGATAGG GAAGCTCCGTTTTAAAGTGCACGATTCTTCGTGCCGCCTATCGAAAGGGAATCCGGTTAAAATTCCGGAA CCAGGATGTGGATCTTTAGCGGCAACGCAACTGAACTTGGAGACGCTGGCAGGAGCCCTGGGAAGAGTTA TCTTTTCTCCTTAACTGTCTACCACCCTGAAATCGGATTATCCGGAGCTAGGGTTCAATGGCAGGTAGAG CCCCACACTTCTGTGGGGTCCGGTGCGTTCCTGACAGTCCTTGAAAATCCAAGGGAATGAATAATTTTCA CGCCTGGTCGTACTCATAACCGCAGCAGGTC >gi|913748966|ref|NG_042691.1| Passalora lobeliae-fistulosae VIC 31840 28S rRNA, partial sequence; from TYPE material TTTGAAATCTGGCGCAAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGCCAGCGGCCGTTCTAAGTT CCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCGCGCAGCCTTTACGTAGCTCCT TCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGG CCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGC ACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTCGTAGCGATGTTCCGCTGGTCTTCTGACCG GTCTACTCATCGTCGCGAGGCCAACATCGTCTGGGCCCGCTGGATAAGACCTAAGGAATGTGGCTTCCCT CGGGAAGTGTTATAGCCTGTGGTGATGCAGCGCGGCTCGGGCGAGGTCCGCGCTTCGGCAAGGATGTTGG CGTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGT GTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAAGCGTAAGCTGCACCATCGACCGATCCTGA TGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAG GGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCA >gi|913748965|ref|NG_042690.1| Bipolaris microstegii CBS 132550 28S rRNA, partial sequence; from TYPE material ACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGG CAACAGCTCAAATTTGAAATCTGGCTCTTTCAGAGTCCGAGTTGTAATTTGCAGAGGGCGCTTTGGCTTT GGCAGCGGTCCAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGTCGCTAGCTAT TGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTT CTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGG AAAGAGAGTCAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCTTGCAGTTGCT CATCCGGGCTTTTGCCCGGTGCACTCTTCTGTAGGCAGGCCAGCATCAGTTTGGGCGGTGGGATAAAGGT CTCTGTCACGTACCTCTCTTCGGGGAGGCCTTATAGGGGAGACGACATACCACCAGCCTAGACTGAGGTC CGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTA ACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAA GGGTGCACCATCGACCGATCCTGAAGTTTACGGAAGGATTTGAGTAAGAGCATGGCTGTTGGGACCCGAA AGATGGTGAACTATGCTTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCATGG GGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTTGTTACTTAATTGAACG CGGGCATTTGAATGAAACGTTATTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCG AACGAGGGGTTACGGTGCCGGAGTACACGCTCATCAGACACCACAAAAGGTGTTGGTTCATCTAGACAGC AGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAAT >gi|913748964|ref|NG_042689.1| Fomitiporia castilloi MUCL 53980 28S rRNA, partial sequence; from TYPE material TAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAGAGCTCAAATTTAAAATCTGGCAGTCTTCTG GTTGTCCGAGTTGTAATCTGGAGAAGTGTTTTCTGTGTTAGACCGTGTACAAGTCTCCTGGAACGGAGCG TCATAGAGGGTGAGAATCCCGTTCACGACACGGACTGCTAATACTTTGTGATACGCTCTCAAAGAGTCGG GTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCGAT AGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGT TGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGTGCAGGACTCAGCCTTGCCTGGGCTTGGTGTACTTTCT GTATAACGGGTCAACATCAGTTTTGGTCCATGGAGAAAGGTAGGGGGAATGTAGCGCTGTTTCGGCTGCG TGTTATAGCCCTCCACTGTATACGTGGGCTGGGATTGAGGAATGCAGCACGCCCTTGTGGCCGGGGGTTC GCCTCACGTACCGTGCTTAGGATGTTGGCAGAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGG AGTCTAACATGCTTGCAAGTGTTTGGGTGGAAAACCCTTGTGCATAATGAAAGTGAAAGTTGGGAACCTC TGCAAGGGGGTGCACCGACGCCCGGCCCTGACGTTCTCTGACGGTGCTGCGGTAGAGCATGTATGTTAGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGA TTCTGACGTGCAAATCGATCGTCAAATTTGGG >gi|913748963|ref|NG_042688.1| Neodevriesia agapanthi CPC 19833 28S rRNA, partial sequence; from TYPE material CGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTG AAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTAGGC AGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCTGGCA CCTTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTT CTAAAGCTAAATACCGGGCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGTACTTTGG AAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTTGTCGGCGGTGTTC CGCCGGTCTTCTGACCGGTTCACTCGCCGTCGGCAGGCCAGCATCATCTGGGGCCGCCGGATAAAGGCTT CGGGAATGTAGCTCCCCTCGGGGAGTGTTATAGCCCTTTGCACAATACGGCGTGTCCCGGGTGAGGTCCG CGTCTCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCGATT ATCTATGCGAGTGTTCGGGCGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACCCTTACCG GTGCACCATCGACCGATCCGGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTAATCGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTA >gi|913748962|ref|NG_042687.1| Toxicocladosporium strelitziae CBS 132535 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCTTCCGGCGTC CGAGTTGTAATTTGTAGAGGATGCTTCTGGGCAGCCACCGGTCTAAGTTCCTTGGAACAGGACGTCATAG AGGGTGAGAATCCCGTATGCGACCGGAGAGGCGCCCTATACGTAGCTCCTTCGACGAGTCGAGTTGTTTG GGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACA AGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGG AAGGGATTGCAACCAGACTTGCTCGCGGTGTTCCGCCGGTCTTCTGACCGGTCTACTCGCCGCGTTGCAG GCCAGCATCGTCTGGGGCCGCCGGATAAGACTTTGGGAATGTAGCTCCCTCGGGAGTGTTATAGCCCTTT GTGATGCGGCGCGTCCCGGGCGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTCGTAATCCGCCC GTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATG AAAGTGAACGGAGGTGGGAACCGCAAGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATCTAGTAGCTGGTTCCTGCCGA >gi|913748961|ref|NG_042686.1| Pilidiella wangiensis CBS 132530 28S rRNA, partial sequence; from TYPE material TTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTTCGGCCCGAGT TGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTG AGAGCCCCGTATGGTTGGATACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATGCT GCTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTC ATGACCAGACTTGTGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCACCCGGTTCAGGCCAGCA TCGGTTTCTGCTGGGGGATAAGAACGGTAGGAACGTGGCCCTCCTTCGGGAGGGTGTTATAGCCTACCGT ACGATACCCTAGCGGAGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGT CTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCGCACGCGTAATGAA AGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGA GTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTG GAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAA CTGTCTAGTAGCTGGTTACCGC >gi|913748959|ref|NG_042685.1| Xenosonderhenia syzygii CPC 19790 28S rRNA, partial sequence; from TYPE material CAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAA TTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGGCAGCGGCCGTTCTAAGTTC CTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGAACGGCGCGCACCCTCCACGTAGCTCCTT CGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGC CAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCA CGTGAAATTGTTGAAAGGGAAGCGCTCACAACCAGACTTCGCAGCGGTGTTCCGCCGGTCCTCTGACCGG TCCACTCGCCGCCGCGAGGCCAACATCATCTGGGGCCGCCGGATAAGACCGTAGGAATGTAGCTCCCCTC GGGGAGTGTTATAGCCTGCGGTGATGCGGCGAGCCTCGGGTGAGGTCCGCACTTCGGTAAGGATGTTGGC GTAATGGTTGTTAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTG TCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAACGCAAGTGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTA TAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC >gi|913748957|ref|NG_042684.1| Myrmecridium banksiae CBS 132536 28S rRNA, partial sequence; from TYPE material AATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAAT TTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGCAGAGGATGCTTTTGGTGCGGTGCCTTCTGAGTTCCC TGGAACGGGACGCCGGAGAGGGTGAGAGCCCCGTACAGTTGGACACCAAGCCTTTGTAAAGCTCCTTCGA CGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTAAATGCCTTCTAAAGCTAAATACCGGCCAG AGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAAAGTACGT GAAATTGTTGAAAGGGAAGGGCTCGTGACCAGACTTGCGCCCGTCGGATCATCCGGCCTTCTGGCCGGTG CACTCCGGCGGGCTCAGGCCAGCATCGGTTCTTCTGGGGGGACAAAAGCGGCGGGAACGTAGCTCCTCCG GGAGTGTTATAGCCCGCCGCAGAATACCCCCGGGGGGACCGAGGACCGCGCTTCGGCAAGGATGCTGGCG TAATGGTCACCAGCCACCCGTCTTGAAACACGGACCAAGGAGTCAAGCATTAGGGCGAGTGTTTGGGTGT CAAACCCGCACGCGAAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTT TTCGGATGGATTTGAGTAAGAGCCTTACCGCTTGGACCCGAAAGATGGTGAACTATGCTTGGATAGGGTG AAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATCTGAGCAT GGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCCGA >gi|913748949|ref|NG_042683.1| Phaeocercospora colophospermi CPC 19812 28S rRNA, partial sequence; from TYPE material AGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCT GGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGCCAGCGGCCGTTCTAAGTTCCTTGGAACAG GACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCGCGCAGCCTTTACGTAGCTCCTTCGACGAGTCG AGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGA TAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTG TTGAAAGGGAAGCGCTTGCAACCAGACTTCGCAGCGATGTTCCGCCGGTCTTCTGACCGGTCTACTCATC GTCGCGAGGCCAACATCGTCTGGGGCCGCCGGATAAGACCTAAGGAATGTAGCTTCCCTCGGGAAGTGTT ATAGCCTGTGGTGATGCGGCGCGTCTCGGGCGAGGTCCGCGCTTCGGCAAGGATGTTGGCGTAATGGTTG TCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCT ACGCGTAATGAAAGTGAACGGAGGTGGGAGGCGCAAGCTGCACCATCGACCGATCCTGATGTCCTCGGAT GGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAG AGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCG AAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGC >gi|913748944|ref|NG_042682.1| Trinosporium guianense CBS 132537 28S rRNA, partial sequence; from TYPE material AACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTCGGGG TCCGAGTTGTAATTTGGAGAGGATGCTTCGGGCGTGGCACCGGTCTAAGTTCCTTGGAACAGGACGTCAC AGAGGGTGAGAATCCCGTATGTGATCGGTCGCCTTCGTCCATGTGAAGCTCCTTCGACGAGTCGAGTTGT TTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCGC ACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAA GGGAAGCGCTTGCAACCAGACTTGCTCGCAGTTGCTCAGCCGGTGTTCTCACCGGTGTACTCTTCTGCGG TCAGGCCAGCATCAGTTTGGGCGACCGGATAAAGGTCGCGGGAATGTGGCTCCTCTCGGGGAGTGTTATA GCCCGCGGCGTAATGCGGCCAGCCTGGACTGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGT AAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATA CGCGTAATGAAAGTGAACGGAGGTGAGAACCCGTACGGGTGCATCATCGACCGATCCTGATGTCTTCGGA TGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGC GAAAGACTAATCGAACCATTAACCAAACGCTCTTTCTTTTGCGAAAGGAAGGCTGCTAGGTGGTTAAGAG GCGGCTCAAAGTGCTCGCCTAGTCCCGCTCCCCGGGGCGACATCGTCAAATTGCGGGGACGTCCTAAAGG CGCTGCTACCAAACGGGTGCGGAAACGCGACCCGTGGCCGGGGTAATGACCTAGGGTATGGTAAAAACGC AGCGCATGAGCGACCCCTTCTGGGGGCCGTGAAATGGATAATCCGCAGCCAAGTCCTACGTCCTCCGCGG AGGATATGGATGCAGTTCACAGACTAGATGGCGATGGGTCCGCCGGCCAGCGCGCCGTGCGGGCTTAAGA TATAGTCGGTCCGCCCAGAGATGGGTCTGACAGGAAGAGGTCGTCGAGGGGTGGGAGGTGCCTGGACGAA GGGCGCGTCTCGACGACGGGAGCCTGTCGGGGGACCTGGGGGTCTTTTGACCTTCGGG >gi|913748939|ref|NG_042681.1| Pseudopenidiella piceae CBS 131453 28S rRNA, partial sequence; from TYPE material TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAA CAGCTCAGATTTGAAATCCGGCTTCGGCCCGAGTTGTAATCTGCAGAGGAATATTCGGCGGAGGTGGCGG TGCAAGTCTCCTGGAACGGAGCGTCAGAGAGGGTGAGAATCCCGTACCTGCCGGCAACCGATGCCATGTG AATATCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAATTCCATCTAAAGCTA AATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGGGT TAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTATCGATCAGCTTCGGCCGCGGTTGCTCAGCCGGTC TTCTGACCGGTGCACTCTTCCGCGGTCCTGCCAGCATCGGTTTGAGCGGACGGACAAAGACCAGGAGAAT GTGGCCTTCTTCGGAAGGTGTTATAGCTTCGGGTAGAATACGTCCAGTTCGGACCGAGGATCGCGCATCT GCTCGGATGCTGGCTTAATGGTCGTTAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTACCAGCTGTG CGAGTGTTAGGGTGTCAAACCCTCATCGCGTAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATC GACCGATCCGGAGGTTCTCCGAAGGATTTGAGTAAGAGCATAGCTGGTGGGACCCGAAAGATGGTGAACT ATGCGTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGAT CGTCAAATTTGCGTATAGGGGCGAAAGACTTATCGAACCATCTAGTAGCTGGTTCCTGCCGA >gi|913748937|ref|NG_042680.1| Chrysocrypta corymbiae CBS 132528 28S rRNA, partial sequence; from TYPE material AGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACA GCTCAAATTTGAAATCTGGCTTCGGCCCGAGTTGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCC GAGTTCCCTGGAACGGGACGCCATAGAGGGTGAGAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAAC TCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATA CCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAA CAGTACGTGAAATTGTTGAAAGGGAAGCACTCGTGACCAGACTCGTGCCGGGCGGCTCATCCGGGGTTCT CCCCGGTGCACTCCGCCCGGTGTAGGCCAGCATCGGTTCTTTCTGGGGGATAAGAGCAGTGGGAATGTGG CCCTCCCTCGGGAGGGTGTTATAGCCCGCTGCATGATACCCTGGAGGGGACCGAGGTTCGCGCTCCGCAA GGATGCTGGCGTAATGGTTACCAGTGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAG CGTTTGGGTGTCAAACCCGCACGCGTAATGAAAGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCG ATCCTGATGTTCTCGGATGGATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCT TGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCA AATATGAGCATGGGGGCGAAAGACTAATCGAA >gi|913748934|ref|NG_042679.1| Coleophoma proteae CBS 132532 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTACCTCAGTAACGGCGAGTGAAGCGGTAACAG CTCAAATTTGAAATCTGGGTCTTTCAGGCCCCGAGTTGTAATTTGTAGAAGATGCTTCGGGTGCGGCTCC GGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGATCGGTTGCCTGCGCCCG TGTGAAGCTCTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAA GCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGCGCGTTGCTGATCATCC GGGGTTCTCCCCGGTGCACTCGGCCTCGCTCAGGCCAGCATCGGTTCTGGTGGTGGGATAAAGGCCTTGG GAATGTAGCTCCCCTCGGGGAGTGTTATAGCCCTCGGTGCAATGCCGCCTACCGGGACCGAGGACCGCGC TTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATC TATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATGAAAGTGAACGGAGGTGAGAACCCTTAAGGGTG CATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATG GTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCA AATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT >gi|913748931|ref|NG_042678.1| Phyllosticta ericarum CBS 132534 28S rRNA, partial sequence; from TYPE material ACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGG CAATAGCTCAAATTTGAAAGCTGGCGCCTTCGGCGTCCGCGTTGTAATTTGTAGAGGATGCTTCGGCGAG GACTCCTGCCTAAGTTCCCTGGAATGGGACGTCACAGAGGGTGAGAATCCCGTATGTGGCGGGCGGTCCA AGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTT CTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGG AAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTCGCTCGCAGTTGCT CAGCCCGCCTCTTGGTGGGTGTACTCTTCTGCGATCGGGCCAGCATCAGTTCGGGCGGCCGGATAAAGGT GTCGGGAATGTAGCACCCTTCGGGGTGTGTTATAGCCCGGCGCGGAATGCGGCCAGCCTGGACTGAGGAT CTCGCTTCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTA ACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAA GGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAA >gi|913748929|ref|NG_042677.1| Diaporthe canthii CBS 132533 28S rRNA, partial sequence; from TYPE material AATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAAT TTGAAATCTGGCCTCGGCCCGAGTTGTAATTTGCAGAGGATGCTTCTGGCGCGGTGCCTTCCGAGTTCCC TGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTATGGTCGGACACCAAGCCTGTGTGAAGCTCCTTCGA CGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAG AGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAATAGTACGT GAAATTGTTGAAAGGGAAGCACTTATGACCAGACTTGGGCCGGGCGGCTCATCAGGGGTTCTCCCCTGTG CACTCCGCCCGGCACAGGCCAGCATCGGTTCTCGTGGGGGGATAAGACCGACAGGAACGTAGCACCCTCC GGGGTGTGTTATAGCCTGGCGGACGATACCCCCGTGGGGACCGAGGTCCGCGCTCCGCAAGGATGCTGGC GTAATGGTCATCAGTGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTG TAAAACCCGCACGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGT TCTCGGAAGGATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGAGCA TGGGGGCGAAAGACTAATCGAACTGTCTAGTAGCTGG >gi|913748926|ref|NG_042676.1| Montagnula aloes CBS 132531 28S rRNA, partial sequence; from TYPE material ATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATT TGAAATCTGGCCCCCTCTGGGGGTCCGAGTTGTAATTTGCAGAGGGTGCTTTGGCATGGGCGGCGGTCTA AGTTCCTTGGAACAGGACATCGCAGAGGGTGAGAATCCCGTATGTGGGCGCCTGCCTTTGCCGTGTAAAG CCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAAT ACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGTACTTTGGAAAGAGAGTCAA ATAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACGTGCCCGCAGTTGCTCACCCCGGCTCT TGCCTGGGGCACTCTTCTGCGGGCAGGCCAGCATCAGTTTGGGCGGTCGGATAAAGGCCTCTGTCAAGTA TCTTCCTCCGGGATGACCTTATAGGGGAGGCGCAATGCGGCCAGCCCGGACTGAGGTCCGCGCATTTTTG CTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGC GAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCTTCGGGGTGCACCA TCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAA CTATGCTTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCG ATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAA >gi|913748925|ref|NG_042675.1| Diaporthe eucalyptorum CBS 132525 28S rRNA, partial sequence; from TYPE material TTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCTCGGCCCGAGT TGTAATTTGCAGAGGATGCTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTG AGAGCCCCGTATGGTCGGACACCAAGCCTGTGTGAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCT GCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAATAGTACGTGAAATTGTTGAAAGGGAAGCACTT GTGACCAGACTTGGGCCGGGCGGCTCATCAGGGGTTCTCCCCTGTGCACTCCGCCCGGCACAGGCCAGCA TCGGTTCTCGTGGGGGGATAAGACCGTCAGGAACGTAGCACCCTCCGGGGTGTGTTATAGCCTGGCGGAC GATACCCCCGTGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCACCAGTGACCCGTCT TGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCGCACGCGTAATGAAAG TGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGAAGGATTTGAGTAAGAGT TTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAACT GTCTAGTAGCTGGTTACCGCCG >gi|913748922|ref|NG_042674.1| Pseudoplagiostoma corymbiae CBS 132529 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTTCGGCCCGAGT TGTAATTTGCAGAGGATGCTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCATAGAGGGTG AGAGCCCCGTATGGATGGACACCAAGCCTGTGTGAAGCTCCTTCAACGAGTCGAGTAGTTTGGGAATGCT GCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAATAGTACGTGAAATTGTTGAAAGGGAAGCGCTT GTGACCAGACTTGCGCCAGGCGGCTCATCCGGGGTTCTCCCCGGTGCACTCCGCCTGGCTCAGGCCAGCA TCGGTTCTTGTGGGGGGACAAGAGCAGTGGGAACGTAGCTCCCTACGGGGAGTGTTATAGCCCACTGTAC GATACCCTCGCGGGGACCGAGGACCGCGCTTCGGCAAGGATGCTGGCGTAATGGTCACCAGCGACCCGTC TTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTCAAACCCGCACGCGTAATGAAA GTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGAYGGATTTGAGTAAGAG TTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGG AGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAAC TGTCTAGTAGCTGGTTACCGCCGAA >gi|913748919|ref|NG_042673.1| Diaporthe passiflorae CBS 132527 28S rRNA, partial sequence; from TYPE material TTTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTTCGGCCCGAGT TGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCAAAGAGGGTG AGAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATGCT GCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAATAGTACGTGAAATTGTTGAAAGGGAAGCACTT ATGACCAGACTTGGGCCGGGCAGCTCATCAGGGGTTCTCCCCTGTGCACTCTGCCCGGCACAGGCCAGCA TCGGTTTTCGCGGGGGGATAAGACCGTCAGGAACGTAGCACCCTCCGGGGTGTGTTATAGCCTGGCGGAC GATACCCTCGCGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGTGACCCGTCT TGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCGCACGCGTAATGAAAG TGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGAAGGATTTGAGTAAGAGT TTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGAGCATGGGGGCGAAAGACTAATCGAACT GTCTAGTAGCTGGTTACCGCC >gi|913748916|ref|NG_042672.1| Gnomoniopsis smithogilvyi CBS 130190 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCA ACAGCTCAAATTTGAAATCTGGCTTCGGCCCGAGTTGTAATTTGCAGAGGATGTTTATGGTGCGGTACCT TCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTCTGGTTGGATACCAAACCTGTGTTA AACTCCTTCAACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAA ATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTT AAACAGTACGTGAAATTGTTAAAAGGGAAGCGTTTATGACCAGACTTGTGTCGTGTGGCTCATCCGAGGT TCTCCCCGGTGCACTCCACACGGCTCAGGCCAACATCGGTTCTCGTTGGGGGATAAGAACAGTAGGAACG TGGCCCTCTTCGGAGGGTGTTATAGCCTGCTGTACGATACCCTGATGGGGACCGAGGACCGCGCTTCGGC TAGGATGTTGGCGTAATGGTCATTAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCG AGCGTTTGGGTGTAAAACCCGCACGCGTAATGAAAGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGAC CGATCCTGAAGTTTACGGATGGATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATG CTTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGT CAAATTTGAGCATGGGGGCGAAAGACTAATCGAACTGTCTAGTAGCTGGTTACCGCCGAAGT >gi|913748914|ref|NG_042671.1| Anthracocystis andrewmitchellii BRIP 54879 28S rRNA, partial sequence; from TYPE material ACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGAGGGAAGAGCCCAAGATTGAAAGCTGGCGTCTTTG GCGTCCGCATTGTAATCTCAAGAAGTGTTTTCCGCTTCGGACCATGCCTAAGTCCCTTGGAAAAGGGCAT CATAGAGGGTGATAATCCCGTACATGGCATGGAGCGCCCGAGGCTTTGTGATACGCTTTCTAAGAGTCGA GTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATGCCATCTAAGGCTAAATATTGGGGAGAGACCGAT AGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGC CAAAAGGGAAGGGTAGGAGGTCAGAGATGCGTCTTGGGATTCAGCCTTGCTTCTGCTGGGTGTTTTTCCC AAGTTTGCAGGCCAACGTCGGTTTTGGGCACTGGAGAAGGGTGGAAGGAACGTGGCACCTCTCGAGGTGT GTTATAGCCTTCCACTGGATACAGCGACCGAGACCGAGGACAGCAGCGTACTCGCAAGAGCGGGCCTTCG GGCACCTTTACGCTTAGGGCGTTGGCATAATGGCCCTCTACCACCCGTCTTGAAACACGGACCAAGGAGT CTAACATGTATGCGAGTCTTTGGGTGGCAAACCCATAGGCGCAATGAAAGTGAATTCAGGTGGGATCCGC AAGGTGCACCATCGACCGATCCTCACGTCTTTCAAGTCGTGGATTTGAGTAAGAGCATACCTGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTT CTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATTAGAAATTGCGT AAAAACATTTCTACTGCGTCTCAAACGTATGTGGGCGTTTTTTGAATGCGGTAGAGTGTGGATACATTGC TAGGTGGTTAAGAGGTGGCTAAAAGGGCACACCTAGTGGGCGCTGAAGCTCGCGACACTGTCAAAATGCG GGGACACCCTAAAGCTTTCAATACCAAGCCGGCGTGGAAACACAGTCGGTGGCCGAGTTAACAACCCTGG GTATGGTAAAAACTTGAAAGATGCAACAATGGGCAATCCGCAGCCAAGCTCTAAGGGTGTATCAAAACGC CTATGAGTGCAGTTCACAGACTAGATGGCAGTGGGTTTCGTCTTCGGATGAGGCTTAAGATATAGTCGGT CCTCTCTCGAAAGGGAGCCGGAGGATAAAAGATCGAGGTTCTTCAGCAACAGACCTCTTTCCGGAGCCTC TGGGAATTGATTTTTCGCAAGGAAAATCGATTTTGGGTGCTACGCTAGTAGCTGGTTCCTGCCGAAGTTT CCCTCAGGATAGCAGAAACTCACATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGAAGTA ACTTCCTTAACCTATTCTCAAACTTTAAATGTGTAAGAAGCCCTGTTACTTTAAGTGAACGAGGCATG >gi|913748912|ref|NG_042670.1| Entoloma tenuissimum GDGM 28814 28S rRNA, partial sequence; from TYPE material CAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGATGAGCTCAAA TTTAAAATCTGGCAGTTTTCAACTGTCCGAGTTGTAATCTAGAGAAGCGTTATCCGTGCTGGACCATGTA CAAGTCTCCTGGAACGGAGCGTCACAGAGGGTGATAATCCCGTATCTGACATGGACTGCCAGTGCTTTGT GATGTGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAG TTAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCACATTGGTCAGAGATCAATCTTG CTTTCTAGCTTGATGTATTTTCTGATTCAATGGGTCAGCATCAATTTTGACTGATGGAAAAAGGCTGAAT GAATGTAGCATCTTTATAGATGTGTTATAGCTTTTAGTCATATACATTGGTTGAGATTGAGGGATTCAGC ACGCCGTAAGGCTGGATTTTTTTCACATTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTC TTGAAACACGGACCAAGGAGTCTAACATACCTGCGAGTGTTTGAGTGGAAAACTCGAGCGCGTAATGAAA GTGAAAGTTGGGATCTCTGTCATGGAGAGCACTGACACCCAGACCAGACCTTCTGTGACGGCTCTGCGGT AGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTCC >gi|913748910|ref|NG_042669.1| Entoloma furfuraceum GDGM 28818 28S rRNA, partial sequence; from TYPE material ACACAACAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTTAGTAACTGCGAGTGAAGCGGGAAAA GCTCAAATTTAAAATCTGGCAGTTTTCAATTGTCCGAATTGTAATCTAGAGAAGTGTTATCCGTGCTGGA CCGTGTACAAGTCTTCTGGAACGGAGCGTCGCAGAGGGTGATAATCCCGTATCTGACACGGACTACCAGT GCTTTGTGATGCGCTCTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATC TAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGA AAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCACATTGGTCAGAGATC AATCTTGCTACATTCAGCCTGATGTATTTTCTGATTTTAATGGGTCAGCATCAATTTTGACCGATAGAAA AAGGTTGAAAGAAAGTGACATCTTTTAGATGTGTTATAGCTTTCAATTGCATATGTTGGTTGAGATTGAG GAATTCAGCATGCCGCAAGGCCGGATTTCGATCACGTTCATGCTTAGGATGCTGGCATAATGGCTTTAAT CGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACTCGAACGC GCAATGAAAGTGAAAGTTGGGATCTCTGTCATGGAGAGCACCGATGCCCAGACCAGACCTTCTGTGACGG TTCTGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAG GAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAA AGACTAATCGAACCATCTAGTAGCTGGTTCTGCGGGT >gi|913748908|ref|NG_042668.1| Phylloporus rubrosquamosus HKAS 54559 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTCGAATCTGGCGGTCTTCGTGGCCGTCCGAG TTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGGGAGCGTCATAGAGGG TGAGAATCCCGTCTTTGACACGGACCCCCAGTGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGGG AATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAG TACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAA ACGCTTGATGTCAGTCGCGTCCGCCAGGGATCAACCTTGCTTTATCGCTGGGTGCATTTCTTGGTCGGAC GGGTCAGCATCAGTTTCGATCGTCGTAGAATGGCCAAGGGAACGTGGCACCTCCAGGGGTGTGTTATAGC CTTTGGTCGTATGCGTCGGTAGGGACTGAGGAACTCGGCACGATCCCTTCGGGGGTTTGTGTCTAGGATG CTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTT GGGTGGAAAACTCGAGCGCGCAATGAAAGTGAAAGTCGAGATCTCTGTCATGGAGAGCATCGACGCCCGG ACCAGAGTCTTTGACGAAGGATCTGCGGTAGAGCATGCATGTTGGGACCCGAAAGATGGTGAACTATGCC TGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCG AATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGG ATAGCAGAAACTCATGTTGATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAA CCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTGACTTTGGACCGCTCGGCGATT GAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTAAG GTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCAT GGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGG CGCTCAAGCGTGTTACCCACACCTCCCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGA GGTCGTGAAGAAGC >gi|913748906|ref|NG_042667.1| Phylloporus rubeolus HKAS 52573 28S rRNA, partial sequence; from TYPE material TCCCCTAGTAACTGCGAGTGAAGAGGGAAAAGCTCAAATTTTGAATCTGGCGGTCTTCGTGGCCGTCCGA GTTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGGGAGCGTCATAGAGG GTGAGAATCCCGTCTTTGACACGGACCCCCAGTGCTATGTGATGCGCTCTCGAAGAGTCGAGTTGTTTGG GAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAA GTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGA AACGCTTGATGTCAGTCGCGTCGGCCAGGGATCAACCTCGCTTCATCGCTTGGTGCATTTCTTGGTCGGA CGGGTCAGCGTCAGTTTCGATCGTCGTACAATGGCAGAGGGAACGTGGCACCTCCAGGGGTGTGTTATAG CCCTCGGTCGTATGCGTCGGTGGGGACTGAGGAACTCGGCACGACCTTCGCTGGTCTGTGTCTAGGATGC TGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTG GGTGTAAAACTCCGAGCGCGCAATGAAAGTGAAAGTCGAGATCTCTGTCATGGAGAGCATCGACGCCCGG ACCCGAGTCTTCGACGAAGGATCTGCGGTAGAGCATGCATGTTGGGACCCGAAAGATGGTGAACTATGCC TGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCG AATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGG ATAGCAGAAACTCATTGTTGATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACA ACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTGAATCTTGGACCGCTCGGCGA TTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTA AGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCC ATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGAT GGCGCTCAAGCGTGTTACCCACACCTCCCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTG GAGGTCGTGAAGAAGC >gi|913748905|ref|NG_042666.1| Phylloporus pachycystidiatus HKAS 54540 28S rRNA, partial sequence; from TYPE material GGAAAAGCTCAAATTTTGAATCTGGCGGTCTTCATGGCTGTCCGAGTTGTAATCTAGAGAAGCGTCTTCC GCGCTGGACCGTGTACAAGTCTCCTGGAAGGGAGCGTCATGGAGGGTGAGAATCCCGTCTCTGACACGGA CTGCCAGTGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAA ATTCCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGA ACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGATGTCAGTCACGTCCGC CAGGGATCAACCTTGCTTATCGTTGGGTGCATTTCTTGGTTGGATGGGTCAGCATCAGTTTCGATCGTTG TAAAATGGTCAAGGGAACGTGGCACCTCTAGGGGTGTGTTATAGCCTTTGGTCGTATGCATCGGTGGGGA CTGAGGAACTCGGCACGACCTTCATGGTTTTGTGTCTAGGATGCTGGCATAATGGCCTTAAGCGACCCGT CTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACTCGAGCGCGCAATGAA AGTGAAAGTCGAGATCTCTGTCATGGAGAGCATCGACGCCCGGACCAAAGTCTTTGACGAAGGATCTGCG GTAGAGCATGCATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGTGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATGTTGATCAGATT TATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATA TGTAAGAACGAGCCGTCTCTTGACTTTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGT AAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTAAGGTGCCGGAATACACGCTCATCAGACAC CACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTG TAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCACACCTCCC CGTCAGCGTTGAAGTGAAGCGCTGACGAGTAGGCAGGCG >gi|913748903|ref|NG_042665.1| Phylloporus maculatus HKAS 56683 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGTGGTCTTCTTGACCGTCCGAG TTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGGGAGCATCATAGAGGG TGAGAATCCCGTCTTTGACACGGACCCCCAGTGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGGG AATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAG TACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAA ACGCTTGATGTCAGTCGCGTCCGCCAGGGATCAACCTTGCTTCATCGCTTGGCGCATTTCTTGGTCGGAC GGGTCAGCATCAGTTTCGATCGTCGTAGAATGGTCAAGGGAACGTGGCACCTCCAGGGGTGTGTTATAGC CTTTGGTCGTATGCGTCGGTAGGGATTGAGGAACTCGACACGGCCCCTTCGAGGGCTTGTGTCTAGGATG CTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTT GGGTGGAAAACTCGAGCGCGAAATGAAAGTGAAAGTCGAGATCTCTGTCATGGAGAGCATCGACGCCCGG ACCAGAGTCTTTCGACGAAGGATCTGCGGTAGAGCATGCATGTTGGGACCCGAAAGATGGTGAACTATGC CTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTC GAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAG GATAGCAGAAACTCAACCTTGATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAAC AACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTGACTTTGGACCGCTCGGCGA TTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTA AGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCC ATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGAT GGCGCTCAAGCGTGTTACCCACACCTCCCCGTCGGCGTTGAAGTGACGCGCCGACGAGTAGGCAGGCGTG GAGGTCGTGAAGAA >gi|913748902|ref|NG_042664.1| Phylloporus brunneiceps HKAS 56903 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCGGTCGTTGAGGCCGTCCGAG TTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGGGAGCGTCATAGAGGG TGAGAATCCCGTCTTTGACACGGACCGCCAGTGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGTG AATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATGGGCGAGAGACCGATAGCGAACAAG TACCGTGAGGGAAAGACGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAA ACGCTTGATGTCAGTCGCGTTCGCCAGGGATCAACCTAGCTTCATCGCTCGGTGCATTTCTTGGTGGAAC GGGTCAGCGTCAGTTTCGATCGAGGTATAATGGCAAAGGTAATGTGGCACCCCTAGGGGTGTGTTATAGA CCTTGGTCGTATGCTTGGGTGGGGACTGAGGAACTCGACACGGACTTTCGCTAGTCTTGTGTCTAGGATG CTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTC GAGTGAAGAAACTCGTGCGCGGAACGAAAGTGAAAGTCGAGATCTCTGTCATGGAGAGCATCGACGCCCG GACCAGAGTCTATTGACGAAGGATCTGCGGTAGAGCATGCATGTTGGGACCCGAAAGATGGTGAACTATG CCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGT CGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCA GGATAGCAGAAACTCGTAGATCAGATTTATGTGGTAAAGCGAATGATTAGAGGACTTGGGGTTGAAACAA CCTTGACCTATTCTCAAACTTTAAATATGTAAGAACGGGCTGTCTCTTGGGTGGACAGTCCGGCGATTGA GAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTAAGGT GCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGG AAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCG CTTAAGCGTGTTACCCACACCTCCCCGTCAGCGTTGAAGTGAGGCGCTGACGAGTAGGCAGGCGTGGAGG TCGGTGAAGAAGCCTGGCAGCGA >gi|913748901|ref|NG_042663.1| Borofutus dhakanus HKAS 73785 28S rRNA, partial sequence; from TYPE material GCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGATGAGCTCAAATTTCGA ATCTGGCGGTCCCTCGAGACCGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGCCCGTGTACAA GTCTCCTGGAAAGGAGCGTCATAGAGGGTGACAATCCCGTCTCTGACACGGACTACCAGGGCTTATGTGA TGCGCTCTCCACGAGTCGAGTTGTTTGGGAATGCAGCTCAAATCGGGTGGTAAATTCCATCTAAAGCTAA ATACAGGCGAGAGACCGATAGCGTACAAGTACCGTGAGGGAAAGACGAAAAGAACTTTGAAAAGAGAGTT AAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGATGTCCAGTCGCGTTCGTCGGGGATCAACCTTGC TGATCTTAAGCTTGGTGCACTTTCCGCTCGGACGGGTCAGCATCAGTTTCGATCGACGTACAAAAGCAGG GGGAACGTGGCACTCTATCCAGAGTGTGTTATAGCCCTTTGTCGCATGCGCCGATGGGGACTGAGGAACT CAGCACGACCCTCGTCGGTCTTGTGCATGGGATGCTGGCATAATGGCATTCAGCGACCCGTCTTGAAACA CGGACCAAGGAGTCTAACATGCATGCGAGTGTTCGGGTGCAAAACCCAGAGCGCGCAATGAAAGTGAAAG TCGAGATCTCTCTTCTAGGAGTGCACCGACGCCCGGACCAGAGTCTTTTCGACGACGGATCCTGCGGTAG AGCATGTACGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGT GGAAGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTG >gi|913748900|ref|NG_042662.1| Tuber multimaculatum OSC 62169 28S rRNA, partial sequence; from TYPE material AAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTG AAATCTGGTACCTGTGGTACCCGAATTGTAATTTGGAGAGGCATCTTCTGGAGTGGCCCAGCCTATGTTC CTTGGAACAGGACATCATAGAGGGTGAGAATCCCGTTCTTGGCTGGATGTTACCTCCTGTATGTAGTGTC TTCTATGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATTGGTGGTAAATTTCATCTAAAGCTAAATATTG GCGAGAGACCGATAGCGTACAAGTAGAGTGATCGAAAGATGAAAAGTACTTTGAAAATAGAGTCAAACAG TACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCAGACACAGCCTTTGGCAAACAACTGTCCTTTGGGG TAGTGCACTTGTCCTTGGCTGGGCCAGCATCAGTTGTGGCGGTAGGATAAAGACCTGGGGAATGTGACTC CATTTAGGAGTGTTATAGCCCCTGGTATCATGCTGCCTGCCACGACTGTGGACCGCGCTTTGGCTAGGAT GCTGGCATAATGGTCTTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCAAGTGTT TGGGCTCTAAACCCTTACGCGTAATGAAAGTGAACGGAGGTGGGAACCCTGAGAGGGGTGCACTATCGAC CGATCCTGAAGTTTACGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATG CCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGT CAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTC >gi|913748899|ref|NG_042661.1| Tuber anniae OSC 58992 28S rRNA, partial sequence; from TYPE material AGCGGAGGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGAGAGTGAAGCGGCAAAAGCTCAAATTTG AAATCTAACACCTCTGGTGTTTCGAGTTGTACTTTGGAGAGACATCTTCTGGAGGGGCCCAGCCTATGTG CCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCCTTGGCTGGATGTTCCCTCCTGTATGTAGTGT CTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATT GGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAATAGAGTCAAACA GTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGATCAGAGTCGGCCTTTGGCAAACAACTGTCCCTTCTG GGTGGTGCACTTGTCATTGGCTGGGCCAGCATCGGTTGGGACGGCAGGATAAAGGCCTGGGGAATGTGAC TCCTCTATGGAGTGTTATAGCCCCAGGCGGCATGCTGTCAGCCCCGACCGTGGACCGCGCCTTGGCTCGG ATGCTGGCTTAATGGTCTTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCAAGTG TTTGGGCTCTAAACCCTCACGCGTAATGAAAGTAAACGGAGGTGGGAACCCTGAGAGGGGCGCACCATCG ACCGATCCTGATGTCTTCGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTA TGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATC GTCAAATTTGGGTATAGGGGCGAAAAGACTAATCGAACCATCTA >gi|913748895|ref|NG_042660.1| Craterellus atratoides BRG TH9232 28S rRNA, partial sequence; from TYPE material ACATAGCGGAGGAAAAGAAACTAACAAGGATTCCCTCAGTAACGGCGAGTGAAGAGGGAAGAGCTCAGTT TTGAAATCTGGCAGTGCTTTTACTGTCCGAGTTGTAAATTGAAGAGAATGTCATCCACGCTGGACCACGT CTAAATTGTAATGATCCACAGTCCTTTGATGGAGTATCAGAGAGGGTAATAATCCCGTCTTTAATGTGGA CTACCAGTGTTTTATGTGATGCACTCTCTCAGAGTCGAGTAGTTTGGGAATGCTGCTCTAATGGGAGGTA AACTCCTTCTAAAGCTAAATATTGGCGAGAGACCGATAGTGAACAAGTACCGTGAGGGAAAGATGAAAAG AACTCTGAAAAGAGAGTCAAACAGAACGTGAAATTGCTGAAAGGGAAGCATTTGGAGTCAGATGCGTCTT CATTGTCATAACCACCTCAGTGGCAGAGGCTGAGTGTTGGTTACTTGAGGACGGGCCAGCACTCACGTAG GCCATTGGAAAAGGGGTCATGGAATGTAGCTCAAGTTTGTTGAGTGATTATAGCCTTGATTCATATACAA TGTGTCCTTTATGTGTGATTGAACAGCACGGGTCTTTGACTTGGTGCTTGATTGACTGGCATAATGGCTC CAAGTGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGTATGCAAGTATTAGAGTGATTGAAACTC TGAATGCACAATGAAAGTGGTCTTGACTGAGAATCCCTGTTGGGGGAGGCATCAGTACCCCGAGTCTGTT AGTCTTTGACTGAAGATTTGGAGGTAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAA TAGGGTGAAGTCAGAGGAAACTCTGATGGAGGCCCGTAGCGATTCTGACGTGCAAATCGATCGTAAAATT TGGGTATAGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGT >gi|913748893|ref|NG_042659.1| Cryomyces antarcticus ATCC MYA-4880 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCT CAAATTTGAAATCTGGCCCTCTCGGGGTCCGAGTTGTGATTTGTAGAGGATGCTTCGGGGTCAGCTCCGG TCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTACGTGACCGGTTGCGCTCCCCATGT GAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCT AAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAG TTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGCCCGCAGTTGCTCAACCTGT CTTCTGACCGGTGCACTCTTCTGCGGTCAGGCCAGCATCAGTTTGGGCGGCTGGATAAAGGCCCTGGGAA CGTGGCTCCCCTCGGGGAGTGTTATAGCCCAGGGTGGAATGCAGCCCGCCCGGACTGAGGACCGCGCTTC GGCTAGGATGCTGGCGTAATGGTTGTAAGCGA >gi|913748891|ref|NG_042658.1| Candida takata ATCC MYA-4702 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCACCCTCGGTGCCCGAGTTGTAATTTGAAGATAGTTTTCTGGCACTGGCCCTTG TCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTCTGGCGGGGAGTCCAGTGCTTTGTA GATTTCTATCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTA AATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGT GAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTCGATCAGACTTGGTGTTTTGTGATTATCTTCCC TTCTTGGGTTGTGCACTCGCATTTCACTGGGCCAGCATCGGTTCGGGTGGCAAGATAATGACATTGGAAC GTGGCACCTTCTTCGGATGGTGTGTTATAGCCCTTGTTGATGTTGCCTGCCTGGACCGAGGACTGCGGCT TCTGCCTAGGATGCTGGCGTAATGATCCAATACCG >gi|913748890|ref|NG_042657.1| Immersiporthe knoxdaviesiana CMW 37314 28S rRNA, partial sequence; from TYPE material CCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTTCGGCCCGAGTTGTAATTTG CAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCG TATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAAT GGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAG ATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGTGACCAGA CTTGCGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCGGTTCAGGCCAGCATCGGTTCTC GTTGGGGGATAAGAACGGCAGGAACGTGGCCCTCCTTCGGGTGGGTGTTATAGCCTGCCGTACGATACCC TGACGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTCTTGAAACA CGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTCAAACCCGCACGCGTAATGAAAGTGAAATT AGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGTTTTAACG GACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAACTGTCTAGT AGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTCAGTTTTATGAGGTAAAGCGAATG ATTAGGGACTCGGGGGCGCTTTTTAGCCTTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTT ACTTTGTTGAACGTGGGCATTCGAATGTATCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGAT GCGGGATGAACCGAACGCGGGGTTAAGGCGCCAGAGTGTACGCTCATCAGACACCACAAAAGGCGTTAGT ACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGACTGTGTAACAACTCACCTGCC GAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACCGCCCATACCCCGCCCTCAGGGTAGAAACG ATGCCCTGAGGAGTAGGCGGCCGTGGAGGTCAGTGACGAAGCCTA >gi|913748888|ref|NG_042656.1| Knoxdaviesia wingfieldii CBS 132470 28S rRNA, partial sequence; from TYPE material ACCAACAGGGATTGCCCTAGTAACGGCGAGCGAAGCGGCAACAGCTCAAATTTGAAATCTGGTCTTCTGG GCCCGAGTTGTAATTTGCAGAGGATGCTTCTGGCAAGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCAT AGAGGGTGAGAGCCCCGTACGGTTGGACACCGAGCCGTTGTGTAGCTCCTTCAACGAGTCGAGTAGTTTG GGAATGCTGCTCTAAATGGGAGGTATATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACA AGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGCACGTGAAATTGTTGAAAGGG AAGCGCTTGTGACCAGACTTGTGCCCGGTGAATTAGCTGGTGTTCTCACCAGTCGACTTTGCCGGCTCAG GCCAGCATCGGTTTGTTATTGGGGAGAAAAACGATGGGAATGTGGCTCCTTCGGGAGTGTTATAGCCCGC CGTATAATACCCTTTGGCAGACCGAGGACCGCGCATCTGCATGGATGCTGGCGTAATGGTCACCAGCGAC CCGTCTTGAAACACGGACCAAGGAGTCAACCTTATGTGCAAGTGTTTGGGTGTTAAACCCCTACGCGGAA TTAACGTGAACGTAGGTGAGAGCCTTCGGGCGCATCATCGACCGATTCTGATGTTCTCGGATGGATTTGA GTAAGAGCACACAGGGTTGGACCCGAAAGAAGGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGGCGAAAGACT AATCGAACCTTCTAGTAGCTGGTTCCAGCCGAAGTTTCCCTCAGGATAGCAGTGTTGATCTCTCAGTTTT ATGAGGTAAAGCGAATGATTAGGGACTCGGGGGGCGCTATTTAGCCTTCATCCATTCTCAAACTTTAAAT ATGTAAGAAGCCCCTTGTTAC >gi|913748886|ref|NG_042655.1| Candida theae ATCC MYA-4746 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCACTTTCAGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGTCTGGCTCTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGACCCAGACCTATG TAAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGCATGTTACTCT CTCGGGGGTGGCCGCTGCAGTTTACCGGGCCAGCATCAGTTTGGGCGGTAGGATAATTGCAGAGAAATGT GGCACTGCCTCGGTAGTGTGTTATAGTCTTTGTCGATACTGCCAGCCTAGACTGAGGACTGCGGCTTCGG CCTAGGATGTTGGCATAATGATCTTAAGTCG >gi|913748885|ref|NG_042654.1| Candida hungchunana ATCC MYA-4701 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGGTAGTTTTCTGGTGCTGGTCCTTG TCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCTGATGGGGAATCCAGTGCTTTGTA GATTTCTACCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTA AATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGT GAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTAGATCAGACTTGGTGTTTTGTGATTATCTTCCC TTCTTGGGTTGTGCACTCGCATTTCACTGGGCCAGCATCGGTTTGGATGGCAAGATAATGGCGAAGGAAC GTGGCACTCCTCGGAGTGTGTTATAGCCTTTGTTGATGTTGCCTATCTAGACCGAGGACTGCGGCTTCTG CCTAGGATGCTGGCGTAATGATCTAATACCG >gi|913748884|ref|NG_042653.1| Candida taoyuanica ATCC MYA-4700 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACCTTTGGTGCCCGAGTTGTAATTTGAAGGTAGTTTTCTGGTGCTGGTCCTTG TCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCTGATGGGGAATCCAGTGCTTTGTA GATTTCTACCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTA AATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGT GAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTGGATCAGACTTGGTGTTTTGTGATTATCTTCCC TTCTTGGGTTGTGCACTCGCATTTCACTGGGCCAGCATCGGTTCGGGTGGCAAGATAATGGCTTGGGAAC GTGGCACTCTTCGGAGTGTGTTATAGCCCTTGTTGATGTTGCCTACCTGGACCGAGGACTGCGGCTTCTG CCTAGGATGCTGGCGTAATGATTCAATACCG >gi|913748883|ref|NG_042652.1| Megasporia hengduanensis BJFC Cui 8076 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTTTTGCCGTCCGAGTTGT AGTCTGGAGAAGTGCTTTCCGCGCTGGACCGTGTACAAGTCTCTTGGAACAGAGCGTCATAGAGGGTGAG AATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAATG CAGCTCAAAATGGGTGGTGAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACC GTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGC TTGAAGTCAGTCGCGTCGTCCGGAACTCAACCTTGCTTGCTTGGTGCATTTTCCGGATGACGGGCCAGCA TCGATTTTGACCGTCGGATAAGGGCTAGAGTAATGTGGCACCTCCGGGTGTGTTATAGACTCTGGTCTTA CGACGGTTGGGATCGAGGAACGCAGCGCGCCGTAAGGCAGGGGTTCGCCCACTTTCGCGCTTAGGATGCT GGCATAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATACCTGCGAGTGTTTGG GTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCCCTGTCGTGGGGGGCATCGACGCCCGGAC CAGACGTTCTCTGACGGCTCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGA ATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAAT TTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATA GCAGAAACTCATGTCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAAC CTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCGCTTGATTGGACCGCTCGGCGATTGAGAGTTTC TAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGATCGCGAGGTTAAGGTGCCGGAA TACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGG AATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGC GTGTTACCCATACCTCGCCGTCAGCGTTGAAGTGACGCGTTGACGAGTAGGCAGGCGTGGAGGTCAGTGA AGAAGCCTAGGCAG >gi|913748882|ref|NG_042651.1| Megasporia guangdongensis BJFC Cui 9130 28S rRNA, partial sequence; from TYPE material CCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTTTTGCCGTCCGAGTTGTA GTCTGGAGAAGTGCTTTCCGCGCTGGACCGTGTACAAGTCTCTTGGAACAGAGCGTCATAGAGGGTGAGA ATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAATGC AGCTCAAAATGGGTGGTGAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCG TGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCT TGAAGTCAGTCGCGTCGTCCGGAACTCAACCTTGCTTGCTTGGTGCACTTTCTGGATGACGGGCCAGCAT CGATTTTGACCGTCGGAAAAGGGCTAGAGTAATGTGGCACCTCCGGGTGTGTTATAGACTCTGGTCTTAC GACGGTTGGGATCGAGGAACGCAGCGCGCCGTAAGGCAGGGGTTCGCCCACTTTCGCGCTTAGGATGCTG GCATAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATACCTGCGAGTGTTTGGG TGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCCCTGTCGTGGGGGGCATCGACGCCCGGACC AGACGTTCTCTGACGGCTCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAA TAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATT TGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAG CAGAAACTCATGTCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACC TATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCGCTTGATTGGACCGCTCGGCGATTGAGAGTTTCT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGATCGCGAGGTTAAGGTGCCGGAAT ACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGA ATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCG TGTTACCCATACCTCGCCGTCAGCGTTGAAGTGACGCGTTGACGAGTAGGCAGGCGTGGAGGTCAGGAAG AAGCCTAGGCAG >gi|913748880|ref|NG_042650.1| Meliola centellae VIC 31244 28S rRNA, partial sequence; from TYPE material GTTGTAATCTGGTAGAGGAGTCGCTGGCCGACAACTGCTCCCAAGTTCTCTGGAATGGGACGCCATAGAG GGTGAGAGCCCCGTGGGGTGTGGTTGAGACGGTCTTGATGCGACTCCTTCGGCGAGTCGAGTAGTTTGGG AATGCTGCTCTAAATGGGAGGTAAATTCCTTCTAAGGCTAAATATCGGCCGGAGACCGATAGCGCACAAG TAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTGAAACAGTACGTGAAATTGTTGAAAGGGAA GCGCCCGCGACTAGACTTGCACCTGATCGATCGCTTTGTGTTATCCACAAAGTCTCCCGTTCATGGTTGC AGGCCAGCATCGGTTTGTGTTTTGGGGGAAAAGGGTAGCAGGAATGTAGCTCGTCTCTAGGGATGAGTGT TATAGCCTGTTGCAAGATACCCTGACATAGATCGAGGACCGCGTCTTTGGCACGGATGCTGGCATAATGG TCGTTGACGACCCGTCTTGAAACACGGACCAAGGAGTCGAGGTTTTCCGCGAGTGTGTGGGTGACAGACC CGCCCGCGAAATGAAAGTGAATGCAGGTGGGAGCCTTTTTTTAAAAGGTGCACCACCGACCGATCCCGAA GTTCTCGGAGGGAATCGAGTAGGAGCGGAGGGCCTCGGGACCCGAAAGATGACGAACTATGCCCTGCATA GAATGAAGCCAGAGGAAACTCTGGTGGAGG >gi|913748878|ref|NG_042649.1| Schizosaccharomyces pombe NRRL Y-12796 28S rRNA, partial sequence; from TYPE material AAAATAACCATGATTCCCTCAGTAACGGCGAGTGAAGCGGGAAAAGCTCAAATTTGAAATCTGTCAACAT TTCTTTTGTTGTCCGAGTTGTAATTTCAAGAAGCTGCTTTGAGTGTAGACGATCGGTCTAAGTTCCTTGG AACAGGACGTCAGAGAGGGTGAGAACCCCGTCTTTGGTCGATTGGATATGCCATATAAAGCGCTTTCGAA GAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGA GACCGATAGCGAACAAGTAGAGTGATCGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTG AAATTGCTGAAAGGGAAGCATTGGAAATCAGTCTTACCTGGGTGAGATCAGTAGTCTCTTCGCGAGACTA TGCACTCTGAACCTGTGGTAGGTCAGCATCAGTTTTCGGGGGCGGAAAAAGAATAAGGGAAGGTGGCTTT CCGGGTTCTGCCTGGGGAGTGTTTATAGCCCTTGTTGTAATACGTCCACTGGGGACTGAGGACTGCGGCT TCGTGCCAAGGATGCTGACATAATGGTTTTCAATGGCCCGTCTTGAAACACGGACCAAGGAGTCTAGCAT CTATGCGAGTGTTTGGGTGATGAAAACCCATCCGCGAAATGAAAGTGAATGCAGGTGGGAACGCCCTTGT GGCGTGCACCATCGACCGACCCGGAAGTTTGTCAATGGAAGGGTTTGAGTAAGAGCATAGCTGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGAGATT CTGACGTGCAAATCGATCTTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT TCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCAGATCAGTTTTATGAGGTAAAGCGAATGATTAGAG GTCTTGGGGAAGGAATTTCCTCAACCTATTCTCAAACTTTAAATATGTAAGACGCCCTTGTCGCTTAATT GGACGTGGGCCATCGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGA ACCGAACGTGAGGTTAAGGTGCCGGAATGTACGCTCATCAGACACCAGAAAAGGTGTTAGTTCATCTAGA CAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACT AGCCCTGAAAATGGATGGCGCTTAAGCGTACTACCCATACCTCACCGTCTGGGTTAGCTTTGAGAAGCTC AGACGAGTAGGCAGGCGTGGAGGTTTGTGACGAAGCCTTGGGCGTGAGCCTGGGTCGAACAGCCTCTAGT GCAGATCTTGGTGGAAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCATG TGAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGATAGGGAAGCTCCGTATGAAAGTTGCACGATT TTTCGTGCCTCCTATCGAAAGGGAATCCGGTTAATATTCCGGAACCAGAAGGTGGAATCAACACGGCAAC GTAAATGAAGTTGGAGACGTCGGCGGGAGCCCTGGGAAGAGTTCTCTTTTCTTTTTAACAAACCATTGAA CTACCCTGAAATCGGTTTATCCGGAGCTAGGGTATGGTGTTTGGAAGAGTTCAGCGCCTCATGCTGAATC CGGTGCGCTCTCGACGGCCCTTGAAAATCCAACGGAAGAATGGACCTTCGGGTCCTTGTTTTCACATCTG GTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAGGG AAGTCGGCAAAATGGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTTGGGTACGTTGGGCCTTGG AACCTGAACGGTTGCTGGACTGAGCGTGGACCGATGTCTTTTCTCGCCTTTCGGGGTGAGAAGGGATGTT GGACCTGCTTGGACCTTGGCGGCCGGGAAGTCCTTGGTCGGGCTTTTCTCCTTCTCGGGGATTATGCTCT TACTGGCGTACGTTTAACAACCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAAC ATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAG TGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCT CGTCATCTAACTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGA AACCACAGCCTGGGGAACGGGCCAGGCAAAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTTTAGT TTGACATTGTGAAGAGACATAGAGGGTGTAGGATAAGTGGGAGTATGTTTCGGCATACGCCGGTGAAATA CCACTACCTTTATCGTTTCTTTACTTAATCAATGAAGCGGAATTGGGATTTATTTCCCATATTCTAGCGT TAAAGTTTCTTCGCGAACTGATCCGCGTTGATGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACAT CTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGACTCATCGAGAACAGAAATCTCGAGTAGAATAAAAGG GTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTG TTCCCTCGAAATTTGAGGACAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAG CGTTCATAGCGACGTTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGT AAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTT TTACCCTACTGATGAAGTGTCGTCGCAATGGTAATTCAACTTAGTACGAGAGGAACCGTTGATTCAGATC ATTGGTATTTGCGGCTGCCTGACAAGGCAATGCCGCGGAGCTATCATCTGCCGGATAACGGCTGAACGCC TCTAAGCCAGAATCCGTGCCAGAAAGCGACGATTTTTTGGTCCGCATGATTTATATGTATAAAAATAGAG GTAGGACTTGTTCCTACTCTCCTGTATCGTAGAAGATGGGCGATGGTTGATGAAACGGAAGTGTTTTATT GACTTGTCCATGAAATTCCATTGAAATCTTGTGCGGAATCGAATCCATTGCATACGACTTTAATGTGGAA CGGGGTATTGTAAGCAGTAGAGTAG >gi|913748877|ref|NG_042648.1| Starmerella bombicola NRRL Y-17069 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAACAGGCAAAAGCTCAGATTTGAAAGCCTCTCGGGG CATTGTATTCTGAAGCCTTGATTCTGAGAACCGGTACCTAAGTCTTCTGGAAAGGAGCGCCAAGGAGGGT GATAGCCCCGTACGGTACTGACCTCATTGTAGAATCTTGGCGTGGAGTCGAGTTGTTTGGGAATGCAGCT CAAATGGGTGGTATGCTCCATCTAAAGCTAAATATCTGCGAGAGACCGATAGCGAACAAGTACTGTGAAG GAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTGAAATGGAAGGATAGGCCG CTAACCACGTAGAGCCGTGTCTGAGGGGAGGATAAAAGCTGTAGAATGTGGCTCTTCGGAGTGTTATAGC TACAGTGCATACTCCCACTCGGGCGCGAGGACCTAAGGCTCTGCTAAATGGTGGTCTATCACCCGTCTTG AAACACGGACCAAGGAGTCTATTGCCTGCGCGAGTATTTGGGTGGAAAACCCATATGCGAAGTGAAAGCG AGTGGTTCCAACCTTCGGGGGCAGAATCAGCCGACCGTTCATAGGAGCGGATTGAGTGGAGCGTGGGTGA TGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTA GCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTA GCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATGGGGTAAAGCGAATGA TTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTGAATATGTAAAATGTCCTTGTTAC TTAAGTGAACGTGGACTCTTGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGAGTTAAGGTGCCGGAGTATACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATGTGTAACAACTCACCGGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTATCACCTATACTCCGCCCACAGTCGAGACTAGCG GCTGTGGAGTAGGCAGGCGTGGAGGTTGTGTGGAAGCCTAGGGCGTGAGCCTGGGTCGAACGGCCTCTAG TGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCGT TGGAACAGCAGTTGGCAACGGGTTAGTCGATCCTAACTGGTACCTTAGCGGGAGTAATAGCTCAGTTTTT TGAGCGTCCAGGAAAGGGAATCCGGTTAACATTCCGGAACTTGGGTATGGACTCACGGCAACGTAACTGA TTGTGGAGACGCTGGCACGGTCCCCGGGAGGAGTTATCTTTTCTTTTTAACGGCATGCAGACCCTGGAAT TGGATTGACCAGCGATAGGGTGTGTAGGTCGGAAGAGTCCCACGTTTCTGTGGGATCCGGTGCGCTCGTG ACGGACCTTGAAAATCCGCAGGAAGGACGTTTCATACCAAGTCGTACTGATAACCGCAGCAGGTCTCCAA GGTTAACAGCCTCTAGTTGATAGAATAACGTAGATAAGGGAATTCGGCAAAATAGATCCGTAACTTTGGG ATAAGGATTGGCTCACGAGAGTGGGCTGTGGAATTCCGTTGCGGGGATATGCGGTCTGCCGGGACTGCTG CAGCTTCGCGGTTGTGGTGGACCTGGCGGTACTGCGTGTTCTGCGCGGCGGGTGGAAGCAGCTATTAGCA CTCAGTCGTGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGTGATGGTCCC AAAGGATGTTGACACAATGTGATTTCTGCCCAGTGCTCTGAATGTTAACGTGAAGAAATTCAAATAAGCG CGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAACTAGTGACGC GCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCATGGGAACGG GCATGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACCTTGTGAAGAGACAT AGGGGGTGTAGTATAAGAGGGAGCTTCGGCAACAGTGAAATACCTCTACCCTTATCGTTTCTTTACTTAT CCAGTTAAGTGGGAGCACTGTAAGTGTATTCTAGCATACAACCCTTCGGGGGACCCAGGCTGGAGACATT GTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTCA TGGAGAACAGAAATCTCCAGTAGAGCAAAAGGGCAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATAC AAACCATGAAAGTGTGGCCTATCGATCCTTTGAATTTTCAGAGTTTGAAATCAGAGGTGCCAGAAAAGTT ACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCG GCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAG CTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGCGTTGCAACAGTAATTATAC TTAGTACGAGAGGAACAGTATATTCAGATAATTGGTTTATGCGGCTGTCCGATCGGGCAATGCCGCGAAG CTACCATCTGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTGGACGCGACGACTACTGACC TTCAGCGAGTACGAATAAGCACTGCGCAAAACTTGATACCGGGTTCGGGTCTGCAGGGAAGCTGTAGGCC TTCCGGACATTACAAAGATTGGTCAGGAGAGATCCTTTGCATACGACTTAAATGTACGACCGGGTATTGT AAGTGGTAGAGTAG >gi|913748875|ref|NG_042647.1| Sporopachydermia lactativora NRRL Y-11591 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGGGTCTT CGACCTCCGAGTTGTAATTTGAAGAAAGTATCTTTGGAAATGGCCTTTTCCTAAGTTCCTTGGAACAGGA CTTCATAGAGGGTGAGAATCCCGTATGGAGAGGTGACTATTTCTATGTAAAGTGCTTTCGACGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT AAAAGGGAAGGGCTTCAGATCAGACTTGATGTTTTGTGATCCATCATCCTTTTTGGTTGGTGCACGCACT TTTCATTGGGCCAACATCGATTTGAGTGGTAGGATAATGCCATTGGAATGTAGCTTCATTCGTGAAGTGT TATAGACTTTGGTGATACTGCCCATTCGGATCGAGGACTGCGTCTTTTGACTAGGATGTTGGCGTAATGA TCTGAAGCCGCCCGTCTTGAAACATGGACCAAGGAGTCTAACGTCTATGCGAGTGTTCGGGTGTCAAACC CCTACGCGTAATGAAAGTGAACGTAGGTGAGAGCCCTTCGGGGTGCATCATCGACCGATCCTGATGTCTT CGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAA GCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAG GGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTC GTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGGGGTCGAAACGACCTTAACCTATTCTCAA ACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGG CCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAGGTGCCGGAATGCACGC TCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGC TAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTAC CTATACTTCACCGTCAGGGTTTTTATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCC TTTGCAGTGATGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGA TCTTTGAAGACTGAAGTGGGGAAAGGTTCCATGTTAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGA GATGGGGAAGCTCCGTTTCAATGTACTCGATTTTTCGAGTCGCCATCGAAAGGGAATCTGGTTAATATTC CAGAACCTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGCCGGCGTAAGCCCTAGGAGG AGTCATCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGG AAGAGCCTAGCACTTCAGCTAGGTCTGGTGCGCTTACGACGGCCCTTGAAAATCCACAGGAAGGAATAGT TTTCATGCCAGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAAT GTAGATAAGGGAAGTCGGCAAATTAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGGC TTGGGCCTTGTTCAGACGCTTCAGGATCCCTCTGACGATTGAGGTGGCTTGCTACTTCGATTGTCTAGGG GAACTTGAAGTTGACGTACTTGGCAGGTCTATATGGCCGTCTGGGTCACAACTAACGATCAACTTAGAAC TGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGA CGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGC GGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGAT TAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAAT CAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGA ATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGCGG AGCTGGACTTCATCGTCCACGTTCTAGCATTCAAAGTCTCTTGTAGGCTGATCCGGGTTGAAGACATTGT CAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGACTCATG GAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAA ACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTAC CACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGC TCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCT GGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAGTGTTATCGCAATAGTAATTGAACT TAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCAGCTGTCTGATCAGGCAATGCTGCGAAGC TACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTTTGCCC TCGCACATTTTAGTTGGATACGAATAAGGCGCTTTGCGTCGCTGAACCATAGCAGGCCGGCAACGGTGCA TTAGCGGAAAGGCTTTTTGTACTTGCCGGTGGATAGCAATGTTATTATGCGCGAGGATAAATCCTTTGCA GACGACTTAAATGTACAACGGNGTATTGTAAGCAGTAGAGTAG >gi|913748874|ref|NG_042646.1| Nakazawaea holstii NRRL Y-2155 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTACCTTAGTAACGGCGAGTGAAGCGGTAAAAGCTCAAATTTGAAATCTAGCACTTT CAGTGTTCGAGTTGTAATTTGAAGAAGGTATCTTTGGAGTTGGCCCCCGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGGGGAGACCAATTCTATGTAAAGTTCCTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTTTGATCAGACTTGGTGTTTNGTACTCTCTACTCCTTGTGGGTGGGGCTCTTGCTT TATACTGGGCCAGCATCGGTTTGGATGGCAGGATAATAGCATTGGAATGTGGCTTCATTCGTGAAGTGTT ATAGCCTTTGTTGATACTGCCTATCTAGACCGAGGACTGCGTCTTTTGACTAGGATGCTGGCGTAATGAT TAAAAGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCC GTACGCGTAATGAAAGTGAACGTAGGTGAGGGCCCTTTTCTGGGTGCATCATCGACCGATCCTGATGTTT TCAGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGA AGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATA GGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCT CGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCA AACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACAATTGAATGAAGAGCTTTTAGTGG GCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAAGTGCCAGAATATACG CTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCG CTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTA CTTATACTTCACCGTCAGGGTTTTTATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGC CTTTGGTGTGAACCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAG ATCTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAG AGATGGGGAAGCTCCGTTTCAAAGTGCTTGATTTTTCAGGCCACCATCGAAAGGGAATCCGGTTAATATT CCGGAACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAG GAGTTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTG GAAGAGCGCAATTTTATGTTGCGTCCGGTGCGCTTGTGACGGCCCTTGAAAATCCACAGGAAGGAATAGT TTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAAT GTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGGGTATT CTGGGCCTTTATCAGACGGTGTTAGTCCTTTGAGGACTGCTGAGGAGCAATCTTTGGCGGACTTCTTTGG TACTTTCTCCTGACGGTATTGGTAGACTCTTCTGAGTCGTCTGGTTTACGCTTAACGATCAACTTAGAAC TGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGTGATGGTCAGAAAGTGATGTTGA CACAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGC GGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGAT TAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAAT CAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGG ATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCAATTAAGCGG AGCTGGACTTCATCGTCCACGTTCTAGCATTAAGGTTCTTTATGGACTAATCCGGGTTGAAGACATTGTC AGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTCCTAAGGGGGGCTCATGG AGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAA CCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACC ACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCT CTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTG GGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTT AGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCT ACCATCCGCTGGATAATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTTTGCCTC GCACATTTTAGAAGGATACGAATAAGGCTCTTTGAGTCGCTGAACCATAGCAGGCTGGCAATGGTACTAT TAACGGAAAGGTTTTTAGTGCTTGCTGGCGGATTGCAATTTAACTATGCGCGGGGATAAATCCTTTGCAG ACGACTTATATGTACAACGGGGTATTGTAAGCAGTAGAGTAG >gi|913748873|ref|NG_042645.1| Citeromyces matritensis NRRL Y-2407 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTC TGGTGCCCGAGTTGTAATTTGTAGAAGGTAATCTTGGGAGTGGGCCTTGTCTATGTTCCTTGGAACAGGA CGTCGAAGAGGGTGAGAATCCCGTAAGGCGAGGAGACCACATTCTTTGTAAGATGCTTTCGAAGAGTCGA GTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGAT AGCGAACAAGTACAGTGATGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAACAGTACGTGAAATTGT TGAAAGGGAAGGGCTTTAGATCAGACTTGGTATTTAGCTATCATTGCTCCTTGTGGGCGGTGCTCTAGCT TTTTACTGGGCCAGCATCGGTTTAGGCGGTAGGATAATGGTGAAGGAACGTAGCTCTGCTTCGGGGTAGT GTTATAGCCTGTTACTGATACTACCTGCTTAGACCGAGGACTGCGTCTTTTGACTAGGATGTTGGCGTAA TGATCTAAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAA ACCCGTAACGCGTAATGAAAGTGAACGTAGGTGAGAACCTCTTTAGAGGTGCATCATCGACCGATCCTGA TGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTAGGACCCGAAAGATGGTGAACTATGCCTGAATAG GGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGG GTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAG AAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTCGAAATGACCTTAACCTAT TCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAAT ACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGA ATCCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAACGGATGGCGCTCAAGCG TGTTACCTATACTTCACCGTCAGGGTTTAAAATGATGCTCTGACGAGTAGGCAGGCGTGGTGGTCAGTGA CGAAGCCTTGGGCGTGAGCCTGGGTCGAACGGCCACTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCA AATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACTGTATTTGGACGTGGGTTAGTCGAT CCTAAGAGATGGGGAAGCTCCGTTTCAAAGCGCCTGATTTTTTTAGGCCGCCATCGAAAGGGAATCCGGT TAATATTCCGGAACCTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGCCGGCACAAGCC CTGGGAGGAGTTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTTTT ATGGCTGGAAGAGCGCAGTACCTTTGCTGCGTCCGGTGCGCTTGTGACGGTCCTTGAAAATCCACAGGAA GGAATAGTTTTCATGCCAGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGAT AGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGAT CGGGTGCTCTGGGCCTTTACCAGACGCCTTGCGCTTCGTTGCGGACTGCCCAGGAGCAATCTTGGGCGGA CCGCTTTGAGGTTTTGCAAGGTTGACGGTTTAGGTAGGTCCCACGTGGGCCGTCGCGGGGCACGCTTAAC GATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCA GAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAG CGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGAC GCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCGAAGGGAAC GGGCTTCGCAAAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGAC ATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTT ATTCAATTAAGCGGAGCTGGACTTCATTGTCCACGTTCTAGCATTAAGGTCTCATTGTAGGCTGATCCGG GTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCT AAGGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTT CAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGT GCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGAT TCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAAT AGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTCATCGCA ATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGG CATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGC GATGATTTCTGCCCTCGCACATTTTAGATGGATACGAATAAGGCACTTTGTGTCGCTGAACCATAGCAGG CTGGCAATGGTGCTCTTAGCGGAAAGGCTTTGGGTGCTTGCCGGTGGATTGCAATTTAATCATGAGCGAG GA >gi|913748872|ref|NG_042644.1| Babjeviella inositovora NRRL Y-12698 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTACCTTAGTAACGGCGAGTGAAGCGGTAAGAGCTCAAATTTGAAATCTGGTACCTT CGGTGCCCGAGTTGTAGTTTGAAGATGGCTGTCTTGGAATTGGCCCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGGTGACCAATTCTATGTAAGACGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGATTAGACTTGGTTTAATGTGAACGCTTCTCCTTGTGGGAGGCGCCCTCACAT TCTACTGGGCCAGCATCGGTTTTGGTGGTAGGATAAAAGCAGTTGAACGTAGCCCCTCGGGGTGTTATAG CTTCTGTTAATACTGCCTACCGAGACCGAGGACTGCGTCTTTTGACTAGGATGCTGGCGTAATGATCTTA AGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTAC GCGTAATGAAAGTGAACGTAGGTGAGAGCCCTTTACGGGGTGCATCATCGACCGATCCTGATGTTTTCAG ATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCC AGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGG CGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTA TCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGGGGTCGAAATGACCTTAACCTATTCTCAAACT TTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCCA TTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAAGTGCCGGAATACACGCTCA TCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGTTGGACGGTGGCCATGGAAGTCGGAATCCGCTAA GGAGTGTGTAACAACTCACCAACCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTA TACTTCACCGTCAGGGTTAATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTT GCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACT TTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAGAGAT GGGGAAACTCCGTTTTAAAGCGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAAAATTCCGG AACCTAGATATAGATTCTTCACGGCAACGTAACTGAATGTGGAGACGTCGGCATGAGCCCTGGGAGGAGT TCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAG AGGGTAGTATCTTTGCTACCTCCGGTGCGCTCATGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTT TATGCTAGGTCGTACTCATAACCGCAGCAGGTCTCCTAGGTTAACAGCCTCTAGTTGATAGAATAATGTA GATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTTCTG GGCTTTTTTCAGACGCGGCGGAACTGGTTGCGGACTATCTGGTTTACTGGACGGACTGCTTTCGGATCTT GCCGTAGACGAATCTAGTAGGTCCTTGTGGCCGGCCGGGGCACGATTAACGATCAACTTAGAACTGGTAC GGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGTGATGGTCAGAAAGTGATGTTGACACAAT GTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGT AACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGA GATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGG GGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACATAGAGGGTGTAGAATAAGT GGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTCTTTACTTATTCAATTAAGCGGAGCTGG ACTTCATCGTCCACGTTCTAGCATTTAAAGTCGTTTATCGGCTGATCCGGGTTGAAGACATTGTCAGGTG GGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGGCTCATGGAGAAC AGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATG AAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGG GATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCC TATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTT AGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGTAC GAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGTTGTCTGATCAGGCATCGCCGCGAAGCTACCAT CCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTTTGCCTCGCACA TCTTAGATGGATACGAATAAGGCTCTTTGAGTCGCTGAACCATAGCAGGCTGGCAACGGTACTCTTAGCG GAAAGGCTTTGGGTGCTTGCCGGCGGATAGCAATGTTATTATGCGCGGGGATAAATCCTTTGCATACGAC TTAAATGTACAACGGAGTATTGTAAG >gi|913748871|ref|NG_042643.1| Yamadazyma triangularis NRRL Y-5714 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAATCTGGCGTCTT CGGCGTCCGAGTTGTAATTTGTAGAAGGTATCTTTGGTGTTGGCCCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGGGGTGTCCAATGCTATGTAAAGTTCCTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGGAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGTTTCGGCAGTTTACCGGGCCAGCATCAGTTTGGA TGGTAGGATAATGGCGAAGGAATGTGGCTCTGCTTCGGTAGAGTGTTATAGACTTTGTTGATACTGCCTA TCTAGACTGAGGACTGCGTCTTTGACAAGGATGTTGGCATAATGATCTTAAGTCGCCCGTCTTGAAACAC GGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGTAATGAAAGTGAACGTA GGTGAGAGCCCTTAAGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAG CTGTTAGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGGGGAAACTCTGGTGGAGGCT CGTAGCGGTTCTGACGCGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCT AGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAAGCGA ATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTG TTGCTTAATTGAACGTGGACAATTGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG ATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCTCATCAGATACCAGAAAAGGTGTTA GTCCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCGG CCGAATGAACTAGCCCTGAAAATGAATGGCGCTCAAGCGTGTTACTTATACTTCACCGTCAGGGTTAATA TGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTTGCTGTAAAGCTGGGTAGAACGG CCTCTAGTGCAGATCTTGGTGGCAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAG GTTCCATGACAACTGTGTTTGGACATGGGTTAGTCGATCCTAAGAGATGGGGAAGCTCCGTTTCAAAGAC TTGATTTTCCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGGAACTTGGATATGGATTCTTCACG GCAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAGTTATCTTTTCTTCTTAACAGCTTA TCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAGAGCGCAGTACTTTTGCTGCGTCC GGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTTCATGCCAAGTCGTACTCATAACC GCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGTATAATGTAGATAAGGGAATTCGGCAAAATAG ATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTTGGGCCTTAATCAGAAGCAGAAGAA TCGATGGTGAACTGTCTAGGAGCAATCTTGGACGGATCGCCGTTGGATCTTTTGTAGACGATTTTGGTTG GCTTCGGCCTGCCGGGGCACGCTTAACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCT AATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGA ATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGC CAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACT ATCTAGCGAAACCACAGCTATGGGAACGGGCATAGCAGAATCAGCGGGGCAAGAAGACCCTGTTGAGCTT GACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGCTCCGGCGCCAGTGAAAT ACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAGCTGGACTTCATCGTCCACGTTCTAGTA TTAAGGTCTCTTTAGAGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACA TCTGTTAAACGATAACGCAGATGTCCTAAGGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAG GGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTT AGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAA GCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGG TAAGCGTTGGATTGTTCACCCACTAATAGGGATCGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGT TTTACCCTACTGATGAAGGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATA ATTGGTTTTTGCGGTTGTCTGATCAGGCACTGCCGCGAAGCTACCATCCGCTGGATAATGGCTGAACGCC TCTAAGTCAGAATCCATGCTAGAACGCGATGATTCTTGCCTCGCACATTTTAGTTGGATACGAATAAGAC TCTTCGAGTCGCTGAACCATAGCAGGTTGGTAACGGTATGCTTAACGGAAAGGTTTTGTGTGCTTACCGA CGGATTGCAATGTCATTATGCGCGGGGATAAATCCTTTGCATACGACTTAAATGTACAACGGAGTATTGT AAGCAGTAGAGTAG >gi|913748869|ref|NG_042642.1| Yamadazyma scolyti NRRL Y-5512 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAATCTGGCGTCTT CGGCGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGTAAAGTTCCTTCGACGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGGTCAGACTTGGTTTTACCAGGCCAGCATCAGTTTGGGTGGCAGGATAAGTGC GTAGGAAAGTGGCTCCACCTCGGTGGAGTGTTATAGCCTGCGTCGATACTGCCTGCCTAGACTGAGGACT GCGTCTTTGACTAGGATGCTGGCATAATGACCTTAAGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTA ACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGTAATGAAAGTGAACGTAGGTGAGAGCCCTTAA GGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGAC GTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTT GGGGACGAAATGTCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACG TGGACATTCGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCG AACGTGAAGTTAAAGTGCCGGAATGCTCGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGC CGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCC CTGAAAATGGATGGCGCTCAAGCGAGCTACTTATACTTCACCGTCAGGGTTGATATGATGCCCTGACGAG TAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTTGCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATC TTGGTGGCAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAT CAGTTGGACATGGGTTAGTCGATCCTAAGAGATGGGGAAGCTCCGTTTCAAAGACTTGATTTTTCAAGTC ACCATCGAAAGGGAATCCGGTTAATATTCCGGAACTTGGATATGGATTCTTCACGGTAACGTAACTGAAT GTGGAGACGTCGGCGTGGGCCCTGGGAGGAGTTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGG TTTATCCGGAGATGGGGTCTTATGGCTGGAAGAGCGCAGTAATTTTGCTGCGTCCGGTGCGCCTACGACG GTCCTTGAAAATCCACAGGAAGGAATAGTTTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAA GGTTAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGG ATAAGGATTGGCTCTAAGGATCGGGTGTCTTGGGCCTTAATCAGACGCAGGCGAATCGATGATGAACTGT CTGGGAGCAATCTTGGACGGATCGTCGTTGGATCTCCTGTAGACGATTTTGGTTGACTTTTGTCTTCCGG GGCACGTTTAACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCA TTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGA AATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCAT CTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCAC AGCCATGGGAACGGGCATGGCAGAATCAGCGGGGCAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACA TTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTCTATA GTTTTTTTACTTATTCAATTAAGCGGAGCTGGACTTCATCGTCCACGTTCTAGTATTAAGGTCTCTTTAG AGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAA CGCAGATGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTT GATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTT GAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACA TTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGT TCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATG AATGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGC TGTCTGATCAGGCAACGCCGCGAAGCTACCATCCGCTGGATAATGGCTGAACGCCTCTAAGTCAGAATCC ATGCTAGAAAGCGATAATTCTTGCCTCGCACATTTTAGTTGGATACGAATAAGGCTCTTTGGGCCGCTGA ACCATAGCAGGTCGGTGATGGTATGCTTAACGGAAAGGTTTTGTATGCTTACCGACGAATAGCAATGTCA TTATGCGCGGGGATAAATCCTTTGCATACGACTTACATGTACAACGGAGTATTGTAAGGAGTAGAGTAG >gi|913748866|ref|NG_042641.1| Yamadazyma philogaea NRRL Y-7813 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAATCTGGCGTCTT CGGCGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGAGCTGGCTCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGTCCAGCTTCGTGTAAAGTTCCTTCGACGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGGTCAGACTTGGTTTACCAGGCCAGCATCAGTTTGGACGGTGGGATAATAGCG GAGGAATGTGGCTCGGCTTCGGTTGAGTGTTATAGCCTTCGTTGATACCGCCTGTCTAGACTGAGGACTG CGTCTTTGACTAGGATGCTGGCATAATGACCTTAAGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAA CGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGTAATGAAAGTGAACGTAGGTGAGAGCCCTTTGG GTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGT GCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGG GGTTGAAATGACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTG GACATTCGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAA CGTGGAGTTAAAGTGCCGGAATGCTCGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCG GACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCT GAAAATGGATGGCGCTCAAGCGAGCTACTTATACTCCACCGTCAGGGTTAATATGATGCCCTGACGAGTA GGCAGGCGTGGAGGTCAGTGACGAAGCCTTTGCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTT GGTGGCAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCA GTTGGACATGGGTTAGTCGATCCTAAGAGATGGGGAAGCTCCGTTTCAAAGACTTGATTTTTCAAGTCAC CATCGAAAGGGAATCCGGTTAATATTCCGGAACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGT GGAGACGTCGGCGTGGGCCCTGGGAGGAGTTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTT TATCCGGAGATAGGGTCTTATGGCTGGAAGAGCGCAGTACTTTTGCTGCGTCTGGCGCGCCTACGACGGT CCTTGAAAATCCACAGGAAGGAATAGTTTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGG TTAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAT AAGGATTGGCTCTAAGGATCGGGTGTCTTGGGCCTTTACCAGACGCGATGGAATTGATGATGAACTGTCT GGGAGCAATCTTGGACGGATCGTCGTTGGATCTGTCGTAGACGGTTTAGGTTGACTTTTGTCTTCCGGGG CACGTTTAACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATT GCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAA TTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCT AATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAG CCATGGGAACGGGCATGGCAGAATCAGCGGGGCAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATT GTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTCTATAGT TTTTTTACTTATTCAATTAAGCGGAGCTGGACTTCATCGTCCACGTTCTAGTATTAAGGTCTCTTTAGAG GCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACG CAGATGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGA TTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGA GGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATT GCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTC ACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAA TGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTG TCTGATCAGGCAACGCCGCGAAGCTACCATCCGCTGGATAATGGCTGAACGCCTCTAAGTCAGAATCCAT GCTAGAAAGCGATAATTCTTGCCTCGCACATTTTAGTTGGATACGAATAAGGCTCTTCGAGTCGCTTGAC CATAGCAGGTTGGCAACGGTATGCTTAACGGAAAGGTTTTGTATGCTTGCCGACGAATAGCAATGTCATT ATGCGCGGGGATAAATCCTTTGCATACGACTTAAATGTACAACGGAGTATTGTAAGGAGTTGAGTAG >gi|913748865|ref|NG_042640.1| Meyerozyma guilliermondii NRRL Y-2075 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTT CGGTGTCCGAGTTGTAATTTGAAGATTGTAACCTTGGGGTTGGCTCTTGTCTATGTTTCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCTATGTAAGGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGTTTGAGATCAGACTCGATATTTTGTGAGCCTTGCCTTCGTGGCGGGGTGACCCGCAGC TTATCGGGCCAGCATCGGTTTGGNCGGTAGGATAATGGCGTAGGAATGTGACTTTACTTCGGTGAAGTGT TATAGCCTGCGTTGATGCTGCCTGCCTAGACCGAGGACTGCGATTTTATCAAGGATGCTGGCATAATGAT CCCAAACCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTTAAACCC GTACGCGTAATGAAAGTGAACGTAGGTGAGGGCTCTTTTGAGTGCATCATCGACCGATCCTGATGTCTTC GGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATACCTGAATAGGGTGAAG CCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGG GGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCG TATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCAAA CTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGC CATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCT CATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCT AAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACT TATACTTCGCCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCT TTGCTGTAAAGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAA CTTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAG ATGGGGAAGCTCCGTTTCAAAGTGCTTGATTTTTCAAGCCGCCATCGAAAGGGAATCCGGTTAATATTCC GGAACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGA GTTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGA AGAGCGCAATACTTTTGTTGCGTCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTT TTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATG TAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCT TGGGCCTTTACCAGACGCAGCGGAACCGGCGGTGGACTGTCTAGGAGCAATCTTGGACGGACCGCTGTTG GATCTTGTTGTAGACGGTTTTGGTAGGCTTTTAGCCGTCCGGGGCACGCTTAACGATCAACTTAGAACTG GTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACG CAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGG GAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTA ACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCA GCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAAT AAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAG CTGGACTTCATCGTCCACGTTCTAGCATTAAGGTCTCATTAGAGGCTGATCCGGGTTGAAGACATTGTCA GGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGA GAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAAC CATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCA CAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTC TTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGG GTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTA GTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTA CCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTCTTGCCTCG CACATTTTAGTTGGATAAGAATAAGGCTCTTTGAGTCGCTGAACCATAGCAGGCTGGTAACGGTACACTT AACGGAAAGGTTTTGTGTGCTTGCCGGCGGATAGCAATGTCATAATGAGCGGGGATAAATCCTTTGCATA CGACTTACATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748864|ref|NG_042639.1| Millerozyma farinosa NRRL Y-7553 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGTCTT CGGCGTCCGAGTTGTAATTTGAAGAAGGCTACTTTGGAGCTGGAGTTTGTCTAAGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGAGATAAGCTTCCCAGTTCTATGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGATCAGACATGGTATTTTGTAAACCTTCTCTCTCGTGGAGGGGGCCCCTTGCA GTTTACTGGGCCAGCATCAGTTTGGGCGGTAGGATAATGACTAAGGAATGTGACTTGCCTTCGGGGAAGT GTTATAGCCTTGGTTGATACTGCCAGCCTAGACTGAGGACCGCGTCTTTGACAAGGATGTTGGCATAATG ATCTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAAC CCGTACGCGTAATGAAAGTGAACGTAGGTGAGAGCTCCTAGAGAGTGCATCATCGACCGATCCTGATGTT CTCGGATGGATTTGAGTAAGAGCATAGCCGTTGGGACCCGAAAGATGGTGAACTATACCTGAATAGGGTG AAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTAT AGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGC TTGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGATGAAATGTCCTTAACCTATTCTC AAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTCGAATGAAGAGCTTCTAGTG GGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACAC GCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCC GCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTT ACTTATACTTCACCGTCAAGGTTGATATGATGCTTTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAG CCTTTGCTGTAAAGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGA GAACTTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAA GAGATGGGGAAGCTCCGTTTCAAAGTACTTGATTTTTCAAGTCGCCATCGAAAGGGAATCCGGTTAAAAT TCCGGAACTTGGATATGGATTCTTCACGGCAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGA GGAGTTATCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCT GGAAGAGTGCATTACTTTTGATGCATCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATA GTTTTCATACCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATA ATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTG TCTTGGGCCTTTACCAGAAGCAGCGGAACTGATGGTGGACTGTCTAGGAGCAATCTTGGACGGACCGCTG TCGGATCTTGTTGTAGACGGTATTGGTAGACCTTCTGGTCGACCGGGGCACGCTTAACGATCAACTTAGA ACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTT GACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACG GCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGG ATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGA ATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTA GAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGC GGAGCTGGACTTCATCGTCCACGTTCTAGCATTAAAGTCTCATTAGAGGCTGATCCGGGTTGAAGACATT GTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCA TGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATAC AAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGTCAGAAAAGTT ACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCG GCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAG CTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTCATCGCAATAGTAATTGAA CTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAA GCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTCTTGC CTCGCACATACTTAGTTGGATAAGAATAAGGCTCTTCGAGTCGCTGAACCATAGCAGGCTGGCAACGGTA CGCTTAACGGAAAGGTTTTGTGTGCTTGCCGGTGGATTGCAATGTCAAGATGCGCGGGGATAAATCCTTT GCATACGACTTAAATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748861|ref|NG_042638.1| Scheffersomyces spartinae NRRL Y-7322 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCATCTT CGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGAGTTGGCTCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCTATGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGTTTAAGATCAGACTTGGTATTTTGTATGGCTTCCTCTCGGGGTGGTCCTCTACGTTTT ACCGGGCTAGCATCAGTTTGGATGGTAGGATAATGGCATTGGAATGTGACATTGCTTCGGTGATGTGTTA TAGCCTTTGTTGATACTGCCTATCTAGACTGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGATCT TCAACCGCTCGTCTTGAAACACGAACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTTAAACCCGT ACGCGTAATGAAAGTGAACGTAGGTGAGAGCTCTTTTGAGTGCATCATCGACCGATCCTGATGTCTTCGG ATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCC AGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGG CGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTA TCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTAGAATGACCTTAACCTATTCTCAAACT TTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCA TTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCTCA TCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAA GGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTA TACTTCACCGTCAGGGTTAATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTT GCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACT TTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGAT GGGGAAGCTCCGTTTCAAAGATTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGGA ACTTGGATATGGACTTCACGGTAACGTAACTGAATGTGGAGACATCGGCGTGAGCCCTGGGAGGAGTTCT CTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAGAGC GCAATACTTTTGTTGCGTCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGTTTAGGATTCAT GCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTAGAT AAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTTTTGGGC CTATATCAGAAGCAGCGGAACTAATGGTGGACTGTCTGGACTTGTTTCGGACGGACTACTGTTGGATCTT GTTGTAGACGATTTAGGTAGACCTCGTGTCGTCCGGATCACGCTTAACGATCAACTTAGAACTGGTACGG ACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGT GATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAA CTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGA TTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAGCGGGG AAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGG GAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAACGGAGCTGGAC TTCATCGTCCACGTTCTAGCATTAAAGTCACATTAGTGGCTGATCCGGGTTGAAGACATTGTCAGGTGGG GAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAGAACAG AAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAA AGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGA TAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTA TCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAG ACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGTACGA GAGGAACCGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTACCATCT GCTGGATAATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAACGCGATGATTCTTGCCTCGCACATT TTAGTTGGATACGAATAAGGCTCTTTGAGTCGCTAAACCATAGCAGGTTGGCAACGGTATGCTTAACGGA AAGGTTTTGTATGCTTGCTGACGAATAGCAATGTCATAATGCGCGGGGATAAATCCTTTGCATACGACTT AAATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748860|ref|NG_042637.1| Scheffersomyces stipitis NRRL Y-7124 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT CGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGAGTCAGCTCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGTCTGATTCTATGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGTTTGAGATCAGACTTGGTATTTTGTATGTCTTGCTTTCGGGTGGGGCCTCTACAGTTT ACTGGGCCAGCATCGGTTTGGACGGTAGGATAATGACATTGGAATGTGGCACCACTTCGGTGGTGTGTTA TAGACTTTGTTGATACTGCCTGTCTAGACCGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGATCT TAAACCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCAAGTGTTTGGGTGTAAAACCCGT ACGCGTAATGAAAGTGAACGTAGGTGAGAGCTCTTTTGAGTGCATCATCGACCGATCCTGATGTCTTCGG ATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCC AGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGG CGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTA TCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGGGGTTGAAATGACCTTAACCTATTCTCAAACT TTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCCA TTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCTCA TCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAA GGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTA TACTTCACCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTT GCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACT TTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGAT GGGGAAGCTCCGTTTCAAAGATTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGGA ACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAGTT CTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAGA GTGCAATACTTTTGTTGCATCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTTC ATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTAG ATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTTGG GCCTTTACCAGACGCAGCGGAACTGGTGGTGGACTGTTCTTCCTTGTGTTGAACGGACCGCTACCGGATC TTGCTGTAGACGGTTTAGGTAGGCTTCGGCCGTCCGGGGCACGCTTAACGATCAACTTAGAACTGGTACG GACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATG TGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTA ACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAG ATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGG GAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATGGAGGGTGTAGAATAAGTG GGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAGCTGGA CTTCATCGTCCACGTTCTAGCATTAAGGTCTCTTTAGAGGCTGATCCGGGTTGAAGACATTGTCAGGTGG GGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAGAACA GAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGA AAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGG ATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCT ATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTA GACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGTACG AGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTACCATC CGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTCTTGCCTCGCACAT TTTAGTTGGATAAGAATAAGGCTCTTTGAGTCGCTGAACCATAGCAGGCTGGCAATGGTACACTTAACGG AAAGGTTTTGTGTGCTTGCCGGCGAATAGCAATGTCATAATGCGCGGGGATAAATCCTTTGCAAACGACT TAAATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748859|ref|NG_042636.1| Schwanniomyces etchellsii NRRL Y-7121 28S rRNA, partial sequence; from TYPE material AACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTTC GGTGTCCGAGTTGTAATTTGTAGAAGGTAACTTTGGAATTGGCTCTTGTCTATGTTCCTTGGAACAGGAC GTCACAGAGGGTGAGAATCCCGTGCGATGAGGTGCCCAATTCTATGTAAAGTGCTTTCGAAGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGCGTTCCTTCCCCTCGTGGGTTGGTTCCTCGCAGCT TACCGGGCCAGCATCGGTTTGGATGGTAGGATAATGACATTGGAATGTGACACCGCTTCGGTGGTGTGTT ATAGCCTTTGTTGATACTGCCTGTCTAGACCGAGGACTGCGTCTTTGACTAGGATGTTGGCATAATGATC TTAAGTCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCG TACGCGTAATGAAAGTGAACGTAGGTGAGAGCTCTTAAGAGTGCATCATCGACCGATCCTGATGTCTTCG GATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGT ATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCAAAC TTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCC ATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCAGAATACACGCTC ATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTA AGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTT ATACTTCACCGTCAGGGTTTATATGATACTCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTT TGCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAAC TTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGA TGGGGAAGCTCCGTTTCAAAGACTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGG AACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAGT TCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTGTCCGGAGATAGGGTCTTATGGCTGGAAG AGTGCAATACTTTTGTTGCATCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTT CATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTA GATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTTG GGCCTTTACCAGAAGCAGCGGAACCGATGGTGGACTGTCTAGGAGCAATCTTGGACGGACCGCTGTTGGA TCCCTGTTGTAGACGGTTTTGGTAGACTTTTAGTCGTCCGGGGCACGCTTAACGATCAACTTAGAACTGG TACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGC AATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGG AGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAA CGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAG CGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATA AGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAGC TGGACTTCACCGTCCACGTTCTAGTATTAAAGTCTTATTAAAGGCTGATCCGGGTTGAAGACATTGTCAG GTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAG AACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACC ATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCAC AGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCT TCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGG TTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAG TACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTAC CATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGACTCTTGCCTCGC ACATTTTAGTTGGATACGAATAAGGCTCTTTGAGTCGCTAGACCATAGCAGGCTGGCAATGGTATGCTTA ACGGAAAGGTTTTGTATGCTTGCCGGCGAATAGCAATGTCATAATGCGCGGGGATAAATCCTTTGCATAC GACTTAAATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748858|ref|NG_042635.1| Schwanniomyces occidentalis NRRL Y-10 28S rRNA, partial sequence; from TYPE material AAACCNACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT CGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGGATTGGCTCTTGTCTAAGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGACCAATCTATGTAAAGTGCTTTCGAAGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGCATTCCTTACCTTCGTGGTGGGGTTCCTTGCAGTT TACTGGGCCAGCATCGGTTTGGATGGTGGGATAATGACATTGGAATGTGGCTCTGCTTCGGTAGAGTGTT ATAGCCAGTGTTGATACCGCCTGTCTAGACCGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGATC TTAAGTCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCG TACGCGTAATGAAAGTGAACGTAGGTGAGAGCTCTTTTGAGTGCATCATCGACCGATCCTGATGTCTTCG GATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGT ATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCAAAC TTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCC ATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCTC ATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTA AGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTT ATACTTCACCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTT TGCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAAC TTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGA TGGGGAAGCTCCGTTTCAAAGACTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGG AACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAGT TCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAG AGCGCAATACTTTTGTTGCGTCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTT CATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTA GATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTTG GGCCTTTACCAGACGCAGCGGAGCTGATGGTGGACTGTCTGGGAGCAATCTTGGACGGACCGCTGTTGGA TCTTGTTGTAGACGGTATTGGTAGGCTTTTAGCCGTCCGGGGCACGCTTAACGATCAACTTAGAACTGGT ACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCA ATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGA GTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAAC GAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGC GGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAA GTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAGCT GGACTTCATCGTCCACGTTCTAGCATTAAGGTCTCTTTAGAGGCTGATCCGGGTTGAAGACATTGTCAGG TGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAGA ACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCA TGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACA GGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTT CCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGT TTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGT ACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTACC ATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTCTTGCCTCGCA CATTTTAGTTGGATAAGAATAAGGCTCTTCGAGTCGCTGAACCATAGCAGGCTGGCAATGGTACACTTAA CGGAAAGGTTTTGTGTGCTTGCCGGCGAATAGCAATGTCATAATGCGCGGGGATAAATCCTTTGCATACG ACTTACATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748857|ref|NG_042634.1| Debaryomyces hansenii NRRL Y-7426 28S rRNA, partial sequence; from TYPE material AACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTTC GGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGAGTTGGCTCTTGTCTATGTTCCTTGGAACAGGAC GTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCTATGTAAAGTGCTTTCGAAGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGCGATCCTTTCCTTCTTGGTTGGGTTCCTCGCAGCT TACTGGGCCAGCATCGGTTTGGATGGTAGGATAATGACTAAGGAATGTGGCTCTACTTCGGTGGAGTGTT ATAGCCTTGGTTGATACTGCCTGTCTAGACCGAGGACTGCGTCTTTTGACTAGGATGTTGGCATAATGAT CTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCC GTACGCGTAATGAAAGTGAACGTAGGTGAGAGCTCTTAAGAGTGCATCATCGACCGATCCTGATGTCTTC GGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAG CCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGG GGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCG TATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCAAA CTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGC CATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCT CATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCT AAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACT TATACTTCACCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCT TGGCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAA CTTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAG ATGGGGAAGCTCCGTTTCAAAGACTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCG GAACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAG TTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAA GAGTGCAATACTTTTGTTGCATCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTT TCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGT AGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTT GGGCCTTTACCAGACGCAGCGGAACTGATGGTGGACTGTCTAGGAGCAATCTTGGACGGACCGCTGTCGG ATCTTGTTGTAGACGGTTTTGGTAGACTTTTAGTCGTCCGGGGCACGCTTAACGATCAACTTAGAACTGG TACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGC AATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGG AGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAA CGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAG CGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATA AGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAGC TGGACTTCATCGTCCACGTTCTAGCATTAAAGTCTCTTTAGAGGCTGATCCGGGTTGAAGACATTGTCAG GTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGGCTCATGGAG AACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACC ATGAAAGTGTGGCCTATCGATCCTTTAGATCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCAC AGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCT TCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGG TTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAG TACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTAC CATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTTTGCCTCGC ACATTTTAGTTGGATAAGAATAAGGCTCTTTGAGTCGCTAAACCATAGCAGGCTGGCAATGGTACACTTA ACGGAAAGGTTTTGTGTGCTTGCCGGCGAATAGCAATGTCATGATGCGCGGGGATAAATCCTTTGCATAC GACTTACATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748856|ref|NG_042633.1| Priceomyces haplophilus NRRL Y-7860 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT CGGTGTCCGAGTTGTAATTTGAAGAAGGAAGGTTTATGGGTCTTGTCTATGTTCCTTGGAATAGGACGTC ACAGAGGGTGAGAATCCCGTGCGATGAGATTCCGTATTGTAATCTTCCTTCGAAGAGTCGAGTTGTTTGG GAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAA GTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTGAAAGGGA AGGATTTGAGATCAGACTTGGTATTTTGCAACCTTACTCTCGTGGTGGGGCCCCTGCAGTTTACTGGGCC AGCATCAGTTTGGATGATGGGATAAGGACATTGGAATGTGACTCTGCCTCGGTGGAGTGTTATAGCCTTT GTTGATACCGTCTATCTAGACTGAGGACTGCGTCTTTGACTAGGATGTTGGCATAATGATCTTAAATCAC CCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGTAA TGAAAGTGAACGTAGGTGAGAGCTCTTTTTGAGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATT TGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATACCTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGA CTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTT TATGAGGTAAAGCGAATGATTAGAGGTCTTGGGGTTGAAATGACCTTAACCTATTCTCAAACTTTAAATA TGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCCATTTTTGG TAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCAGAATACACGCTCATCAGACA CCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATGT GTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTATACTTCA CCGTCAGGGTTAATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTTGCTGTAA AGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGA CTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGATGGGGAAG CTCCGTTTCAAAGACTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGGAACTTGGA TATGGATTCTTCACGGCAACGTAACTGAATGTGGAGACGTCGGCGTGAGCTCTGGGAGGAGTTCTCTTTT CTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTTTTATGGCTGGAAGAGCGCAAT ACTTTTGTTGCGTCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTTCATGCCAA GTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGG AAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTTGGGCCTCTA CCAGAAGCAGCGGAACTGATGATGGACTGTCTAGGAGCAATCTTGGACGGACCGTCGTTGGATCTTGTTG TAGACGGTTTTGGTAGGCTTTTAGCCGTCCGGGGCACGCTTAACGATCAACTTAGAACTGGTACGGACAA GGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATT TCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTAT GACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCC CACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAG AAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGC TTCGGCGCCGGTGAAATACCACTACCTCTATCGTTTTTTTACTTATTCAATTAAGCGGAGCTGGACTTCA CCGTCCACGTTCTAGAATTAAGGTCTCTTTAGAGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGT TTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAGAACAGAAAT CTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTG TGGCCTATCGATCCTTTAGTCCCTCAGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAAC TGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCAT ACCGAAGCAGAAATCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCG TCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAATTTAGTACGAGAGG AACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTACCATCCGCTG GATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTCTTGCCTCGCACATTTTAG TTGGATACGAATAAGGCTCTTTGAGTCGCTAGACCATAGCAGGCTGGCAATGGTACACTTATCGGAAAGG ATTTGTGTGCTTGCCGGCGAATAGCAATGTCATCATGCGCGGGGATAAATCCTTTGCATACGACTTAAAT GTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748854|ref|NG_042632.1| Kurtzmaniella cleridarum NRRL Y-48386 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTAGTACTTT CAGTGCTCGAGTTGTAATTTGAAGAAGGTAACTTTGGTGTTGGCCCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGGTGTCCAATACTATGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGTTTGAGATCAGACTTGGTATTTTGCAATCCTTTCCTTCTCGGGGAGGTTTCTTAGCAG CTTACCGGGCCAGCATCGGTTTGGATGGTAGGATAATGACATTGGAATGTAGCTCTTCGGAGTGTTATAG ACTTTGTTGATACTGCCTATCTAGACCGAGGACTGCGTCTTTGACTAGGATGCTGGCGTAATGATCTTAA ACCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACG CGTAATGAAAGTGAACGTAGGTGAGAGCTCGCAAGAGTGCATCATCGACCGATCCTGATGTCTTCGGATG GATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCA GTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGGGGTTGAAATGACCTTAACCTATTCTCAAACTTTA AATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCCATTT TTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCTCATCA GACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGA GTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTATAC TTCACCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGAAGAAGCCTTTGCT GTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTG AAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGATGGG GAAGCTCCGTTTCAAAGACTTGATTTTTCAAGTCACCATCGAAAGGGAATCCGGTTAAAATTCCGGAACT TGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAGTTCTC TTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAGAGCG CAATATTTTTGTTGCGTCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGATTAGTTTTCATG CCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTAGATA AGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTATCTTGGGCC TCTATCAGACGCAGCAGAATTGGCAGTGAACTGTTTGGGAGCAATCTTGAACGGATCGCCGCTGAATCTT GTTGTAGACGATTTTGGTAGACTTCGGTCGTCCGGGGTACGCTTAACGATCAACTTAGAACTGGTACGGA CAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTG ATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAAC TATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGAT TCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGA AAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGG AGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATTAAGCGGAGCTGGACT TCATCGTCCACGTTCTAGTATTAAGGTATCTTTAGATGCTGATCCGGGTTGAAGACATTGTCAGGTGGGG AGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAGAACAGA AATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAA GTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGAT AACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTAT CATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGA CCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGTACGAG AGGAACAGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTACCATCTG CTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTCTTGCCTCGCACATTT TAGTTGGATAAAAATAAGGCCTTTTGGTCGCTTAACCATAGCAGGTTGGCAATAGTACGCTTAACGGAAA GGTTTTGTGTGCTTGCTAACGAATAGCAATGTCATAATGCGCGGGGATAAATCCTTTGCATACGACTTAC ATGTACAACGGGGTATTGTAAGCAGTAGAGTAG >gi|913748853|ref|NG_042631.1| Spathaspora passalidarum NRRL Y-27907 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGTATT CTGCGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGTCTGGCGCTTGTCTATGTTCCTTGGAACAGGA CGTCACAGAGGGTGAGAATCCCGTGCGATGAGCAGTCCAGATCTATGTAAAGTTCCTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGCGATCAGACTTGGTATTTTGTATGTCTTGCTCTCGGGCGGGGCCTCTGCAGTTT ACTGGGCCAGCATCGGTTCGTGCGGCAGGACAATTGCAGAGAAATGTGGCACGACTTCGGTTGTGTGTTA TAGTCTTTGTCGATACTGCCTGCGTGGACCGAGGACTGCGTCTTATGACTAGGATGCTGGCATAATGATC GTAAGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCG TACGCGTAATGAAAGTGAACGTAGGTGAGGGCCCTTCTGGGTGCATCATCGACCGATCCTGATGTCTTCG GATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGT ATCAGTTTTATGAGGTAAAGCGAATGATTAGAAGTCTTGGGGTTGAAATGACCTTAACTTATTCTCAAAC TTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCC ATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAAGTGCCGGAATACACGCTC ATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTA AGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTT ATACTTCACCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGAAGAAGCCTT TGCTGTAAAGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAAC TTTGAAGACTGAAGTGGGGAAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGA TGGGGAAGCTCCGTTTCAAAAGCTTGATTTTTCAGGCTACCATCGAAAGGGAATCCGGTTAAAATTCCGG AACTTGGATATGGATTCTTCACGGCAACGTAACTGAATGTGGAGACGTCGGCGTGAGCCCTGGGAGGAGT TCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAG AGCGCGGTAATTTTGCCGCGTCCGGTGCGCTTACGACGGTCCTTGAAAATCCACAGGAAGGAATAGTTTT CATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTA GATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGTCTTG GGCCTTAGCCAGACGCCGCGGAGCTGCCTGTGGACTGTCTGCCTCTCGGGGTGGACGGACCGCGGATGGG TCTTGCGGTAGACGGCTTTGGTAGGTTTCGGCCGTCCGGGGCACGCTTAACGATCAACTTANAACTGGTA CGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAA TGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAANCGCGGGTAAACGGCGGGAG TAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACG AGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCG GGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATGGAGGGTGTAGAATAAG TGGGAGCTTCGGCGCCGGTGAAATACCACTACCTCTATAGTTTTTTTACTTATTCAATGAAGCGGAGCTG GACTTCATCGTCCACGTTCTAGCATTAAGGTCGCGTTAGCGGCTGATCCGGGTTGAAGACATTGTCAGGT GGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGACTCATGGAGAA CAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCAT GAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAG GGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTC CTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTT TAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAGTGTTATCGCAATAGTAATTGAACTTAGTA CGAGAGGAACCGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAACGCCGCGAAGCTACCA TCTGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTTTGCCCTGCAC ATTCTAGTTGGATACGAATAAGGCTCTTTTGAGTCGCTGGACCATAGCAGGCTGGCAATGGTGCGCTTAA CGGAAAGGTTTTGTGTGCTTGCCGGCGGATAGCAATGTCATGATGCGCG >gi|913748852|ref|NG_042630.1| Hanseniaspora valbyensis NRRL Y-1626 28S rRNA, partial sequence; from TYPE material AAACCAACTGGGATTACCTTAGTAACGGCGAGTGAAGCGGTAAAAGCTCAAATTTGAAATCTGGTACTTT CAGTGCCCGAGTTGTAATTTGTAGAATTTGTCTTTGATTTGGTCCTTGTCTATGTTCCTTGGAACAGGAC GTCATAGAGGGTGAGAATCCCGTTTGGCGAGGATACCATTTCTTTGTAAGACTTTTTCGAAGAGTCGAGT TGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCATTTGATCAGACATGGTGTTTTTTGCATGCACTCGCCTCTCGTGGGCTTGGGCCTCTC AAAAATTTCACTGGGCCAACATCAGTTTTGGCGGTAGGATAAATCATTAGGAACGTAGCTTCTTCGGGAG TGTTATAGCCTAGTGGAATACTATCAGCCGGGACTGAGGACTGCGCTTTATGCAAGGATGTTGGCATAAT GGTTAAATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAA CCCGTACGCGTAATGAAAGTGAACGTAGGTTGGGGCCTTCGGGTGCACAATCGACCGACCTTGATGTTTT CGGATAGGTTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAA GCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAG GGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTC GTATCAGTTTTATGAGGTAAAGCGAATGATTAGCGGTACCGGGGATGAAATGTCCTTGACCGATTCTCAA ACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATATGAATGAAGAGTTTCTAGTGGG CCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATGTACGC TCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGC TAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTATTAC CTATACTCCACCGTCAGGGTTAATTTGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCC TAGGCAGTGATGCTGGGTTGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGA TCTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAGA GATGGGGAAGCTCCGTTTCAAATGCTTAATTTTCTAAGCAACCATCGAAAGGGAATCCGGTTAATATTCC GGAACTTGGATGTAGATTTTACACGGTAACGTAACTGAGTGTGGAGACGTCGGCATTAGCCCTGGGAGGA GTTATCTTTTCTTTTTAACAGTTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGACTGGA AGAGCCTAGTTTTACGCTAGGTCCGGTGCGCTGATGACGGCCCTTGAAAATCCACAGGAAGGAATAGTTT TTACGCCAAGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGT AGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGAGTTTCAG GGGTCATTACTTGAGGTGAGTTTGCTGATTGTGATTTTCTTAGGCTTTCGGGTTTGGGAGGATTGCTTTT GGCGAGCTTTTCTGACGGTTTTGATAGACCATTTTTGGTCGTCACTTGTTACACTTAACGATCAACTTAG AACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGT TGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAAC GGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATG GATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAG AATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACATAGAGGGTGT AGCATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATCGTTTCTTTACTTATTCAATAATG CGGAACTGGAATTCATTTTCCACTTTCAAGTATTTAACGTCCTTTACGGGCTGATCCGGGTTGAAGACAT TGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTCCTAAGGGGGACTC ATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATA CAAACCATGAAAGTGTGGCCTATCGATCCTTTAGATCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGT TACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTC GGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGA GCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAAGGTTATCGCAATAGTAATTGA ACTTAGTACGAGAGGAACAGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGA AGCTACCATCTGTTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTTTT GCCTTACACATCATAGATGGATACGAATAAGGTGCTCTTGTGGCACCGCTGAACCATAGCAGGCTGGCAA CGGCGTTCTTACCGGAAAGGGTTTGGGCGTTTGCTGGTGAATTGCAATGTCATTTTGCGTGAGGATAAAT CATTTGTAAACGACTTAAATGTACAACGGGGTATTGTAAGCAGTAGAGTAG >gi|913748851|ref|NG_042629.1| Saccharomycodes ludwigii NRRL Y-12793 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCATCTT TGATGTCCGAGTTGTAATTTGAAGAGGTTACTTTGGAGGCTGGCTCTTGTCTATGTTCCTTGGAACAGGA CGTCATGGAGGGTGAGAATCCCGTCTGGCGAGAGTTTCAGTTTTCATGTAAAGTAGCATTCGACGAGTCG AGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGA TAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTG TTGAAAGGGAAGGGCATTTGATCAGACATGGTGTTTCGTGCTTCTTGCTCCTTGTGGGCGGGGAGACTCA CACGGTTCACTGGGCCAACATCAGTTTTGGCAGCAGGATAAAACTTTGGGAACGTAGCTTTCTTCGGGAA GTGTTATAGCCCTTGGCAATACTGCTAGCCGGGATTGAGGACTGCGCATTTATGCAAGGATGTTGGCTTA ATGGTTAAATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAA AACCCGTACGCGGAATGAAAGTGAACGTAGGTGGGGGCCACATTTTTGTGGTGCACCATCGACCGATCCT GATGTTTTCAGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTT GGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGC AGAAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTGCCGGGGTTGAAATAACCTTGACCT ATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTT TTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGA ATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCCAGACAGCCGGACGGTGGCCATGGAAGTCG GAAACCGCTAAGGAATGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAG CGTGTTACCTATACTCCACCGTCAGGGTTAATATGATGCCCTGACGAGTAGGCAGGCGTGGGGGTCTGTG ACGAAGCCTAGGCTGTGAAGCTGGGTAGAACGGCCCCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTC AAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACATCAACAGCAGTTGGATGTGGGTTAGTCGA TCCTAAGAGATGGGGAAGCTCCGTTTCAAAAGCCTGATTTTCCAGGCTACCATCGAAAGGGAATCCGGTT AATATTCCGGAACTTGGATATGGATTCTTCACGGCAACGTAACTGAGTGTGGAGACGTCGGCGCGAGCCC TGGGAGGAGTTATCTTTTCTTCTTAACAGCTTATCACCCCGGAATTGGTTTATCCGGAGATGGGGTCTTA TGGCTGGAAGAGCCCAGTATCTTTGCTGGGTCCGGTGCGCTCGTGACGGCCCTTGAAAATCCACAGGAAG GAATAGTTTTCATGCCAAGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATA GAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATC GGGTAGTGAGGGCCATTGTCAGACGCAGCATGCGGGGATACGGACTGCCTCTCTGGGCTTGCTCGGGGTA GTGGACTGTGTTTCTGCGTGTCTGTTGACGGCATTGGTAGGTCTCCTGTAGACCGTCGCTTGCTGCAATT AACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGG TCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACC AAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGT GACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGG AACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGA GACATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATAGTTTCTTTA CTTATTCAATTAAGCGGAGCTGGAATTCATTTTCCACCTTCTAGCATTTAAAGTCTTTTACAGGCCGATC TGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGT CCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGAT TTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGATCCTCGGAATTTGAGGCTAGA GGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTT GATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACT AATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATC GCAATAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATC AGGCATTGCCGCGAAGCTACCATCTGTTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAA AGCGATGATTTCTTTTCTCTCACACATCATAGATGGATAATAATAAGGCACCTTTTTGGTGTCGCTGAAC CATAGCAGGTGAGCACTGGTGTACTTAGCGGAAAGGCTTTGTGCACTTGCCCACGGATTGCAATGTCATT TTGCGTGAGGATAAATCATTTGTAGACGACTTAAATGTACAACGGGGTATTGTAAGCAG >gi|913748849|ref|NG_042628.1| Eremothecium cymbalariae NRRL Y-17582 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCTCAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTT CGGCGTCCGAGTTGTAATTTGAAGAAGCTACTCTGGAACTAGTCCCTGTCTATGTTCCTTGGAACAGGAC GTCATAGAGGGTGAGAATCCCGTCTGGCGGGGGTGCTAGTTCTTTGTAGAGTGCTTTCGACGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCATTTGATCAGGCATGGTGTTTTGCGGCCCTCGCTCCTCGTGGGTGGGGTCACCGCAGC TCACTGGGCCAGCATCAGTTTTGGTGGCAGCAGAAACCCTTAGGAATGTGACTTTCTCTTCGGAGGAAGT GTTATAGCCTGAGGACATACTGCCAACCGGGACTGAGGACTGCGGCTTCGGCCAAGGATGCTGGCATAAT GGTTAAATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCAAGTGTTTGGGTGTAAAA CCCGTACGCGTAATGAAAGTGAACGTAGATGAGGGCCTTTTATTAGGTGCATCATCGACCGATCCTGATG TCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGG TGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGT ATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAA GCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTACCGGGGTTGAAATGACCTTGACCTATTC TCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATGAAGAGCTTCTAG TGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCAGAATAC ACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAAT CCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTG TTACCTATACTCCACCGTCAGGGCAGATATGAAGCCCTGACGAGTAGGCAGGCGTGGAGGTCCGTGACGA AGCCTAGGCTGTAAAGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAAT GAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCT AAGAGATGGGGAAGCTCCGTTTCAAAGGCCTGATTTTCCAGGCCACCATCGAAAGGGAATCCGGTTAATA TTCCGGAACCTGGATGTGGATTCTTCACGGCAACGTAACTGAGTGCGGAGACGTCGGCGTGAGCCCTGGG AGGAGTTATCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATGGGGTCTTATGGC TGGAAGAGCCCAGCATCTGTGCTGGGTCCGGTGCGCTTACGACGGCCCTTGAAAATCCGCAGGAAGGAAT AGTTTTCATGCCAGGTCGTACTGATATCCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAAT AATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGT AGTGAGGGCCTTGGTCAGACGCGGCGAGCGTGCTTGTGGTCTGTCCTCGGGGGTTTACTCCTGGGGACGG ACTACTTGCGTGCTCTGTCGTAGACGGCCTTGGTAGACCATTTTTGGTCGTCGTTTGCTACAGTTAACGA TCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGA AAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCG CGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGC GCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGG GCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACAT AGAGGGTGTAGGATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATAGTTTCTTTACTTAT TCAATTAAGCGGAGCTGGAATTAATTTTCCACGTTCTAGCATTCAAAGTCCCTTCGCGGTCTGATCCGGG TTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTCCTA AGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTC AGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTTCCTCGGAGTTTGAGGCTAGAGGTG CCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATT CTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATA GGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAA TAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTGTCCGACCGGGC ATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCG ATGATTTCTTGCCTCACACATTATAGATGGATACGAATAAGGTGCATTAGCATCGCTGAACCATAGCAGG CTGGCACTGGTGCTCTTGACGGAAAGGTCTTGGGTACTTGCCGGCGAATTGCAATGTCATACTGCGTGAG GATAAATCATTTGTATACGACTTAGATGTACAACAGGGTATTGTAAGCAGTAGAGTAG >gi|913748846|ref|NG_042627.1| Kluyveromyces marxianus NRRL Y-8281 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGTCTT CGACGTCCGAGTTGTAATTTGAAGAAGGCGACTTTTAGCTGGTCCTTGTCTATGTTCCTTGGAACAGGAC GTCATAGAGGGTGAGAATCCCGTGTGGCGAGGATCCCAGTTATTTGTAAAGTGCTTTCGACGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCATTTGATCAGACATGGCGTTTGCTTCGGCTTTCGCTGGGCCAGCATCAGTTTTAGCGG TTGGATAAATCCTCGGGAATGTGGCTCTGCTTCGGTAGAGTGTTATAGCCCGTGGGAATACAGCCAGCTG GGACTGAGGATTGCGACTTTTGTCAAGGATGCTGGCGTAATGGTTAAATGCCGCCCGTCTTGAAACACGG ACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGTAATGAAAGTGAACGTAGG TGAGGGCCCGCAAGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCT GTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCG TAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAG TAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAAGCGAAT GATTAGAGGTACCGGGGTTGAAATGACCTTGACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTT GCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGAT GCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATCAGACNCCACAAAAGGTGTTAGT TCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCGGCC GAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACTCCACCGTCAGGGTTAATATG ATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTAGGCTGTAAAGCTGGGTAGAACGGCC TCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGT TCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAGAGATGGGGAAGCTCCGTTTCAAAGGCCT AATTTTCTAGGCCACCATCGAAAGGGAATCCGGTTAATATTCCGGAACCTGGATATGGATTCTTCACGGT AACGTAACTGAATGTGGAGACGTCGGCGCGAGCCCTGGGAGGAGTTATCTTTTCTTCTTAACAGCTTATC ACCCCGGAATTGGTTTATCCGGAGAGGGGGTCTTATGGCTGGAAGAGCCCAGCCCTTGTGCTGGGTCCGG TGCGCCCGCGACGGCCCTTGAAAATCCACAGGAAGGAATAGTTTTCATGCCAGGTCGTACTGATAACCGC AGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGAT CCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTAGTGAGGGCCTTGGTCAGACGCGGCGGGCAT GCTTGTGGACTGTCTTACTGGGCTTGCTCGGTGGGACGGACTGCTTGCGGGCCTTGTCGTAGACGGCCTT GGTAGGTCTCTTGTAGACCGTCGCTTGCTACAATTAACGATCAACTTAGAACTGGTACGGACAAGGGGAA TCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCC CAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCT CTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGT CCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACC CTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACATAGAGGGTGTAGCATAAGTGGGAGCTTCGGC GCCAGTGAAATACCACTACCTTTATAGTTTCTTTACTTATTCAATTAAGCGGAGCTGGAATTCATTTTCC ACGTTCTAGCATTCAAAGTCCTATACGGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCT GGGGCGGCACATCTGTTAAACGATAACGCAGATGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAG TAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCT ATCGATCCTTTAGGTCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTT GTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAA GCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGA GACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACCTAGTACGAGAGGAACAGT TCATTCGGATAATTGGTTTTTGCGGCTGTCTGACCAGGCATTGCCGCGAAGCTACCATCCGCTGGATTAT GGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAACGCGATGATTTCTTTGCCTTGCACAATATAGAAGG ATACGAATAAGGCGTCTTTATGGCGTCGCTGAACCATAGCAGGCTGGCAACGGTGCTCTTAGCGGAAAGG CTTTGGGTGCTTGCCGGCGAATTGCAATGTCATTTTGCGCAAGGATAAATCATTTGTATACGACTTAAAT GTACAACGGGGTATTGTAAGCAG >gi|913748845|ref|NG_042626.1| Lachancea thermotolerans NRRL Y-8284 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT CGGTGTCCGAGTTGTAATTTGAAGAAGCTACTTTGGGGCTAGTCCTTGTCTATGTTCCTTGGAACAGGAC GTCATGGAGGGTGAGAATCCCGTATGGCGAGGAGTCTAGTCCTATGTAAAGTGCTTTCGACGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGCGACCCTCGCTCCTTGTGGGTGGGGATCTCGCAGC TCACTGGGCCAACATCAGTTTTGGCGGTAGGATAAATCTTTGGGAACGTGGCTTGTCTTCGGAGAAGCGT TATAGCCCAGGGGAATACTGCCAGCCGGGACTGAGGACTGCGACTTTTGTCAAGGATGTTGGCATAATGG TTAAATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACC CGTACGCGTAATGAAAGTGAACGTAGGTGAGGGCCTCTTGTAGGTGCATCATCGACCGATCCTGATGTTT TCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGA AGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATA GGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCT CGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTTCCGGGGTCGAAATGACCTTGACCTATTCTCA AACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGG GCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTAGAGTTAAGGTGCCGGAATACACG CTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCG CTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTA CCTATACTCTACCGTCAGGGTTAATTTGATGCTCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGC CTAGGCTGTAAAGCTGGGTAGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAG ATCTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAG AGATGGGGAAGCTCCGTTTCAAAGGCCTGATTTTCCAGGCCACCATCGAAAGGGAATCCGGTTAATATTC CGGAACCTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGTGAGTCCTGGGAGG AGTTATCTTTTCTTCTTAACAGCTTATCACCCCGGAATTGGTTTATCCGGAGATGGGGTCTTATGGCTGG AAGAGCCCAGCACCTTTGCTGGGTCCGGTGCGCTTACGACGGCCCTTGAAAATCCACAGGAAGGAATAGT TTTCATGCCAGGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAAT GTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGTGGT GAGGGCCTTTGTCAGACGCGGCGGGCGTGCTGGCGGACTGTCTGGTGGGGCTTGCTCTGCTAGACGGACT GCTAGTGTGCCCTGTCGTAGACGGCATTGGTAGGTCTTTTCGACCGTCGCTTGCCACAATTAACGATCAA CTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGT GATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGG TAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCAT GAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCGAAGGGAACGGGCTT CGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACATAGAG GGTGTAGGATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATAGTTTCTTTACTTATTCAA TTAAGCGGAACTGGAATTCATTTTCCACATTCTAGCATTCAAAGTCTTTTACAGACCGATCCGGGTTGAA GACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTCCTAAGGGG GACTCATGGAGAACAGAAATCTCCAGTAGAATAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGT GAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTATTCCCTCTGAATTTGAGGCTAGAGGTGCCAGA AAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCG ATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAA CGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTA ATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGC CGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGAT TCCTTCCCTCACACAATATAGATGGATACGAATAAGGCACTTTTAGTGTCGCTGAACCATAGCAGACTGG CAATGGTGTCCTTAGCGGAAAGGCTTTGGGCGCTTGCCGGTGAATTGCAATGTCATTTTGCGTGAGGATA AATCATTTGTATACGACTTAAATGTACAACGGGGTATTGTAAGCAG >gi|913748844|ref|NG_042625.1| Kazachstania viticola NRRL Y-27206 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTAGTACCTT TGGTGCTCGAGTTGTAATTTGTAGAGGGATACTTTGGGGCCGTTCCTTGTCTATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTGTGGCGAGGAGTGCGGTTCTATGTAAAGTGCCTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGTGCCCCATACTCCTTGTGGGTGTGGGAATCTCGC AGCTCACTGGGCCAGCATCAGTTTTGGTGGCAGGATAAAACGCTTGGAATGTGGCTTGCTTCGGGAAGTG TTATAGCCAAGTGTCATACTGCCAACCGGGACTGAGGACTGCGACATTCGTCAAGGATGCTGGCATAATG GTTAAATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAAC CCGTACGCGTAATGAAAGTGAACGTAGATTAGGGCCCTGTTATGGGGTGCATAATCGACCGATCCTGATG AATTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGG GTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGG TATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGA AGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTACCGGGGTTGAAATGACCTTGACCTATT CTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTA GTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATA CACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAA TCCGCTAAGGAATGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGT GTTACCTATACTCCACCGTCAGGGTTAAAATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACG AAGCCTAGGATGTGAATCCGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAA TGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCC TAAGAGATGGGGAAACTCCGTTTCAAAGGTCTGATTTATGCAGACCACTATCGAAAGGGAATCCGGTTAA AATTCCGGAACCTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCAGAAGCCCTG GGAGGAGTTATCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATG GCTGGAAGAGGTGAGCATCATTGCTTGCTCCGGTGCGCTTGTGACGGCCCGTGAAAATCCACAGGAAGGA ATAGTTTTCATGCCAGGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGA ATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTCGG GCAGTGAGGGCCTTGGTCAGACGCGGTGGATGTGCTTTTGGACTGCTATTCGGGGCTTGCTCTGTTTGGC GGACTGATTGTGTGTCTTGCTGTAGACGGTCTTGGTAGGTCTCTTGTAGACCGTCGCTTGCTGCGATTAA CGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTC AGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAA GCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGA CGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAA CGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGA CATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTCTTTACT TATTCAATAAAGCGGAGCTGGAATTCATTTTCCACGTTCTAGCGTTTAAAGTTCCATTAGGAGCTGATCC GGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTC CTAAGGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATT TTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAG GTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTG ATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTA ATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTACCG CAATAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCA GGCATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAA GCGGTGATTTCTTTCCCTCACACAATATAGATGGATACGAATAAGGCGTCTTTATGGCGTCGCTGAACCA TAGCAGGTTGGTAACGGTGCTCTTAACGGAAAGGTTTTGGGTGCTTGCCGACGAATTGCAATGTCATTTT GCGTGAGGATAAATCATTTGTATACGACTTAGATGTACAACGGGGTATTGTAAGCAGT >gi|913748843|ref|NG_042624.1| Naumovozyma dairenensis NRRL Y-12639 28S rRNA, partial sequence; from TYPE material AACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTTC GGTGCCCGAGTTGTAATTTGTAGAGGGATACTTTGGGGCTGGTCCTTGTCTATGTTCCTTGGAACAGGAC GTCATAGAGGGTGAGAATCCCGTGTGGCGAGGAACCCAGTTCTTTGTAAAGTGCCTTCGAAGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGCGCCCTCTGCTCCTTGTGGGTGGGGGACTCTCGCA GTTCACTGGGCCAGCATCAGTTTTGGCGGTAGGATAAATCCTGAGGAACGTGGCTTGCTTCGGCGAGTGT TATAGCCTCTGGGAATACTGCCAGCCGGGACTGAGGACTGCGACATTCGTCAAGGATGCTGGCATAATGG TTATATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACC CGTACGCGTAATGAAAGTGAACGTAGGTTGGGGCCTCGCAAGAGGTGCACAATCGACCGATCCTGATGTT TTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTG AAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTAT AGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGC TCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATCGGGGATGAAATGTCCTCAACCTATTCTC AAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTG GGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACAC GCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCC GCTAAGGAATGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTT ACCTATACTCCGCCGTCAGGGTTGAATTGATGCCCTGACGAGTAGGCAGGCGTAGAGGTCAGTGACGAAG CCTAGGCTGTGAAGCCGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGA GAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAA GAGATGGGGAAACTCCGTTTCAAAGGTCTGATTTATGCAGGCCACTATCGAAAGGGAATCCGGTTAAAAT TCCGGAACCTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCACGAGCCCTGGGA GGAGTTATCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATGGGGTCTTATGGCT GGAAGAGGCCAGCACCTTTGCTGGCTCCGGTGCGCGCGTGACGGCCCTTGAAAATCCACAGGAAGGAATA GTTTTCATGCCAGGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATA ATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTCGGGCA GTGAGGGCCTTGGTCAGACGCAGCGGGCGTGCTTGTGGACTGTTCGGTGGGGCTTGCTCTGCTGGACGGA CTGCTTGCGTGCCTTGTTGTAGACGGCCTTGGTAGGTCCCTTGTGGACCGTCGCTTGCTGCAATTAACGA TCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGA AAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCG CGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGC GCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGG GCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACAT AGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATAGTTTCTTTACTTAT TCAATGAAGCGGAGCTGGAATTCATTTTCCACGTTCTAGCGTTCAAAGTTCCATTAGGAACCGATCCGGG TTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTCCTA AGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTC AGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTG CCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATT CTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATA GGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTACCGCAA TAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGC ATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCG GTGATTTCTTTCCCTCACACAACATAGATGGATACGAATAAGGCGTCCTTGTGTCGTCGCTGAACCATAG CAGGCTGGTAACGGTGCTCTTGACGGAAAGGTCTTGGGTGCTTGCCGGCGGATTGCAATGTCATTTTGCG TGAGGATAAATCATTTGTATACGACTTAGATGTACAACGGGGTATTGTAAGCAGTAGAGTAG >gi|913748841|ref|NG_042623.1| Saccharomyces cerevisiae NRRL Y-12632 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTT CGGTGCCCGAGTTGTAATTTGGAGAGGGCAACTTTGGGGCCGTTCCTTGTCTATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTGTGGCGAGGAGTGCGGTTCTTTGTAAAGTGCCTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGTGCCCTCTGCTCCTTGTGGGTAGGGGAATCTCGC ATTTCACTGGGCCAGCATCAGTTTTGGTGGCAGGATAAATCCATAGGAATGTAGCTTGCCTCGGTAAGTA TTATAGCCTGTGGGAATACTGCCAGCTGGGACTGAGGACTGCGACGTAAGTCAAGGATGCTGGCATAATG GTTATATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAAC CCATACGTGTAATGAAAGTGAACGTAGGTTGGGGCCTCGCAAGAGGTGCACAATCGACCGATCCTGATGT CTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTA TAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAG CTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTTCCGGGGTCGAAATGACCTTGACCTATTCT CAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGT GGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTAGAGTTAAGGTGCCGGAATACA CGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATC CGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGT TACCTATACTCTACCGTCAGGGTTGATATGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAA GCCTAGACCGTAAGGTCGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATG AGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTA AGAGATGGGGAAGCTCCGTTTCAAAGGCCTGATTTTATGCAGGCCACCATCGAAAGGGAATCCGGTTAAG ATTCCGGAACCTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCGCGAGCCCTGG GAGGAGTTATCTTTTCTTCTTAACAGCTTATCACCCCGGAATTGGTTTATCCGGAGATGGGGTCTTATGG CTGGAAGAGGCCAGCACCTTTGCTGGCTCCGGTGCGCTTGTGACGGCCCGTGAAAATCCACAGGAAGGAA TAGTTTTCATGCCAGGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAA TAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTCGGG TAGTGAGGGCCTTGGTCAGACGCAGCGGGCGTGCTTGTGGACTGCTTGGTGGGGCTTGCTCTGCTAGGCG GACTACTTGCGTGCCTTGTTGTAGACGGTCTTGGTAGGTCTCTTGTAGACCGTCGCTTGCTACAATTAAC GATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCA GAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAG CGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGAC GCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAAC GGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGAC ATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATAGTTTCTTTACTT ATTCAATGAAGCGGAGCTGGAATTCATTTTCCACGTTCTAGCATTCAAGGTCCCATTCGGGGCTGATCCG GGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGATGTCC TAAGGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTT TCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGG TGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGA TTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAA TAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTACCGC AATAGTAATTGAACTTAGTACGAGAGGAACAGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAG GCATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAACG CGGTGATTTCTTTGCTCCACACAATATAGATGGATACGAATAAGGCGTCCTTGTGGCGTCGCTGAACCAT AGCAGGCTAGCAACGGTGCACTTGGCGGAAAGGCCTTGGGTGCTTGCTGGCGAATTGCAATGTCATTTTG CGTGGGGATAAATCATTTGTATACGACTTAGATGTACAACGGGGTATTGTAAGCAGTAGAGTAG >gi|913748838|ref|NG_042622.1| Zygotorulaspora mrakii NRRL Y-12654 28S rRNA, partial sequence; from TYPE material AAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTC TTGGTGCCCGAGTTGTAATTTGTAGAGGCGACTTTTGGGGCCGGTCCTTGTCTATGTTCCTTGGAACAGG ACGTCATGGAGGGTGAGAATCCCGTGTGGCGAGGACAGACGAGCTCCTTGTAAAGCGTTCTCGAAGAGTC GAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCG ATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATT GTTGAAAGGGAAGGGCATTTGATCAGACATGGCGTTTTGCGCCCCCTGCTCCTTGTGGGCGGGGGACTCT CGCAGCTCGCTGGGCCAGCATCGGTTTTTGCGGCAGGAGAAAGCCCGGGGAACGTGGCTTGCGCCTTTTG GGGCAAGTGTTTATAGCCCTGGGGAATACTGCCAGCGGGGACCGAGGACTGCGGTGCTTGTCGCCAAGGA TGCTGGCATAATGGTTATATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGT TTGGGTGTGAAACCCGTACGCGTAATGAAAGTGAACGTAGGTTGGGGCCTCGCAAGAGGTGCACAATCGA CCGATCCTGAAGTGTTCGGAAGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTAT GCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCG TCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTC AGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTACTGGGGTTGAAATGAC CTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATG AAGAGCTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAG GTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCAT GGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGG CGCTCAAGCGTGTTACCTATACTCCACCGTCAGGGTTGAACGAATTGTGCCCTGACGAGTAGGCAGGCGT GGAGGTCAGTGACGAAGCCCAGGCCGTAAGGCCGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGT AGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGT GGGTTAGTCGATCCTAAGAGATGGGGAAGCTCCGTTTCAACGAGCCTGGTTTATTTATATTTCAGGCCGC CATCGAAAGGGAATCCGGTTAATATTCCGGAACCTGGATGTGGATTCTTCACGGCAACGTAACTGAATGT GGAGACGTCGGCGTGGGCCCTGGGAGGAGTTATCTTTTCTTCTTAACAGCTTATCACCCCGGAATTGGTT TATCCGGAGATGGGGTCTTATGGCTGGAAGAGGCGGGCACCTTGCCCGCTCCGGTGCGCCCACGACGGCC CTTGAAAATCCACAGGAAGGAATAGTTTTCACGCCAGGTCGTACTGATAACCGCAGCAGGTCTCCAAGGT GAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATA AGGATTGGCTCTAAGGGTCGGGCAGTGAGGGCCTTTGTCAGACGCCGCCGGGCGTGCGTGCGGGCTGTGC GTGGCCTCTTTCGGGGGGCTGTGCACGGGCTGCGCGTGTGCCTGGTGGTAGACGGCGCTGGTAGGCGCAC CTCGGTGTCGCCGTCGCTTGCTGCGATTAACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACT GTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCT CTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGG TAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATC TACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGA GCTTGACTCTAGTTTGACATTGTGAAGAGACATAGAGGGTGTAGCATAAGTGGGAGCTTCGGCGCCAGTG AAATACCACTACCTTTATAGTTTCTTTACTTATTCAATGAAGCGGAGCTGGAATTCGTTTTCCATGTTCT AGCATTCAAGGCTGCCCTTGTGGCGGGCCGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGG GGCGGCACATCTGTTAAACGATAACGCAGATGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTA GAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTAT CGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGT GGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGC AGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGA CAGGTTAGTTTTACCCTACTGATGAATGTTGCCGCAATAGTAATTGAACTTAGTACGAGAGGAACAGTTC ATTCGGATAATTGGTTTTTGCGGCTGTCCGATCGGGCATTGCCGCGACGCTACCATCCGCTGGATTATGG CTGAACGCCTCTAAGTCAGAATCCATGCTAGAACGCGGTGATTCTTTTGCCTCACACAAGGTAGATGGAT ACGAATAAGGCGTCCTTGTGGCGTCGCTGGACCATAGCAGGCCGGCAACGGTGCTCTTGGCGGAAAGGCC TTGGGTGCTTGCCGGCGGATTGCAATGTCATTTTGGGTGGGGATAAATCATTTGCATACGACTTGAATGT ACAACGGGGTATTGTAAGCAGT >gi|913748836|ref|NG_042621.1| Nakaseomyces delphensis NRRL Y-2379 28S rRNA, partial sequence; from TYPE material AAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTACCTT TGGTGCCCGAGTTGTAATTTGTAGAGTACCACTTTGGGACTATACTTTGCCTATGTTCCTTGGAACAGGA CGTCATGGAGGGTGAGAATCCCGTGTGGCGAGGGTGTTAGTTCTTTGTAAAGGGTGCTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCATTTGATCAGACATGGCTGCTTTTCGCCCCCCTGCTCCTTGTGGGCGGGGGGACTCT CGAGGGCAGCTGGGCCAGCATCAGTTTTTGCGGTGCGACAAAACTCCGGGAATGTAGCTGTCTGCTTCTG TGGGCATGTGTTATAGACCGGGGGAATAGCGCCAGCGGGGACTGAGGACTGCGATACTTGTTATCTAGGA TGCTGGCATAATGGTTATATGCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGT TTGGGTGTTAAACCCGTACGCGTAATGAAAGTGAACGTAGGTTGGGGCCCTCTCGGGGGTGCACAATCGA CCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTAT GCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCG TCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTC AGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTACCGGGGTTGAAATGAC CTTGACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATATGAATG AAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTAGAGTTAAG GTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCAT GGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGG CGCTCAAGCGTGTTACCTATACTCTACCGTCAGGGTTGAACAGAGGCTCTGACGAGTAGGCAGGCGTGGG GGTCAGTGACGAAGCCTAGGCCGTAAGGTCGGGTCGAACGGCCCCTAGTGCAGATCTTGGTGGTAGTAGC AAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGG TTAGTCGATCCTAAGAGATGGGGAAGCTCCGTTTCAACGGCCTGATTTCATTGCAGGCCACCATCGAAAG GGAATCCGGTTAATATTCCGGAACCTGGATATGGATTCTTCACGGCAACGTAACTGAATGTGGAGACGTC GGCGCGAGCCCTGGGAGGAGTTATCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAG ATGGGGTCTTATGGCTGGAAGAGGCGGGCTCATATGCCCGCTCCGGTGCGCTCGCGACGGCCCTTGAAAA TCCACAGGAAGGAATAGTTTTCATGCCAGGTCGTACTGATAACCGCAGCAGGTCTCCAAGGTGAACAGCC TCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGG CTCTAAGGGTCGGGCAGTGAGGGCTCTGGTCAGACGCCGCGGGGCTGGTTGCGGACTGCCGGAGGGGGCT TGCTCCTTCTGGCGGACTGCTTCGGGCCCCTGTGGTAGACGGTCTTGGTAGGTCTTTCCCGCAAGGGTCA GGCCGTCGCTTGCTGCGATTAACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATT AAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGT CAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAA TGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCT AGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACT CTAGTTTGACATTGTGAAGAGACATAGAGGGTGTAGCATAAGTGGGAGCTCCGGCGCCAGTGAAATACCA CTACCTTTATAGTTTCTTTACTTATTCAATTAAGCGGAGCTGGAATTCGATTTCCACGTTCTGGCTTTCA ACGCGCCTCTCGGCGCCGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCT GTTAAACGATAACGCAGATGTCCTAAGGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGT AAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGT CCCTCTGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCG TTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAA GCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTT ACCCTACTGATGAATGTTGCCGCAATAGTAATTGAACCTAGTACGAGAGGAACAGTTCATTCGGATAATT GGTTTTTGCGGCTGTCTGATCAGGCAATGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCT AAGTCAGAATCCATGCTAGAACGCGGTGATTCTTTGCCCTGCACAACGTAGAAGGATACGAATAAGGCGC ACTTGTTGCGCCGCTGAACCATAGCAGGCTGGCGCTGGTGCACTTGGCGGAAAGGCCTTGTGTGCTTGCC GGCGGATTGCAATGTCATTTTGCGCGGGGATAAATCATTTGTATACGACTTAGATGTACAACGGGGTATT GTAAGCAG >gi|913748834|ref|NG_042620.1| Auratiopycnidiella tristaniopsis CPC 16371 28S rRNA, partial sequence; from TYPE material TACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCG AGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCTTGGCCCGAGTTGTAATTTGCAGAGGATGCTTCT GGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTATGGTTGGACACC AAGCCTGTGTGAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATCTC TTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTT GAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTATGACCAGACTTGCGCCGGGCGG CTCATCCAGGGTTCTCCCTGGTGCACTCCGCCCGGCTCAGGCCAGCATCGGTTCTCGCTGGGGGATAAGA ACGGCAGGAACGTGGCCCCCTCTCGGGGGGGTGTTATAGCCTGTCGTACGATATCCTGGCGGGGACCGAG GTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTC GTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCGCACGCGTAATGAAAGTGAAATTAGGTGAGAGCTTCG GCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAG ACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAACTGTCTAGTAGCTGGTTACCGCC GAA >gi|913748833|ref|NG_042619.1| Aurantiosacculus eucalyptorum CPC 13229 28S rRNA, partial sequence; from TYPE material TTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAAC AGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCTCGGCCCGAGTT GTAATTTGCAGAGGATGTTTCTGGCGAGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTGA GAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTG CTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTG TGACCAGACTTGTGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCGGTTCAGGCCAGCAT CGGTTCTCGTTGGGGGATAAGAACGGCAGGAACGTGGCCCTCCTTCGGGTGGGTGTTATAGCCTGCCGTA CGATACCCTGATGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTC TTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCGCACGCGTAATGAAA GTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAG TTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGG AGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAAC TGTCTAGTAGCTGGTTACCGCCG >gi|913748832|ref|NG_042618.1| Aurantiosacculus acutatus CPC 13704 28S rRNA, partial sequence; from TYPE material TTGACCTCGGATCAGGTAGGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAAC AGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCTCGGCCCGAGTT GTAATTTGCAGAGGATGTTTCTGGCGAGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTGA GAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTG CTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTG TGACCAGACTTGTGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCGGTTCAGGCCAGCAT CGGTTCTCGTTGGGGGATAAGAACGGCAGGAACGTGGCCCTCCCTCGGGAGGGTGTTATAGCCTGCCGTA CGATACCCTGATGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTC TTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCGCACGCGTAATGAAA GTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAG TTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGG AGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCGAAC TGTCTAGTAGCTGGTTACCGCCG >gi|913748830|ref|NG_042617.1| Pseudoveronaea ellipsoidea 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAACCTGGCGCAAGCCCGGATTGTAATTTGTAGAGGATGCTTCTGGGTAGCGGCCGGTCTAAG TTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGACCGGCCCGCGCCCTCTACGTAGCTC CTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACC GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAA GCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCGGCGGTGTTCCGCCGGGCTTCTGCC CGGTCTACTCACCGTCAGCAGGCCATCATCGTCTAGGGCCGCCGGAGAAACCGTGAGGAATGTGGCTCCC TCGGGAGTGTTATAGCCTCTCGTGATGCGGCGCGCCCTGGGCGAGGTCCGCGCTTTGCAAGGATGATGGC GTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTG TCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT >gi|913748828|ref|NG_042616.1| Pseudoveronaea obclavata 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAACCTGGCGCAAGCCCGGATTGTAATTTGTAGAGGATGCTTCTGGGTAGCGGCCGGTCTAAG TTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGACCGGCCCGCGCCCTCTACGTAGCTC CTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACC GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAA GCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCGGCGGTGTTCCGCCGGGCTTCTGCC CGGTCTACTCACCGCCAGCAGGCCATCATCGTCTAGGGCCGCCGGAGAAACCGTAAGGAATGTGGCTCCC TCGGGAGTGTTATAGCCTCGCGTGATGCGGTGCGCCCTGGGCGAGGTCCGCGCTTTGCAAGGATGATGGC GTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTG TCAAACCCCTACGCGCAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT >gi|913748827|ref|NG_042615.1| Ramichloridium luteum 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGGTAGCGGCCGGTCTAAG TTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTATGTGATCGGCCCGCGCCCTCTACGTAGCTC CTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACC GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACA GCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCGGTGTTCCGCCGGTCTTCTGAC CGGTCTACTCGCCGCGGGCAGGCCATCATCGTCTGGGGCCGCCGGAGAAACCGTCAGGAATGTAGCTCCC TCGGGAGTGTTATAGCCTGGCGACATGCGGCGCGCCCCGGGCGAGGTCCGCGCACTGCAAGGATGATGGC GTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTG TCAAACCCCTGCGCGTAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT >gi|913748825|ref|NG_042614.1| Zasmidium angulare 28S rRNA, partial sequence; from TYPE material GCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAACCTGGCGCTTGCGTCCGGATTGTAAT TTGCAGAGGATGCTTCTGGGCAGCGGCCGGTCTAAGTTCCTTGGAAAAGGACGTCATAGAGGGTGAGAAC CCCGTATGTGACCGGCGCGCACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTC TAAATGGGAGGTAAATTTCTTCTAAAGCTAAATATTGGCCCGAGACCGATAGCGCACAAGTAGAGTGATC GAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTCCCA CCAGACTCCGCGGCGGTGTTCCGCCGGTCTTCTGACCGGTCTACTCGCCGCCGTGGGGCCAGCATCGTCT GGGGCCGCCGGATAAGACCGCAGGAATGTAGCTCATTGAGTGTTATAGCCTGCGGGGATGCGGCGCGCCC CGGGCGAGGTCCGCGCTTCGGCAAGGATGCTGGCGTAATGGTGGGCAGCGGCCCGTCTTGAAACACGGAC CAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTG GGAGCTTCGGCGCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGG TTCTGACGTGCAAATCGATCGTCAAATTT >gi|913748824|ref|NG_042613.1| Ramichloridium cucurbitae 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAATCTGGCGCAAGCCCGAATTGTAATTTGTAGAGGATGCTTCTGGGTAGCGGCCGGTCTAAG TTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTATGTGATCGGCCCGCGCCCTCTACGTAGCTC CTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACC GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACA GCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCGGTGTTCCGCCGGTCTTCTGAC CGGTCTACTCGCCGCGGGCAGGCCATCATCGTCTGGGGCCGCCGGAGAAACCGTCAGGAATGTAGCTCCC TCGGGAGTGTTATAGCCTGGCGACATGCGGCGCGCCCCGGGCGAGGTCCGCGCACTGCAAGGATGATGGC GTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTG TCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT >gi|913748823|ref|NG_042612.1| Ramichloridium punctatum 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAATCTGGCGCAAGCCCGAATTGTAATTTGTAGAGGATGCTTCTGGGTAGCGGCCGGTCTAAG TTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTATGTGATCGGCCCGCGCCCTCTACGTAGCTC CTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACC GGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACA GCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCGGTGTTCCGCCGGTCTTCTGAC CGGTCTACTCGCCGCGGGCAGGCCATCATCGTCTGGGGCCGCCGGAGAAACCGTCAGGAATGTAGCTCCC TCGGGAGTGTTATAGCCTGGCGACATGCGGCGCGCCCCGGGCGAGGTCCGCGCACTGCAAGGATGATGGC GTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTG TCAAACCCCTACGCGCAATGAAAGTGAACGGAGGTGGGAGCTTCGGCGCACCATCGACCGATCCTGATGT CCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT >gi|913748820|ref|NG_042611.1| Octaviania durianelloides KPM NC-0017829 28S rRNA, partial sequence; from TYPE material AACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCAATCTT AATTGGTTGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGCCCGTGTACAAGTCTCCTGGAAGG GAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACAACCAGGGCTTTATGTGTTGCGCTCTCGAC GAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGA GACCGATAGTGAACAAGTACCGTGAGGGAAAGATCAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTG AAATTGCTGAAAGGGAAACGCTTGATGTCACTCGCGTTGGCTGGGGGTCAACCTTGCTTAATTGCTCGGT GTAATTCCTTGTCGACGGGTCAGCATCAATTTCGGTCGTCGTACATAGGCAAGGGGAAAGTGGCCATTAT TCGTAATGGTGTTATAGATCTTTGTCGGTTACGCGCGGTCGGGATTGAGGAACTCTGCATGGTTAATTCC GTGCAAGGGATGCTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGC ATGCGAGTGTTTGGGTTTGCAAACCCGAGTGCGAAATGAAAGTGAAAGTTGAGACCTTCATCATGGAGGG CATCGACGCCCGGACCTGAGTCTTTGACTACGGATCTGCGGTAGAGCATGTATGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGTCAGAGGAAACTCTGATGGAGGCTCGTAGCGATTCTGACGTGC AAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCAT >gi|913748819|ref|NG_042610.1| Megasporoporiella lacerata IFP Yuan 3880 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCCTTGGCCGTCCGAGTT GTAGTCTGGAGAAGTGCTTTCCGTGCTGGACCGTGTATAAGTCTCTTGGAACAGAGCGTCATAGAGGGTG AGAATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAA TGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTA CCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAAC GCTTGAAGTCAGTCGCGTCGTTTGGAACTCAGCCTGGCTTTTGCTTGGTGCACTTTCCGAATGACGGGCC AGCATCGATTTTGACCGCCGGAGAAGGGTTGGAGGAATGTGGCACCTCCGGGTGTGTTATAGCCTTCAGT CGCATACGGCGGTTGGGATCGAGGAACGCAGCGCGCCGCAAGGCAGGGGTTCGCCCACTTTCGCGCTTAG GATGCTGGCGTAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGT GTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCTCTGTCGTGGAGGGCATCGACGC CCGGACTTGACGTTTTCTGACGGATCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTAT GCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCG TCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTC AGGATAGCAGAAACTCGTATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAAC CTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCACTTGATTGGACCGCTCGGTGATTGAG AGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTG CCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGA AGTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGC TCAAGCGTGTTACCCATACCTCGCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGT CAGTGAAGAAGCCTAGGCAG >gi|913748818|ref|NG_042609.1| Megasporoporiella pseudocavernulosa IFP Yuan 1270 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTGTTGGCCGTCCGAGTTG TAGTCTGGAGAAGTGCTTTCCGCGCTGGACCGTGTACAAGTCTCTTGGAACAGAGCGTCATAGAGGGTGA GAATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAAT GCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTAC CGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACA CTTGAAGTCAGTCGCGTCGTTTGGAACTCAGCCTTGCTTTTGCTTGGTGCACTTTCTGAATGACGGGCCA GCATCAATTTTGATTGTCGGATAAGGGTTGGGGGAATGTGGCACCTTCGGGTGTGTTATAGCCCTCAGCC GCATACGGCGGTTGGGATTGAGGTTCGCAGCGCGCCGCAAGGCAGGGGTTTACCCACTTTCGCGCTTAGG ATGCTGGCATAATGGCTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATACCTGCGAGTG TTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCTCTGTCGTGGAGGGCATCAACGCC CGGACCTGACGTTTTCTGACGGTTCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATG CCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGT CAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCA GGATAGCAGAAACTCATATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACC TTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCGCTTGATTGGACCGCTCGGTGATTGAGA GTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTAAGGTGC CGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAA GTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCT CAAGCGTGTTACCCATACCTCACCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGGGAGGTCA CGAAGAAGCCTAGGCAG >gi|913748817|ref|NG_042608.1| Megasporoporia minor BJFC Dai 12170 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTTTGGCCGTCCGAGTT GTAGTCTGGAGAAGTGCTTTCCGCGCTGGACCGTGTATAAGTCTCTTGGAACAGAGCGTCGTAGAGGGTG AGAATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAA TGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTA CCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAAC GCTTGAAGTCAGTCGCGTCTGCCGGAACTCAGCCTTGCTTTTGCTTGGTGCACTTTCCGGTTGACGGGCC AGCATCGATTTTGACCGTCGGAAAAGGGCTGGAGAAATGTGGCACCTCCGGGTGTGTTATAGTCTTCAGT CGCATACGGCGGTTGGGATCGAGGAACGCAGCGCGCCGCAAGGCAGGGGTTCGCCCACTATCGCGCTTAG GATGCTGGCGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGT GTTTGGGTGGTAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCTCTGTCGTGGAGGGCATCGACGC CCGGACCTGACGTTCTCTGAAGGATCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTAT GCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCG TCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTC AGGATAGCAGAAATCATATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACC TTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCGCTTGATTGGACCGCTCGGCGATTGAGA GTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGC CGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAA GTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCT CAAGCGTGTTACCCATACCTCGCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGTC AGTGAAGAAGCCTAGGCAG >gi|913748815|ref|NG_042607.1| Megasporoporia bannaensis BJFC Dai 12306 28S rRNA, partial sequence; from TYPE material CCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTTTGGTCGTCCGAGTT GTAGTCTGGAGAAGTGCTTTCCGCGCTGGACCGTGTATAAGTCTCTTGGAACAGAGCGTCATAGAGGGTG AGAATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAA TGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTA CCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAAC GCTTGAAGTCAGTCGCGTCTGCCGGAACTCAGCCTTGCTTTCGCTTGGTGCACTTTCCGGTTGACGGGCC AGCATCGATTTTGACCGTCGGAAAAGGGTTGGAGAAATGTGGCACCTTCGGGTGTGTTATAGTCTTCAGT CGCATACGGCGGTTGGGATCGAGGAACGCAGCGCGCCGCAAGGCAGGGGTTCGCCCACTTTCGCGCTTAG GATGCTGGCGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGT GTTTGGGTGGTAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCTCTGTCGTGGAGGGCATCGACGC CCGGACCTGACGTTCTCTGAAGGATCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTAT GCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCG TCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTC AGGATAGCAGAAACTCATATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAAC CTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCGCTTGATTGGACCGCTCGGCGATTGAG AGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTG CCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGA AGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGC TCAAGCGTGTTACCCATACCTCGCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGT CAGTGAAGAAGCCTAGGCAG >gi|913748814|ref|NG_042606.1| Entoloma subaraneosum GDGM 28823 28S rRNA, partial sequence; from TYPE material CGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGTGGGAAAAGCTCAAATTTAAAA TCTGGCAGTCTCTGATTGTCCGAGTTGTAATCTAGAGAAGCATTATCCGCGCTGGACCGTGTACAAGTCT CCTGGAATGGAGCGTCGCAGAGGGTGAGAATCCCGTTTTCGACACGGACTACCAGAGCTTTGTGATGTGC TCTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATT GGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACA GTACGTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCGCATTAATCAGGAATCAACCTTGTCTTTCG CTTGGTGCATTTTCTGATTGATGGGTCAGCATCAATTTTGACCAGTAGAAAAAGGTTGAGGGAATGTGGC ATCTTCGGATGTGTTATAGCCCTCGATTGCATACATTGGTTAGAATTGAGGAATTCAGCACGCCGCAAGG CCGGATTTTAAATCACGCTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACG GACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGAAAAACTCAAGCGCGTAATGAAAGTGATAGTTG GGATCTCTGTCATGGAGAGCACCGACACCCAGACCAGACCTTCTGTGACGGTTCTGCGGTAGAGCATGTA TGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTC GTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTA GT >gi|913748813|ref|NG_042605.1| Sabuloglossum arenarium ILLS 61043 28S rRNA, partial sequence; from verified material CGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTG AAGCGGCAACAGCTCAAATTTGAAATCTGGTTCCTTTGGAGCCCGAGTTGTAATTTGTAGAGGATGCTTC GGGTTTGGCCCCGGCCTAAGTTTCTTGGAACAGAACGTCATAGAGGGTGAGAATCCCGTATGTGGCTGGA GGTCTATGCCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAA ATTTCATCTAAAGCTAAATACCGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGC ACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTTGCCCTT AGCTGATCAACCGGTGACTCTCACCGGTGCACTCTGCTTAGGTCAGGCCAGCATCGGTTAGGCGGTTGGA GAAAGGTCGCGGGAATGTGGCTCCCTCCGGGGAGTGTTATAGCCCGTGGCGTCATGCGACCAGCCTGGAC CGAGGACCGCGCCTTTGTGCTAGGATGCTGGCGTAATGGTCGTAAGCGACCCGTCTTGAAACACGGACCA AGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAGTGAACGGAGGTGGG AACCCTTAAGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTG GGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGC GGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGC TGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTA GAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTA GTTGAACGTGGACATTCGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG >gi|913748811|ref|NG_042604.1| Anhellia nectandrae VIC 31767 28S rRNA, partial sequence; from TYPE material AGTGAACGGCACAGGCTCAAATTTGAAATCTGGCCCCCTCGGGGCCCGAGTTGTAATTTGGAGAGGATGC TTTTGGGTGGCCGCCGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGCC GGAAAGGCGCCCTTCGTAAAGCTCCTTCGACGAGTCGGGTTGTTTGGGAATGCAGCCCTAAATGGGAGGT AAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAA GCACTTTGGAAAGAGAGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCGATCAGTCTCGACG GCGGCCGTTCGACCTCTCTTCTGAGTGGTTTACTCGGCCGCCGCCGGGCCAGCATCAGTTTCGGCGGTCG GATAAAGGCGGCGGGAATGTGGCCCCCCCGGGGGTGTTATAGCCCGCCACGTAATACGACCAGCCGGGAC TGAGGTCCGCGCTTCGGCTAGGATGCTGGCAAAATGGTCGTAAGCGGCCCGTCTTGAAACACGGACCAAG GAGTCTAACATCTACGCGAGTGTTCGGGTGTCAAACCCGTGCGCGCAATGAAAGTGAACGGAGGTGGGAA CCCGCAAGGGGGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCGTAGCTGTTGGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGG TTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTG GTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGA GGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTTCTTAGT TGAACGTGGGCATTAGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGAT GAACCGAACGCGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTA GACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAA CTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCTCGCCGCCAGGGCAGATGCTATGCCCT GGCGAGTAGGCAGGCGTGGAGGCCCGTGACGAAGCCTTGGGGGTGACCCCGGGTAGAACGGCCTCTAGTG CAATCTTGG >gi|913748809|ref|NG_042603.1| Bandoniozyma aquatica CBS 12527 28S rRNA, partial sequence; from TYPE material AGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGATGAGCTCAAATTTGA AATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCGTGTCCAAGT CCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTCTGTGATACG TCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAC AGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGACTGTTGGGCTCAGCAGGTTCTGCCT GTGTATTCCCCTCAGTCGGGTCAACATCAGTTTTGACCGGTGGATAAGGGCAGCAGGAATGTGGCACCTC CGGGTGTGTTATAGCCTGTCGTCGCATACATCGGTTGAGACTGAGGAACGCAGCTCGCCCTTGAGGCCGG GGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGT >gi|913748808|ref|NG_042602.1| Mucor ellipsoideus ATCC MYA-4767 28S rRNA, partial sequence; from TYPE material AAGCATATCAATAAGCGGAGGAAAAGAAAATAACAATGATTTCCCTAGTAACGGCGAGTGAAGAGGAAAG AGCTCAAAGTTGGAACCTGTTTGGCTTAGCTAAACCGGATTGTAAACTGTAGAAACGTTTTCCTGGCACG CCAGATAAATAAGTCCTTTGGAACAGGGCATCATAGAGGGTGAGAATCCCGTCTTTGGTCTGAGCTGTTG TCTTTTGTGATACGTTTTCAAAGAGTCAGGTTGTTTGGGAATGCAGCCTAAATTGGGTGGTAAATCTCAC CTAAAGCTAAATATTTGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGA AAAGAGAGTTAAACAGTATGTGAAATTGTTAAAAGGGAACCGTTTGGAGCCAGACTGGCTTGATCGTAAT CAATCTAGGTTTCGACCTGGATGCACTTGCGGTCTATGCCTGCCAACGACAGTTCTTTCTGAAGGATAAA ACTAGGAGGAATGTGGCCCCTCGGGGTGTTATAGCCTCTTAGATAATACTTTGGATGGGACTGAGGAACG CAGTGAATGCTTATGGCGAAATTGCTAGGCGCTTTTGTTGATAGATGTTAGAATTTCTACTTCGGGTAGT GCTGATGTCTAAAGGTAAAACTCGTTTGGTTAATTTTCTATTCACTTAGGTTGTTGGCTTAATGACTCTA AATGACCCGTCTTG >gi|913748807|ref|NG_042601.1| Mucor velutinosus ATCC MYA-4766 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAAATAATAATGATTTCCCTAGTAACGGCGAGTGAAGAGGAAAGAG CTCAAAGTTGGAAACTGTTTGGCTTAGCTAAACCGTATTGTAAACTGTAGAAACATTTTCCTGGCACACC AGATTAATAAGTCCTTTGGAACAAGGCATCATGGAGGGTGAGAATCCCGTCTTTGATCTGAGTAGTTGTC TTTTGTGATATGTTTTCAAAGAGTCAGGTTGTTTGGGAATGCAGCCTAAATTGGGTGGTAAATCTCACCT AAAGCTAAATATTTGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAA AGAGAGTTAAACAGTATGTGAAATTGTTAAAAGGGAACCGTTTGGAGCCAGACTGGTTTGACTGTAATCA ACCTAGAATTCGTTTTGGGTGCACTTGCAGTCTATACCTGCCAACAACAGTTTGATTTGGAGGAAAAAAT TAGTAGGAATGTGGCCTCTCGAGGTGTTATAGCCTACTATCATACTCTGGATTGGACTGAGGAACGCAGC GAATGCCTTTAGGCGAGATTGCTGGGTGCTTTCGCTAATAAATGTTAGAATTTCTGCTTCGGGTGGTGCT AATGTTTAAAGGAGGAACACATCTAGTATATTTTTTATTCGCTTAGGTTGTTGGCTTAATGACTCT >gi|913748805|ref|NG_042600.1| Microbotryozyma collariae ATCC MYA-4666 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCT CAAATTTGAAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCCGGACCGCA CACAAGTCTGTTGGAACACAGCGTCATAGTGGTGAGAACCCCGTATATGGTGCGGATGCCCGGTGCTTTG TGATATACTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGA GTTAACAGTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCATTTCGGAGTTCAGCCGCA AGGTGTATTCTTCGATTCGCAGGCCAGCATCAGTTTTCGGGGGTGAAAAAGCGCGGTTTGAAGGTAGCAG TTTCGGCTGTGTTATAGCTTTCCGCTGGATTCACTTTTGGGGACTGAGGAACGCAGCACGCTTTTTGCAA GATTCGCGAGTCTTTCGTGCTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGA >gi|913748804|ref|NG_042599.1| Neoastrosphaeriella krabiensis MFLUCC 11-0025 28S rRNA, partial sequence; from TYPE material AACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCTCTGGGG CCCGAGTTGTAATTTGTAGAGGGCGCTTTGGCTTTGGCCGCGGTCCAAGTTCCTTGGGACAGGACGTCAC AGAGGGTGAGAATCCCGTACGTGGCTGCGGACCTTTGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTT TGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCA CAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAG GGAAGCGCTTGCAGCCAGACGTGCCCGCAGTTGCTCACCCGGGCGCATGCCCGGCGCACTCTTCTGTGGG CAGGCCAGCATCGGTTCGGGCGGTTGGAGAAAGGCCCCGGGAACGTGGCTCCCCCCGGGGAGTGTTATAG CCCGGGGCGCCCTGCGGCCAGCCCGGACCGAGGACCGCGCGTAAGCTAGGATGCTGGCGTAATGGCCGCA AGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCCATGCGAGTGTTTGGGTGTCAAGCCCGGGC GCGCAATGAAAGTGAACGGAGGTGGGAACCCCCCGAGGGCGCACCATCGACCGATCCTGATGTCTTCGGA TGGATTTGAGTAAGAGCATGGCTGTTGGGACCCGAAAGATGGTGAACTATGCTTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGC GAAAGACTAATCGAACCAT >gi|913748803|ref|NG_042598.1| Fissuroma maculans MFLUCC 10-0886 28S rRNA, partial sequence; from TYPE material CCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCGTCTCCGGGTCCGAGTTGTA ATTTGTAGAGGGTGCTTTGGCGTTGGCAGCGGTCCAAGTATCTTGGAACAGGACGTCACAGAGGGTGAGA ATCCCGTACGTGGCTGCAGGCCCTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAG CTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTG CAGCCAGACGTGCCTGCAGTTGCTCACCCGGGCCAACGCCCGGGGCACTCTTCTGCAGGCAGGCCAGCAT CAGTCCTGGCGGTCGGATAAAGGCCTTGGGAATGTAGCTCCCTTCGGGGAGTGTTATAGCCCAGGGCGCC ATGCGGCCAGCCGGGACTGAGGTCCGCGCGCATGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTC TTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGCAATGAAA GTGAACGGAGGTGGGAACCCCTCGAGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGT AAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAAT >gi|913748802|ref|NG_042597.1| Inocybe lepidotella 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTAGTAACTGCGAGTGAAGTGGGA AAAGCTCAAATTTAAAATCTGGCAGTCATTTGGCTGTCTGAGTTGTAATCTAGAGAAGTGTTGCCCGTGC TGTACCATGTACAAGTCTCCTGGAATGGAGCATCACAGAGGGTGAGAATCCCGTCTATGACATGGACTAT CAGTGCATTGTGGTATGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATGC CATCTAAAGCTAAATATTGGCGAGAGACCGATAGTGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTT TGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCACATTGACTTGA AATCAACCCTGCTTTTGTTGGGTGTAATTTCATGTTTGATGGGTCAGCATCAATTTTGATTGCTGGATAA GGTCATTGGGAATGTGGCATCTTTGGATGTGTTATAGCCTAATGATATATACAGCAGTTGGGATTGAGGA AATTCAGCATGCTACAAGGCCGGGTTTTTAACCACGTTCATGCTTAGGATGCTGGCATAATGGCTTTAAT CGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATGTGCAAGTGTTTGGGTGGAAAACCCATGCGC GTAATGAAAGTGAAAGTTGAGATCCCTTCTGGGGAGCATTGACGCCCAGACCAGAYCTTTTGTGACGGAT CTGCGGTAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGA AACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAG ACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATATCAGAT TTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAAT ATGTAAGAACGAGGAGTCTCTTGACTGGACTTCTCGATGATTGAGAGTTTCTAGTGGGCCATTTTTGGTA AGCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTAAGGTGCCAGAATTCACACTCATCAGACACC ACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGT AACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGTGTGATACCCATACCTTGCC GTCAGTGTTGAAGTGAAGCACTGACGAGTAGGCAGGCGTGGAGGTCTAGTGAAGAAGCCTAGGCAGTGAT GCTGGGTGAAACGGCCTCTAGTGCAGATC >gi|913748801|ref|NG_042596.1| Inocybe rhodella BRG MCA3917 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTAGTAACTGCGAGTGAAGTGGGA AAAGCTCAAATTTGAAATCTGGCAGTTTTTGACTGTCCGAGTTGTAATCTAGAGAAGTGTTACCTGTGCT GGACCATGTACAAGTCTTCTGGAATGGAGCATCATAGAGGGTGAGAATCCCGTCTTCGACATGGACTGCC AGTACATTATGGTGTGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATGCC ATCTAAAGCTAAATATTGGCAAGAGACCGATAGTGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTT GGAAAGAGAGTTAAACAGTATGTGAAATTGCTAAAAGGGAAACGCTTAAAGTCAGTCGCATTGGCTAGAA ATCAGCCTTGCTTTTGCTTGGTGTATTTTCTTGTTGATGGGTCAGCATCAATTTTGACCATTGGATAAAG TCTTTGGGAATGTGGCATCTTTTGATGTGTTATAGCCCATTGTTGTATACAGTGGTTGGGATTGAGGAAC TCAGCATGCCGCAAGGGCTGGGGTTTAACCACATTCATGCTTAGGATGCTGGCATAATGGCTTTAATCGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACTCATGCGCGTA ATGAAAGTGAAAGTTGAGATCCCTGTAGTGGGGAGCATTGATGCCCAGACCAGACCTTCTGTGATGGATC TGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGA CTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATATCAGATT TATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATA TGTAAGAACGAGCTGTCTCTTGACTGGACTGCTCGATGATTGAGGGTTTCTAGTGGGCCATTTTTGGTAA GCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTAAGGTGCCGGAATTCACGCTCATCAGACACCA CAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTA ACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGATACCCATACCTCACCA TCAGTGTTGAAGTGATGCACTGATGAGTAGGCAGGCGTGGAGGTCAGTGAAGAAGCCTAGGCAGTAATGC TGGGTGAAACGGCCTCTAGTGCA >gi|913748800|ref|NG_042595.1| Octaviania etchuensis KPM NC-0017822 28S rRNA, partial sequence; from TYPE material ACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCAATCTTA ATTGGTTGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGGG AGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTATGTGTTGCGCTCTCAACGA GTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGAGA CCGATAGTGAACAAGTACCGTGAGGGAAAGATCAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAA ATTGCTGAAAGGGAAACGCTTGATGTCACTCGCGTTGGCTAGGGGTCAACCTTGCTTAATTGCTGGGCGT AATTCCTAGTTAATGGGTCAGCATCAATTTCGGTCGTCGTACATAGGCAAGGGGGAAAGTAGCCATTTAA TGGGTGTTATAGATCCTTGTCGGTTGCGTACGGTTGGGATTGAGGAGCTCTGCATGGTTAATTCCGTGCA AGGGATGCTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCATGCG AGTGTTTGGGTTAAGAAACCCGAGTGCGAAATGAAAGTGAAAGTTGAGATCTTTGTCAATAAAGAGCATC GACGCCCGGACCTGAGTCATTTTGACTAGGGATCTGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAA ATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCT >gi|913748799|ref|NG_042594.1| Octaviania yaeyamaensis KPM NC-0017819 28S rRNA, partial sequence; from TYPE material AACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCAATCTT AATTGGTTGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGG GAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTATGTGTAGCGCTCTCAACG AGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGAG ACCGATAGCGAACAAGTACCGTGAGGGAAAGATCAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGA AATTGCTGAAAGGGAAACGCTTGATGTCACTCGCGTTGGCTAGGGGTCAACCTTGCTTAATTGCTGGGCG TAATTCCTAGTTAATGGGTCAGCATCAATTTCGGTCGTCGTACATAGGCAAGGGGAAAGTAGCCATTTAA TGGTGTTATAGATCCTTGTCGGTTGCGTACGGGTTGGGATTGAGGAGCTCTGCATGGTTAATTCCGTGCA AGGGATGCTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCATGCG AGTGTTTGGGTTAGCAAACCCTTGTGCGAAATGAAAGTGAAAGTTGAGATCTTCGTCAATGAAGAGCATC GACGCCCGGACTCAAGTCTTTTGACTAGGGATCTGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGT GAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAA TCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCT >gi|913748798|ref|NG_042593.1| Octaviania hesperi KPM NC-0017793 28S rRNA, partial sequence; from TYPE material AACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCAGTCTT AACTGGCTGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGG GAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTATGTGTTGCGCTCTCGACG AGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGAG ACCGATAGTGAACAAGTACCGTGAGGGAAAGATCAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGA AATCGCTGAAAGGGAAACGCTTGATGTCCACGTTCGTTGGCTAGGGGTCAACCTTGCTTTATTGCGAGGC GTAATTTCTAGTTGACGGGTCAGCATCAGTTTCTGTCGTCGTACACAGGCAAATGGAAAGTAGCCATTTC TTATGGTGTTATAGACTTTTGTCGGATGCGCACGGTGGGGACTGAGGTGAGAGCTCTGCATGGTTAATTC CGTGCAAGAGGATGCTGGCAAAATGGCATTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAT GCCTGCGAGTGTTTGGGTTTGCAAACCCGAGTGCGTAATGAAAGTGAAAAGTCGAGACCTCCGTCATGGA GAGCACCGACGCCCGGACCTGAGTCTTTGACTATGGATCTGCGGTAGAGCATGCATGTTGGGACCCGAAA GATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACG TGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCT >gi|913748797|ref|NG_042592.1| Octaviania decimae KPM NC-0017763 28S rRNA, partial sequence; from TYPE material CTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCAGTCTTAA TTGATTGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCGTGTACAAGTCTCCTGGAAGGGA GCATCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTATGTGTAGCGCTCTCAACGAG TCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGAGAC CGATAGCGAACAAGTACCGTGAGGGAAAGATCAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAA TTGCTGAAAGGGAAACGCTTGATGTCCAGTCGCATTAGTTGGGGGTCAACCTTAATAGGGTGTAATTCCT AGTTAATGGGTCAGCATCAGTTTCGGTCGTCGTACAAAGGCGAAGGGAAAGTAGCACTTCTATTAGGGGT GTGTTATAGACCCTCGTCGGATGCGTGCGGTCGGGACTGAGGAACTCTGCACATATTTGTGCAAGGGATG CTGGCATAATGGCATTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTT GGGTAATTAAATCCGAGTGCGAAATGAAAGTGAAAGTCGAGATCTCTGTAGTGGAGTGCACCGACGCCCG GAACCAAGGTCTTTATTGACTGAGGATCTGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACT ATGCTCGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGAT CGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAA >gi|913748796|ref|NG_042591.1| Octaviania nonae KPM NC-0017749 28S rRNA, partial sequence; from TYPE material AACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTGAATCTGGCAGTCTT AATTGATTGTCCGAATTGTAATCTAGAGAAGCGTCTTCCGCGCTGGACCCGTGTACAAGTCTCCTGGAAG GGAGCATCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTATGTGTTGCGCTCTCAAC GAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGA GACCGATAGCGAACAAGTACCGTGAGGGAAAGATCAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTG AAATTGCTGAAAGGGAAACGCTTGATGTCCAGTCGCATTAGTTGGGGGTCAACCTTGATAGGGTGTAATT CCTAGTTAATGGGTCAGCATCAGTTTCGGTCGTCGTACAAAGGCAAAGGGAAAGTAGCACTTCTATTAGG AGTGTGTTATAGACCCTTGTCGGATGCGTGCGGTCGGGACTGAGGAACTCTACACGGATTCATTTTTGTG TAAGGGATGCTGGCATAATGGCATTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTG CGAGTGTTTGGGTAATTAAACCCGAGTGCGAAATGAAAGTGAAACGTCGAGATCTCTGTAGTGGAGTGCA CCGACGCCCGGAACCAAGGTCTTTATTGACCGAGGATCTGCGGTAGAGCATGTATGTTGGGACCCGAAAG ATGGTGAACTATGCTCGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGT GCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCAT >gi|913748795|ref|NG_042590.1| Antherospora tractemae KRAM F-48879 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGAGGGAAGAG CCCAAGTTTGGAAGCTGGCGTTTGTATTCAGACGTCCGCATTGTAAACTCAAGAAGTGTTTTCTGCGCTG GATCAAATTCAAGTCCCTTGGAATAGGGCATCATAGAGGGTGAAAGTCCCGTGCTTGATTTGAAACCCCC AGGGCTTTGTGATACACTTTCCAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATGCC ATCTAAGGCTAAATATTGAGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTT GGAAAGAGAGTTAAACAGTACGTGAAATTGCCGGAAGGGAAGGGTAGGAAGTCAGACATGCCTTTGCAGA TTCAGCCTTGTGCATTATTGGACTTGGTGCATTTTTGTATTGGCTTGCTAGCATTGGTTTGTATTGACAG ATATAGGCTTAGGGAATGTGGCTTAGCTTTCGGGCAAAGTGTTATAGCCCTTTGCTGAGTATGACAATAT AGACCAAGGATTGCAGCGCACCCATTTTAGGGCGGGCCTTTCGGGGCACCTTTGCGCTTAGGATGCTGGC TTAATGGCTTTCTGCCACCCGTCTTGAA >gi|913748794|ref|NG_042589.1| Pantospora guazumae BPI 880778 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGC CAGCGGCCGTTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCGCGC AGCCTTTACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTCGTAGCGATGTT CCGCTGGTCTTCTGACCGGTCTACTCATCGTCGCGAGGCCAACATCGTCTGGGCCCGCTGGATAAGACCT AAGGAATGTAGCTTCCCTCGGGAAGTGTTATAGCCTGTGGTGATGCAGCGTGGCTCGGGCGAGGTCCGCG CTTCGGCAAGGATGTTGGCGTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAAGCGCAAGCTGC ACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAA ATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAG TTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTG AAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAGTTGAACGTGGACAT TTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGA GGTTAAGGTGCCGGAATGTACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGG TGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAA TGGATGGCGCTTAAGCGTGCTACCCATACCTCGCCGCCTGGGTAGAAACGATGCCCAGGCGAGTAGGCAG GCGTGGAGGCCCGTGACGAAGCCTTGG >gi|913748793|ref|NG_042588.1| Asperisporium caricae BPI 880773 28S rRNA, partial sequence; from TYPE material GAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGTAGAGGATGCTTCTGGC CAGCGGCCGTTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCGCGC AGCCTTTACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTTGTAGCGATGTT CCGCTGGTCTTCTGACCGGTCTACTCATCGTCGCGAGGCCAACATCGTCTGGGCCCGCCGGATAAGACCT AAGGAATGTGGCTTCCCTTCGGGGAAGTGTTATAGCCTGTGGTGATACAGCGTGGCTCGGGCGAGGTCCG CGCTTCGGCAAGGATGTTGGCGTAATGGTTGTCAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGGAGGTGGGAAGCGCAAGCT GCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGC AAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGT TGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAGTTGAACGTGGAC ATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC GAGGTTAAGGTGCCGGAATGTACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGAC GGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAA AATGGATGGCGCTTAAGCGTGCTACCCATACCTCGCCGCCTGGGTAGAAACGATGCCCAGGCGAGTAGGC AGGCGTGGAGGCCCGTGACGAAGCCTTGGGA >gi|913748792|ref|NG_042587.1| Coniosporium apollinis CBS 352.97 28S rRNA, partial sequence; from TYPE material CAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTCGGAGTC CGAGTTGTAATTTGTAGAGGATGCTTCGGCGTTGGCTCCGGTCTAAGTTCCTTGGAACAGGACGTCATAG AGGGTGAGAATCCCGTATGCGACCGGCCGCCATCTCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTG GGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACA AGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGG AAGCGCTTGCAACCAGACTTGACCGCAGTTGCTTATCCGTCCTTCTGGGCGGTGCACTCTTCTGCGAGCA GGCCAGCATCAGTTTGGGCGGCCGGATAAAGGCCCCGGGAACGTAGCACCTTTCGGGGTGTGTTATAGCC CGGGGTGTAATACGGCCCGTCCGGACTGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAG CGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTACGCGAGTGTTCGGGTGTCAAACCCCTACGC GCAATGAAAGTGAACGGAGGTGGGAACCCGCAAGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGG ATTTGAGTATGAGCGTAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAG GAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAA AGACTAATCGAACCATTAAGAAAGGACCCTACTAGGTGGTTGAGAGGCGGCTGAAAGGCTCGCCTAGTCC CTTTGTCTAGGGGCGACACTGTCAAATTGCGGGGACATCCTTAGAGATTGAACTACCGCGGCCCGCCGAA AGGTAGGGTGCAGCACCGGGGTAACGACCCAGGGGAAGGTAAAAACGTTCAAGATTGGATGATCCGCAGC CAAGTCCTACGGTCCCCTCACGAGGGACTACGGATGCCGTTCACAGACTAGATGGCAGTGGGTCCGCCGG AAAGGTGCGGGCTTAAGGTATAGTCGAACCCCCTCGGAGACGGGGGCGGACAGTTGCTAGTAGCTGGTTC CTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCC TTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAGTTGAA CGTGGACATTTGAATGCACCG >gi|913748791|ref|NG_042586.1| Knufia perforans CBS 885.95 28S rRNA, partial sequence; from TYPE material CAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCGTTTACGGTCC GAGTTGTAATTTGTAGAGGATGTTTTGGGTACCGCCACGGTTTAAATTTCTTGGAACAGAATGTCAAAGA GGGTGAGAGTCCCGTCTTGGACCGCGGTAGGGCCTGTGTAAAACTCCTTCGACGAGTCGACTTGTTTGGG AATGCAGGTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAG TAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGTTGAAAGGGAA GCGCTGGCAACCAGACTCGTGCGCGGGGTTCCCCCTTGCTTCTGCTTGGGTCACTTCCCCGTGTCCGGGC CATCATCAGTTTCGGGGGCCGGTTAAAGGCCCTGGGAATGTATCCACGCCTTCGGGGGTGGACTTATAGC CCAGGGTGTCATGCGGCCACCCGGGACTGAGGAACGCGCTTCGGCGAGGATGATGGCGTAATGGTTGTCA GCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCTTGCG CGGAATGAAAGTGAACGGAGGTAGGAAGGCTTAAGCCTGCACTATCGACCGATCCTGATGTCTTCGGATG GATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCGTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGCGTATAGGGGCGA AAGACTAATCGAACCATCTGGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAG TTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAACTTTAA ATATGTAAGAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTATCGT >gi|913748790|ref|NG_042585.1| Microbotryum silenes-saxifragae KR 23890 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACTAACCAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAAAG CTCAAATTTGTAATCTGGCGCCTTGGGCGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCTGGACCG CACATAAGTCTGTTGGAATACAGCGTCATAGTGGTGAGAACCCCGTATAGGGTGCGGATGCCCAGTGCTT TGTGATATACTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAA GCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAACAGTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCATTTTGGAGTTCAGCCG CAAGGTGTATTCTTCAATTTGCAGGCCAGCATCAGTTTTTGGGGGTGGAAAAGCGTGGTTTGAAGGTAGC AGTCTCGGCTGTGTTATAGCTTTCCACTGGATTCACTTTTGGGGACTGAGGAACGCAGTACGCTTTTTGC AAGATTCTCGGATCTTTCGTACTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTG >gi|913748789|ref|NG_042584.1| Macrolepiota turbinata PERTH N. Malajczuk H0219 28S rRNA, partial sequence; from TYPE material GTCTCTGGCCGTCCGAGTTGTAATCTAGAGAAGTGCTACCCGCGCTGGACCGTGTACAAGTCTCCTGGAA TGGAGCGTCATAGAGGGTGAGAATCCCGTCTCTGACACGGACTACCAGGGCTTTGTGGTACGCTCTCAAA GAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGA GACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTG AAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCGGGGATCAGCCTCGCTTTTGCGTGGTGT ACTTTCTGGTTGACGGGTCAGCATCAATTTTGACCGCTGGAAAAAGGCTTGGGGAATGTGGCAGCTTCGG CTGTGTTATAGCCCTTTGTCACATACAGCGGTTGGGATTGAGGAACTCAGCACGCCGCAAGGCCGGGTTT CGACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGA GTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGATCCCTG TCGTGGGGAGCATCGACGCCCGGACCAGAACTTTTGGGACGGATCCGCGGTAGAGCATGTATGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATT CTGACGTGCAATCGATCGTCAAATTTGGATATAGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTC CTGCCGAA >gi|913748788|ref|NG_042583.1| Agaricus eburneocanus PERTH 07626789 28S rRNA, partial sequence; from TYPE material GTCTCTGGCTGTCCGAGTTGTAATCTAGAGAAGTAATGCCCGTGCTGGACCGTGTATAAGTCTCCTGGGA TGGGGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGTGCATTGTGGTATGCTCTCAAA GAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGA GACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTG AAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCATTGGCCGGGGATCAGCCTTGCTTTTGCATGGTGT ACTTTCTGGTTGATGGGTCAGCATCAATTTTGACCACTGGAAAAAGACCTGGGGAATGTGGCAGCTTCGG CTGTGTTATAGCCCCTAGTCGCATACAGTGGTTGGGATTGAGGAACTCAGCACGCCGCAAGGCCGGGTTT CGACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGA GTCTAACATGCCTGCGAGTATTTGGGTGGAAAACCCAAGTGCGTAATGAAAGTGAAAGTTGAGATCCCTG TCGTGGGGAGCATCGACGCCCGGACCAGAACTTTTGGGACGGATCCGCGGTGGAGCATGTATGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATT CTGACGTGCAAATCGATCGTCCAATCTGGGTATATCCGCTCAGGACTAATCTAACCATCTAATGGCTGGT TCCTGGCGAA >gi|913748787|ref|NG_042582.1| Agaricus erythrosarx MURU 6080 28S rRNA, partial sequence; from TYPE material GTCTCTGGCTGTCCGAGTTGTAATCTAGAGAAGTAATGCCCGTGCTGGACCGTGTATAAGTCTCCTGGGA TGGGGCGTCATGGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGTGCATTGTGGTATGCTCTCAAA GAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGA GACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTG AAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCAGGGATCAGCCTTGCTTTTGCATGGTGT ACTTTCTGGCTGACGGGTCAGCATCAATTTTGACCGCTGGAAAAGGGCCTGGGGAATGTGGCAGCTTCGG CTGTGTTATAGCCCCTAGTCACATACGGCGGTTGGGATTGAGGAACTCAGCACGCCACAAGGCCGGGTTT CGACCACGTTCGTGCTTAGGATGTTGGCATAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGA GTCTAACATGCCTGCGAGTATTTGGGTGGAAAACCCGAGTGCACAATGAAAGTGAAAGTTGAGATCCCTG TCGTGGGGAGCATCGACGCCCGGACCAGAACTTTTGGGACGGATCCGCGGTGGAGCATGCATGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATT CTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGCTGAAAGACTAATCGAACCATCT >gi|913748786|ref|NG_042581.1| Agaricus inilleasper PERTH M. Castellano H4452 28S rRNA, partial sequence; from TYPE material GTCTCTGGCTGTCCGAGTTGTAATCTAGAGAAGTAATGCCCGTGCTGGACCGTGTATAAGTCTCCTGGGA TGGGGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGTACATTGTGGTATGCTCTCAAA GAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGA GACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTG AAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCAGGGATCAGCCTTGCTTTTGCATGGTGT ACTTTCTGGTTGACGGGTCAGCATCAATTTTGATTGCTGGAAAAGGGCCTGGGGAATGTGGCAGCTTCGG CTGTGTTATAGCCCCTGGTCGCATACAGCAGTTGGGATTGAGGAACTCAGCACGCCGCAAGGCCGGGTTT CGACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAAGCGACCCGTCTTGAAACACGGACCAAGGA GTCTAACATGCCTGCGAGTATTTGGGTGGAAAACCCAAGTGCGTAATGAAAGTGAAAGTTGAGATCCCTG TCGTGGGGAGCATCGACGCCCGGACCAGAACTTTTGGGACGGATCCGCGGTGGAGCATGTATGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATT CTGACGTGCAAATCGATCGTCAAATTTGGGTATAGCGGCTGAAAGACTAATCTAACCATCAATTAGCTGG TTCCTGCCGAA >gi|913748785|ref|NG_042580.1| Lindgomyces lemonweirensis ILL 40793 28S rRNA, partial sequence; from TYPE material GTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGC GAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGTTCCTTCCGGGGCCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCCATGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGTTGGCCTTCGCCATGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCCGTAGTCGCTCATCTAGGCTTCTGCCTGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTTCAGGCGG TCGGATAAAGGTCTTGGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCCAGGGCGCAATGCGACCAGCC TGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGCAATGAAAGTAAACGGAGGT GGGAACCCGCAAGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAA >gi|913748784|ref|NG_042579.1| Tuber whetstonense OSC 111919 28S rRNA, partial sequence; from TYPE material CCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGACACCTCCGGTGTTCGAGTTGTA ATTTGGAGAGGCATCTTCTGGAGGGGCCCAGCCTATGTGCCTTGGAACAGGACGTCATAGAGGGTGAGAA TCCCGTACTTGGCTGGATGTTCCCTCCTGTATGTAGTGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAG CTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATACTGGCGAGAGACCGATAGCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACTTTGAAAATAGAGTCAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTA GGACCAGACTCAGCCAGTGGTGAACAGCTGCCCACCGGGGCGGTGCACTCATCATTGGTTGGGCCAGCAT GGGTTGGGACGGTGGGATAAAGGCTCGGGAAATGTGACTCCTTTATGGAGTGTTATAGTCCCGGGTGGCA TGCCATCTGTCCCGACTGTGGAACGCGCACCGGCACGGATGCTGGGCATAAAGGTCTTCAGCGACCCGTC TTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGCTTCAAACCCTTACGCGGAATGAAA GTGAATGGAGGTGGGATTCCCGAAAGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAAATCGATCGTCAAATTTGGGTATAGGGGCAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAA >gi|913748783|ref|NG_042578.1| Tuber miquihuanense ITCV 885 28S rRNA, partial sequence; from TYPE material GAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGA CACCTCTGGTGTTCGAGTTGTAATTTGGAGAGGCATCTTCTGGAGGGGCTCAGCCTATGTGCCTTGGAAC AGGACGTCATAGAGGGTGAGAATCCCGTACTTGGCTGGATGTTCCCTCCTGTATGTAGTGTCTTCTACGA GTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGA CCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAATAGAGTCAAACAGTACGTGAA ATTGTTGAAAGGGAAGCGCTTAGGACCAGACCCGGAGTATAGCAAACAATCGCCCACCGGGGCGGTGCAC TTGTTATGGTTCGGGCCAGCATGGGTTGGGACGGTGGGATAAAGACTCGGGAAATGTGACTCCTTCGTGG AGTGTTATAGTCCCGGGTGGCATGCCATCAGTCCCGACTGTGGAACGCGCACCGGCACGGATGCTGGGCA TAATGGTCTTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCAAGTGTTTGGGCTT CAAACCCTTACGCATAATGAAAGTGAACGGAGGTGGGAACCCTGGATAAAAGCGGGGTGCACCATCGACC GATCCTGATGTCTTCGGATGGATTTGAGTAGGAGCATAGCCGTTGGGACCCGAAAGATGGTGAACTATGC CTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGAT >gi|913748782|ref|NG_042577.1| Tuber beyerlei OSC 130875 28S rRNA, partial sequence; from TYPE material GGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTCCGGTGTTCG AGTTGTAATTTGGAGAGGCATCTTCTGGAGGGGCCCAGCCTATGTGCCTTGGAACAGGACATCATAGAGG GTGAGAATCCCGTACTTGGCTGGATGTTCCCTCCTGTATGTAGTGTCTTCTACGAGTCGAGTTGTTTGGG AATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAG TAGAGTGATCGAAAGATGAAAAGCACTTTGAAAATAGAGTCAAACAGTACGTGAAATTGTTGAAAGGGAA GCGCTTAGGACCAGACTCAGCCTTTGGTGGACATCCGCCCATCGGGGCGGTGCACTTGTCATTGGTTGGG CCAGCATGGGTTGGGACGGTGGGATAAAGGCTCGGGAAATGTGACTCCTTTATGGAGTGTTATAGTCCCG GGTGGCATGCCACCAGTCCCGACTGTGGAACGCGCATCGGCACGGATGCTGGGCATAATGGTTTTCAGCG ACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGCATCAAACCCTCACGCGT AATGAAAGTGAACGTAGGTGGGAACCCTTGAAGCACGCGGATAGGGCGCTCCATCGACCGATCCTGATGT CTTCGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTA TAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTCCTCGAATTCCCCTCAG >gi|913748781|ref|NG_042576.1| Lachancea dasiensis ATCC MYA-4748 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCA AAAGCTCAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGCAACTTTGGGGCTAG TCCTTGTCTATGTTCCTTGGAACAGGACGTCATGGAGGGTGAGAATCCCGTTTGGCGAGGAGTCTAGTCC TATGTAAAGTGCTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTA AAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAA GAGAGTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGCGACCCT CGCTCCTTGTGGGTGGGGATCTCGCAGTTCACTGGGCCAACATCAGTTTTGGCGGCAGGATAAATCTTTG GGAATGTGGCTTTTCTTCGGAGAAGCGTTATAGACCAGGGGAATACTGCCAGCCGGGACTGAGGACTGCG ACTTTTGTCAAGGATGTTGGCATAATGGTTATATGCCGCCCGTCTT >gi|913748780|ref|NG_042575.1| Debaryomyces renaii ATCC MYA-4749 28S rRNA, partial sequence; from TYPE material TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCA AAAGCTCAAATTTGAAATCTGGCGCCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGAGTTG GCTCTTGTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATT CTATGTAAAGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCT AAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAA AGAGAGTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGCGTTCC TTTCCTTTTTGGTTGGGTTCCTCGCAGCTTACTGGGCCAGCATCGGTTTGGATGGTAGGATAATGACATT GGAATGTATCTCTACTTCGGTGGAGTGTTATAGCCCTTGTTGATACTGCCTGTCTAGACCGAGGACTGCG TCTTTGACTAGGATGCTGGCATAATGATCTTAAGCCACCCGTCTT >gi|913748779|ref|NG_042574.1| Spathaspora arborariae ATCC MYA-4684 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCAGTTTCACTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGTCTGGCGCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGCTGACCAGATCCATGT AAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGCGATCAGACTTGGTATTTTGTATGTCTTGCTT TCGGGTGGGGCCTCTGCAGTTTACTGGGCCAGCATCGGTTCGGGTGGCAGGATAATTGCGGAGAAATGTG GCACGGCTTCGGTTGTGTGTTATAGTCTCTGTCGATACTGCCTGCCTGGACCGAGGACTGCGTCTTTATG ACTAGGATGCTGGCATAATGATCGTAAGCCGC >gi|913748778|ref|NG_042573.1| Polycephalomyces sinensis HMAS 43720 28S rRNA, partial sequence; from TYPE material TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAA CAGCTCAAATTTGAAATCTGGCCCCCTCCGCGGGGGTCCGAGTTGTAATTTGCAGAGGATGCTTCTGGCG CGGCGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTCCGGTCGGACGCCCAGC CTATGTGAAGCACCTTCGACGAGTCGGGTAGTTTGGGAATGCTGCCCTAAATGGGAGGTATATGTCTTCT AAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAA AGAGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTCATGACCAGACTTGGGCCCGGGGGATCA CCCGGCGTTCTTTCGCCGGGGCACTTCGCCGGCTGCCCAGGCCAGCATCAGTTCGCGGCGGGGGACAAAG GCTTCGGGAACGTGGCTCCCTACGGGGAGTGTTATAGCCCGCTGCGCAATGCCCTGCCGCGGACTGAGGT TCGCGCTTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCG TCTTCGTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGGAATGAAAGTGAACGCAGGTGAGAGCTTCGG CGCATCACCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGA AGGTGAACTATGCCTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTG CAAATCGATCGTCAAATATGGGCATGGGGGCGAAAGACTAATCGAACCTTCTAGTAGCTGGTTTCCGCCG A >gi|913748777|ref|NG_042572.1| Latruncellus aurorae CMW 28276 28S rRNA, partial sequence; from TYPE material AACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTTCGGCCCGA GTTGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCACAGAGGG TGAGAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATG CTGCTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGC TTGTGACCAGACTTGCGCCGGGCGGCTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCGGCTCAGGCCAG CATCGGTTCTTGTTGGGGGATAAGAACGGCAGGAATGTGGCCCTCCCTCGGGAGGGTGTTATAGCCTGCC GTACGATACCCTGACGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTCATCAGCGACCC GTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTCAAACCCGCACGCGTAATG AAAGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAA GAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGAGGAAACTCTGG TGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGAAAGACTAATCG AACTGTCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTCAGTTTTATGAGG TAAAGCGAATGATTAGGGACTCGGGGGCGCTTTTTAGCCTTCATCCATTCTCAAACTTTAAATATGTAAG AAGCCCTTGTTACTTAGTTGAACGTGGGCATTCGAATGTATCAACACTAGTGGGCCATTTTTGGTAAGCA GAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGCGCCAGAGTGTACGCTCATCAGACACCACAA AAGGCGTTAGTACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGACTGTGTAACA ACTCACCTGCCGAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACCGCCCATACCCCGCCCTCA GGGTAGAAACGATGCCCTGAGGAGTAGGCGGCCGTGGAGGTCAGTGACGAAGCCTAGGGC >gi|913748776|ref|NG_042571.1| Terfezia alsheikhii MA Fungi:32251 28S rRNA, partial sequence; from TYPE material AAACTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCG GCAAAAGCTCAGATTTGAAATCTGGTGTCATTTTGGCATCCGAGTTGTAGTCTGTAGAGGTGTATTCGAG TGTGGCTTTGGCTTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTTAACGGCCTTTGTC TTATGCTCATGTGAATCTCCTTCAACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATT CCATCTAAAGCTAAATACTGGCAAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGAACT CTGAACAGAGAGTCAAATAGTACGTGAAATTGTTGAAAGGGAAGCACTTGCGACCAGACGCACTTGCAGC TGATCAATTCTCATTCTTGAGGGTGCACTCGGTTGTCTGTGGGTCAGCATCAGTTATAGCGGTGGGAAAA AGACTCGAGGAATGTAGCTCCTTTCGGGGAGTGTTATAGCCTTGGGTGTAATGCTGCCTGCTGTGACTGA GGACCGCGCTTCGGTGAGGATGCTGGCATAATGGTCGTAAGTGACCCGTCTTGAAACACGGACCAAGGAG TCTAACATCTATGCGAGTGTTTGGGTGTACAAACCCTTACGCGGAATGAAAGTAAATGGAGGTGGGAACC GCAAGGTGCACCATCGACCGATCCTGATGTTTTCGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCC GAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCT GACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTC CGGCCGAAGTTTCCCTCAGGATA >gi|913748775|ref|NG_042570.1| Mortierella rostafinskii CBS 522.70 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGGTGAGCTCAAATTTAAAATCTGGTCGGTTTCCGATCCGAATTGTAGTTTATAGAAGCGT TTTCGGTGGCAGCCTGGGTACAAATCCTTTGGAACAGGGTATCATAGAGGGTGAGAATCCCGTCTCTGAC TCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTG GTAAATTTCATCTAAGGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAA AAGAACTTTGAAAAGAGAGTTAAATAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATGC GAATGGGAAATCAGTTTCATTTGCTCAGGAGGGGTGCGGATTTTGGACCGCAAGGCCATGCTGTATCTGA TCTTGGGTATTTGGGATGCACTTTTGCATTTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCCA AGGGAAAGTGGCAGCTTTGGCTGTGTTATAGCTCTGGAGCGATACAGTGGGGGAGACTGAGGTCTTTGCA GCGCGTGCTCTCGGGCAAGGCCGACTGGGTGCTATGGAGAAGTTCGATGTACAATGCATGCATTTTGCGT CGTGTCTTTTCTGTACTCGCTCAGCTCGGTTCTTCCGCGCTTAGGATGTTGACATAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATACATGCGAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATGTTTTCGGATAGATTTG AGTAAGAGCATGCATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTGATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748774|ref|NG_042569.1| Mortierella paraensis CBS 547.89 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAATAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGGTGGAAAATCAGTCTTTTGGGGTAGGGAGTGGTGGGAGTTCAGACCGCAAGGCTGGCTTTTATTTCA TCTCTGCCCTAAAGGATGCACTTTTTCATTTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCTG AGAGAAGGTAGCAGCTTTGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGGGACTGAGGTTTTCGCA GTGTGTGCTCTCGGGCAAGGTTGACTGGGTGCTATGTGATCGTTCGGTGTACAATGCATGCATTTTGCGC TGTGTCTTTTGCATACTCGCCTGAATCGACTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748770|ref|NG_042568.1| Mortierella beljakovae CBS 123.72 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAATAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGGTGGAAAATCAGTCTTTTGGGGTGGGGAGTGGTAGGAGTTCAGACCGCAAGGCTGGCTTTTGCTTCA TCTCTGTCCTAAAGGATGCACTTTTTCATCTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCCG AGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGGGACTGAGGTTTTCGCA GTGTGTGCTCTCGGGCAAGGTCGACTGGGTGCTATGTGATCGTTCGGTGTACAATGCATGCATTTTGCGC TGTGTCTTTTGCATACTCGCCTGAATCGACTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748768|ref|NG_042567.1| Mortierella pulchella CBS 312.52 28S rRNA, partial sequence; from verified material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACCAGTCCGAGTTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGTCTCGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTGAGAATATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGAAACCAGTCATG CGGTTGGGAAATCAGTCTCTGGCGAGGGGGAATGGGGGAGGTGTGGACCGCAAGGCCGCTCTTTTCTATA TTCTTTTCGTCAGGGATGCACTTTTTCTTCTGCAGGTCAACATCAGTTTGCTTTGCCGGACAAAACTCTT GGGAAGGTGACAGCTTAGGCTGTGTTATAGCCCTTGAGCGATACGGTGGAGTGGACTGAGGTTTTCGCAG CATGTGCTCTCGGGCAAGGCTGATTGGGTGCTATGAGATCGTTCAGGGTACAATACATGTATTTTGCCTT GTGTCTTTTTTATACTCGCTCAACTCGGCTCTTCCATGCTTAGGATGTTGACATAATGGTTTTAATCGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTC AGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748765|ref|NG_042566.1| Mortierella turficola CBS 432.76 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAGTTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGTCTCGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTGAGAATATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGAAACCAGTCATG CGGTTGGGAAATCAGTCTCTGACGGGGGGGAATGGGGGAGGTGTGGACCGCAAGGCCGCTCTTTCTTATA TCTTTCTCGGCAGGGATGCACTTTTTCTTCTGCAGGTCAACATCAGTTTGCTTTGCCGGACAAAACTCTT GGGAAGGTGACAGCTTAGGCTGTGTTATAGCCCTTGAGCGATACGGTGGAGTGGACTGAGGTTTTCGCAG CATGTGCTCTCGGGCAAGGCTGATTGGGTGCTATGAGATCGTTCAGGGTACAATACATGTATTTTGCCTT GTGTCTTTTTTATACTCGCTCAACTCGGCTCTTCCATGCTTAGGATGTTGACATAATGGTTTTAATCGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTC AGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748764|ref|NG_042565.1| Mortierella elongatula CBS 488.70 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAGTTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGTCTCGGTAAAAGTCCTTTGGAATAGGGCATCACAGAGGGTGAGAATCCCGTCTTTGA CTGAGAATATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGAAACCAGTCATG CGGCTGGGAAATCAGTCTCTGACGAGGGGGAATGGGAGAGGTGTGGACCGCAAGGCTGCTCTTTTTCATA TCTTTTTCGGCAGGGATGCACTTTTTCTTCCGCAGGTCAACATCAGTTTGCTTTGCCGGACAAAACTCCT GGGAAGGTGACAGCTTAGGCTGTGTTATAGCCCTGGAGCGATACGGTGGAGCGGACTGAGGTTTTCGCAG CATGTGCTCTCGGGCAAGGCTGATTGGGTGCTATGAGATCGTTCAGGGTACAATACATGTATTTTGCCTT GTGTCTTTTTTATACTCGCTCAACTCGGCTCTTCCATGCTTAGGATGTTGACATAATGGTTTTAATCGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACCGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCC >gi|913748763|ref|NG_042564.1| Mortierella cystojenkinii CBS 456.71 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGACTGGTTTACCAGCCCGAGTTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGTCTCGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTGAGAATATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGAAACCAGTCATG CGGTTGGGAAATCAGTCTCTGACGGGGGGGAATGGGGGAGTTGTGGACCGCAAGGCCGCTCTTTTTCATA TCTCTTTTGGCAGGGATGCACTTTTTCTTCTGCAGGTCAACATCAGTTTGCTTTGCCGGACAAAACTCTT GGGAAGGTGACAGCTTTGGCTGTGTTATAGCCCTTGAGCGATACGGTGGAGTGGACTGAGGTTTTCGCAG CATGTGCTCTCGGGCAAGGCTGATTGGGTGCTATGAGATCGTTCAGGGTACAATACATGTATTTTGCCTT GTGTCTTTTTTATACTCGCTCAACTCGGCTCTTCCATGCTTAGGATGTTGACATAATGGTTTTAATCGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCA >gi|913748762|ref|NG_042563.1| Mortierella antarctica CBS 609.70 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTAAAGAAGTG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAACAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACATTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGACACCAGTCATG CGAGCGGAAAATCAGTCTTTTGCAGTGGGGGGTTGTGTGGGATCGGACCGCAAGGCCGGCCTATGCTGCA TCTCTGCTGTAAGTGATGCACTTTTTCGTTTGCAGGCCAACATCAGTTTCTTCTGCTGGACAAAACTCTT GAGAAGGTAGCAGCTTTGGCTGTGTTATAGCTCTTGAGCGATACAGTGGAGGGGACTGAGGTTTTCGCAG CGCGTGCTTTCGGGCAAGGCTGATTGGGTGCTATGGGATCGTTCGGTGTACAATGCATGCATTTTGCGCC GTGTCTTTTCTGTACTCGCTCAACTCGGCTCTTCCGCGCTTAGGATGTTGGCTTAATGGTTTTAATCGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCCATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTC AGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748759|ref|NG_042562.1| Mortierella amoeboidea CBS 889.72 28S rRNA, partial sequence; from TYPE material AGCGTTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAACAGGGTATCATAGAGGGTGAGAATCCCGTCT TTGACTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAAT GGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAG ATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGACACCAGT CATGCGAGCGGAAAATCAGTCTTTTGCAGTGGGGAGTGTGTGTGGGTTCGGACCGCAAGGCCGGCCTGCG CTTCATCTCTGCTGTAAGTGATGCACTTTTTCGTTTGCAGGCCAACATCAGTTTCTTCTGCTGGACAAAA CTCTTGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTTGAGCGATACAGTGGAGGAGACTGAGGTTTT CGCAGCGCGTGCTTTCGGGCAAGGCTGATTGGGTGCTATGGGATCGTTCGGTGTACAATGCATGCATTTT GCGCCGTGTCTTTTCTATACTCGCTCAACTCGGCTCTTCCGCGCTTAGGATGTTGGCTTAATGGTTTTAA TCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCG CGTAATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGA TTTGAGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAA GACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTT TTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAAT ATGTAAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGG TAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACA CCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGT GTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCG CCGTCAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748758|ref|NG_042561.1| Mortierella schmuckeri CBS 295.59 28S rRNA, partial sequence; from TYPE material AAATCCTTTGGAATAGGGTATGATAGAGGGTGAGAATCCCGTCTTTGACTCAGTGCATGCTACTATGTGA TACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAA ATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTT AAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATGCGGGTGGAAAATCAGTCTTTTG CAATGGGGAGTTGTGGGCGTTCAGACCGCAAGGCTGGCGTTTGCTTCATCTTTGTTGTAAGTGATGCACT TTTTCATTTGCAGGTCAACATCAGTTTGCTTTGCTGGACAAAACCCCAAGGGAAGGTGGCAGCTTAGGCT GTGTTATAGCCCTGGGGCGATACAGTGGAGTGGACTGAGGTTTCGCAGTGTGTGCTCTCGGGCAAGGCTG ACTGGGTGCTATGGGATCGTTCGGCGTACAATGCATGCATTTTGCGTCGTGTCTTTTTCATACTCGCTCA ACTCGGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGTGCGAT CCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATT CTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT TCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGG CCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTTAATTG AGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAA CCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGAC AGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAAT >gi|913748757|ref|NG_042560.1| Mortierella camargensis CBS 221.58 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTATAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATG CGGGTGGAAAATCAGTCTTTTGCAATGGGGAGTTGTGGGCGTTCAGACCGCAAGGCTGGCGTTTGTTTCA TCTTTGTTGTAAGTGATGCACTTTTTCATCTGCAGGTCAACATCAGTTTGCTTTGCTGGACAAAACCCCA AGGGAAGGTGGCAGCTTAGGCTGTGTTATAGCCCTGGGGCGATACAGTGGAGTGGACTGAGGTTTCGCAG TGTGTGCTCTCGGGCAAGGCTGACTGGGTGCTATGGGATCGTTCGGCGTACAATGCATGCATTTTGCGTC GTGTCTTTTTCATACTCGCTCAACTCGGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTC AGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748756|ref|NG_042559.1| Mortierella zychae CBS 316.52 28S rRNA, partial sequence; from TYPE material AAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGACTCAGTGCATGCTACTATGTGA TACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAA ATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTT AAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATGCGGGTGGAAAATCAGTCTTTTG CAGTGGGGAGTTGTGGGCGTTCAGACCGCAAGGCTGGCGTTTGCTTCATCTTTGTTGTAAGTGATGCACT TTTTCATTTGCAGGTCAACATCAGTTTGCTCTGCTGGACAAAACTCCAAGGGAAGGTGGCAGCTTAGGCT GTGTTATAGCCCTGGAGCGATACAGTGGGGTGGACTGAGGTTTCGCAGTGTGTGCTTTCGGGCAAGGCTG ACTGGGTGCTATGGGATCGTTCGGCGTACAATGCATGCATTTTGCGTCGTGTCTTTTTCATACTCGCTCA ACTCGGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAACGACCCGTCTTGAAACACGGACCAAGG AGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGTGCGATC CGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGACC CGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTC TGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCG >gi|913748755|ref|NG_042558.1| Mortierella acrotona CBS 386.71 28S rRNA, partial sequence; from TYPE material GAATTGTAGTTTATAGAAGCGTTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGA GGGTGAGAATCCCGTCTTTGACTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTG GGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACA AGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGG AAACGTTTGACACCAGTTATGCGGGTGGAAAATCAGTCTTTTGCAGTGGGGAGTTGTGGGCGTTCAGACC GCAAGGCTGGCGTTTGCTTCATCTTTATTGTAAGTGATGCACTTTTTCATTTGCAGGTCAACATCAGTTT GCTCTGCTGGACAAAACTCCAAGGGAAGGTGGCAGCTTAGGCTGTGTTATAGCCCTGGAGCGATACAGTG GGGTGGACTGAGGTTTCGCAGTGTGTGCTCTCGGGCAAGGCTGACTGGGTGCTATGGGATTGTTCGGCGT ACAATGCATGCATTTTGCGTCGTGTCTTTTTCATACTCGCTCAACTCGGCTCTTCCACGCTTAGGATGTT GACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGG GTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTT GATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTT GGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGC AGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTA TTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAAT ACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGA ATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCG TGTTGCCCATAATTCGCCGTCAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748754|ref|NG_042557.1| Mortierella minutissima var. dubia CBS 307.52 28S rRNA, partial sequence; from TYPE material GGAAAACGTTTGACACCAGTCATGGGGGTGAAACTCAGTCTTTTGCATTGGGGGAGTTGTAGGGGTCGGA CGCGCAGGCCCGGCTTTGCTCATTTTTGGCGTAAGTGATGCACTTTTCATCTACAGGTCAACATCAGTTT CTTTGCTGGACAAAACTTCGAGAGAAGGTAGCAGCTAGCCTGTGTTATAGCTCGGGAGCGATACAGTGAA GGGGATTGAGGTTTCGCAGCGTTGTGCTCTCGGGCAAGGGCGGGATGGGTGCTATGGGATCGTTCGGGGT ACAATGCCTGGCATTTTGCTTCGTGTCTTTTCTATACTCGCTCAACTCAGCCCTCCACGCTTAGGATGTT GACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGG GTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTT GATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTT GGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGC AGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTA TTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAAT ACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGA ATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCG TGTTGCCCATAATTCGCCGTCAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748753|ref|NG_042556.1| Mortierella horticola CBS 305.52 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTGAAATCTGGCTGGTTTACTAGTCCGAGTTGTAATTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CCTAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG TGGGTGGAAAATCAGTCTTTTGCATTGGGGAGTTGTAAGGGTTCGGACCGCAAGGCCGGCTTTTGCTTCA TCTTTGGTGTAAGTGATGCACTTTTTCATCTACAGGTCAACATCAGTTTCTTTTGCTGGACAAAACTCCG AGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGAAGGGGACTGAGGTTTTCGCA GCGTGTGCTCTCGGGCAAGGCTGGATGGGTGCTATGGGATCGTTCGGGGTACAATGCCTGGCATTTTGCT TCGTGTCTTTTCTATACTCGCTCAACTCAGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACG ACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGT AATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTT GAGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAA CTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGAC TAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTA TGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATG TAAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAA GCAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCA CAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTA ACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCG TCAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748752|ref|NG_042555.1| Mortierella epicladia CBS 355.76 28S rRNA, partial sequence; from TYPE material GAAATCTGGCTGGTTTACTAGTCCGAGTTGTAATTTAAAGAAGCGTTTTCGGTGGCAGCCTGGGTATAAA TCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGACCTAGTGCATGCTACTATGTGATAC GTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATA TTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAA CAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATGTGGGTGGAAAATCAGTCTTTTGCAT TGGGGAGTTGTAAGGGTTCGGACCGCAAGGCCGGCTTTTGCTTCATCTTTGGTGTAAGTGATGCACTTTT TCATCTACAGGTCAACATCAGTTTCTTTTGCTGGACAAAACTCCGAGAGAAGGTAGCAGCTTAGGCTGTG TTATAGCTCTGGAGCGATACAGTGAAGGGGACTGAGGTTTTCGCAGCGTGTGCTCTCGGGCAAGGCTGGA TGGGTGCTATGGGATCGTTCGGGGTACAATGCCTGGCATTTTGCTTCGTGTCTTTTCTATACTCGCTCAA CTCAGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGG AGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGTGCGATC CGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGACC CGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTC TGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTT CCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGC CTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTTAATTGA GCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAAC CGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACA GCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAG CCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTCAGGGT >gi|913748750|ref|NG_042554.1| Mortierella clonocystis CBS 357.76 28S rRNA, partial sequence; from TYPE material AAATTTGAAATCTGGCTGGTTTACTAGTCCGAGTTGTAATTTAAAGAAGCGTTTTCGGTGGCAGCCTGGG TATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGACCTAGTGCATGCTACTATG TGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGA GTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATGTGGGTGGAAAATCAGTCTT TTGCATTGGGGAGTTGTAAGGGTTCGGACCGCAAGGCCGGCTTTTGCTTCATCTTTGGTGTAAGTGATGC ACTTTTTCATCTACAGGTCAACATCAGTTTCTTTTGCTGGACAAAACTCCGAGAGAAGGTAGCAGCTTAG GCTGTGTTATAGCTCTGGAGCGATACAGTGAAGGGGACTGAGGTTTTCGCAGCGTGTGCTCTCGGGCAAG GCTGGATGGGTGCTATGGGATCGTTCGGGGTACAATGCCTGGCATTTTGCTTCGTGTCTTTTCTATACTC GCTCAACTCAGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGA CCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGT GCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATATGCT GGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAG CGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAG CTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATT AGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTT AATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGG ATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATC TAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATG AACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTCAGGGTAAAAGCGAAGCC C >gi|913748746|ref|NG_042553.1| Mortierella microzygospora CBS 880.97 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGCTGGTTACTAGTCGAATTGTTAGTTAAAGAAGCGTTT CGCGGCCAACCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGACTCA GTGTATGTTGCTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTA AATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAG AACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGCTTGACACCAGTCATGCGGG TGAAAAATCAGTCTTTTGCAGTGAGGAGTTTTGGTAGTTTAGACCGCAAGGCTAGCTGCTGGCGCATCTT TGCTGTAAGTGATGCACTTTTTCATTTGCAGGTCAACATCAGTTTCGTTTGCCGGACAAAACCCCGAGAG AAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGGGCGATACGGTGGAGGGGACTGAGGCTTCGCAGTGTG TGCTCTCGGGCAAGGTTGATTGGGTGCTATGGGATCGTTCGGGGTACAATACATGTATTTTGCTTCGTGT CTTTTTCATACTCGCTCAACTCGACTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAATCGACCCGT CTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAATGAA AGTGAACGTAGGTGCCATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAA GAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGG TGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCG AACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAGGT AAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAA GTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAA CTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAG GTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACT CACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTCAGGG TAAAAGCGAAGCCCTGACGAGTAG >gi|913748745|ref|NG_042552.1| Mortierella dichotoma CBS 221.35 28S rRNA, partial sequence; from TYPE material GAGAAGGTGGCAGCTTAGGCTGTGTTATAGCTCCAGGGCGATACAGTGGAGGGGACTGAGGTTTTCGCAG CATGTGCTCTCGGGCAAGGCTGATTGGGTGCTGTGGGGTTGTTCAGAGTACAATGCTTGCATTTTGCTTT GTGTCTTCCCTACACTCGCTCAACTCGGCTCTTTCCATGCTTAGGATGTTGACTTAATGGTTTTAATCGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTA ATGAAAGTGAACGTAGGTGCCATCCCATTAGGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATT TGAGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGA CTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTT ATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATAT GTAAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTA AGCAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACC ACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGT AACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCC GTCAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748744|ref|NG_042551.1| Mortierella mutabilis CBS 308.52 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGGTGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTATAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CCTAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATG CGGATGGCAAATCAGTCAATTGCTGTAGGGAGTGGTAGGGGTTCGGACCGCAAGGCCGGCCTGTGCCTCA TTTTTGCAGTAATTGATGCACTTTGTCATTTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCCA AGAGAAGGTAGCAGCTTTGGCTGTGTTATAGCTCTGGAGCGATACAGTGGTGGGGACTGAGGATTTCGCA GTGTGTGCTCTCGGGCAAGGCCGACTGGGTGCTATGGGATCGTTCAGCGTACAATGCATGCATTTTGCGC TGTGTCTTTTTCATACTCGCTCAGCTCGGCTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGATCAATCTTATACTTGTTCCTTGCTGTATTTCCCTTCAGTATTGCAGAAACTCGTTCAGTTT >gi|913748743|ref|NG_042550.1| Gamsiella multidivaricata CBS 227.78 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGGTGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTATAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CCTAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATG CGGATGGCAAATCAGTCAATTGCTGTAGGGAGTGGTAGGGGTTCGGACCGCAAGGCCGGCCTGTGCCTCA TTTTTGCAGTAATTGATGCACTTTGTCATTTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCCA AGAGAAGGTAGCAGCTTTGGCTGTGTTATAGCTCTGGAGCGATACAGTGGTGGGGACTGAGGATTTCGCA GTGTGTGCTCTCGGGCAAGGCCGACTGGGTGCTATGGGATCGTTCAGCGTACAATGCATGCATTTTGCGC TGTGTCTTTTTCATACTCGCTCAGCTCGGCTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748742|ref|NG_042549.1| Mortierella sarnyensis CBS 122.72 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTATAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATG CGGGTGGAAAATCAGTCTTTTGCAATGGCGAGTTGTGGGCGTTCAGACCGCAAGGCTGGCGTTTATTTCA TCGTTGTTGTAAGTGATGCACTTTTTCATCTGCAGGTCAACATCAGTTTGCTTTGCTGGACAAAACCCCA AGGGAAGGTGGCAGCTTAGGCTGTGTTATAGCCCTGGGGCGATACAGTGGAGTGGACTGAGGTTTTCGCA GCGTGTGCTCTCGGGCAAGGCCAACTGGGTGCTATGGGATCGTTTGGTGTACAATGCATGCATTTTGCGC CATGTCTTTTTCATACTCGCTCAACTTGGCTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748741|ref|NG_042548.1| Mortierella rishikesha CBS 652.68 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTATAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCTGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATG CGGGTGGAAAATCAGTCTTTTGCAATGGGGAGTTGTGGGCGTTCAGACCGCAAGGCTGGCGTTTGCTTCA TCTTTGTTGTAAGTGATGCACTTTTTCATTTGCAGGTCAACATCAGTTTGCTTTGCTGGACAAAACCCCA AGGGAAGGTGGCAGCTTAGGCTGTGTTATAGCCCTGGGACGATACAGTGGAGTGGACTGAGGTTTCGCAG TGTGTGCTCTCGGGCAAGGCTGACTGGGTGCTATGGGATCGTTCGGCGTACAATGCATGCATTTTGCGTC GTGTCTTTTTCATACTCGCTCAACTCGGCTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTAA TGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGA GTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGTC AGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748740|ref|NG_042547.1| Mortierella hypsicladia CBS 116202 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATCTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGGCGGAAAATCAGTCTTTTGTAGTGGGGAAGCGCGTGGGTTCAGACCGCAAGGCTGGCCTATGTGTTC TTTCTATTGCAAGGGATGCACTTTTTCGTCCGCAGGCCAACATCAGTTTCCTCTGCTGGACAAAACTCTA AGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGGGACTGAGGTTTTCGCA GCGTGTGCTCTCGGGCAAGGCGGATTGGGTGCTATGGGATCGTTCGGCGTACAATGCATGCATTTTGCGC TGTGTCTTTTTCATACTCGCTCAACTCTGCTCTTCCATGCTTAGGATGTTGGCATAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCCATCCGCAAGGTGCAGCATCGACCGATCTTGATTTTTTAGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748739|ref|NG_042546.1| Mortierella polygonia CBS 685.71 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCCGGTTTACTGGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATCTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGGCGGAAAATCAGTCTTTTGTAGTGAGGAAGCGCGTGGGTTCAGACCGCAAGGCTGGCCTATGTGTTC TCCCTGCTGCAAGTGATGCACTTTTTCGTCTGCAGGCCAACATCAGTTTCTTCTGCTGGACAAAACTCCA AGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGAGACTGAGGTTTTCGCA GCGTGTGCTCTCGGGCAAGGCGGATTGGGTGCTATGAGATCGTTCGGCGTACAATGCATGCATTTTGCGC CGTGTCCTTTTTATACTCGCTCAACTCTGCTCTTCCACGCTTAGGATGTTGGCATAATGGTTTTAACCGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCCATCCGCAAGGTGCAGCATCGACCGATCTTGATTTTTTAGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGGGTCTGTTTCCTGCCGAAGTTTCCCTCAGGAAAGC >gi|913748738|ref|NG_042545.1| Mortierella indohii CBS 720.71 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCCGGTTTACTGGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATCTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGGCGGAAAATCAGTCTTTTGTAGTGGGGAAGCGCGTGGGTTCAGACCGCAAGGCTGGCCTATGTGTTC TCTCTGCTGCGAGTGATGCACTTTTTCGTCTGCAGGCCAACATCAGTTTCTTCTGCTGGACAAAACTCTA AGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGAGACTGAGGTTTTCGCA GCGTGTGCTCTCGGGCAAGGCGGATTGGGTGCTATGAGATCGTTCGGCGTACAATGCATGCATTTTGCGC CGTGTCTTTTTCATACTCGCTCAACTCTGCTCTTCCACGCTTAGGATGTTGGCATAATGGTTTTAACCGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTGTTTGGGTGGCAAACCCATACCGTAA TGAAAGTGAACGTAGGTGCCATCCGCAAGGTGCAGCATCGACCGATCTTGATTTTTAGGATAATTGAAGT AAAAGCATAAATGCTGGGACCCGAAAGATGGTGAACTATGCCTGATAGGGTGAAGCCCGAAGAAACTCTG GTGGAG >gi|913748737|ref|NG_042544.1| Mortierella kuhlmanii CBS 157.71 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGAATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGGTGGAAAATCAGTCTTTTAGAGTAGGGAGTGGTGGGGGTTCGGACCGCAAGGCTGGCCTTTATCTCA TCTCTGCGCTAATGGATGCACTTTTTCATTTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCCG AGAGAAGGTAGCAGCTTTGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGGGACTGAGGTTTTCGCA GTGTGTGCTCTCGGGCAAGGTTGATTAGGTGCTATGTGATCGTTCGGTGTACAATGCATGCATTTTGCGC TGTGTCTTTTGCATACTCGCCTGACTCGACTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT >gi|913748736|ref|NG_042543.1| Mortierella gemmifera CBS 134.45 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAATCCTGGCTGGTTACTAGTCCGGATTGTAGTTAAAGAAGCTTT TCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGACTC AGTGAATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGT AAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAA GAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATGCGG GTGGAAAATCAGTCTTTTAGAGTAGGGAGTGGTGGGGGTTCGGACCGCAAGGCTGGCCTTTATTTCATCT CTGCTCTAATGGATGCACTTTTTCATTTGCAGGTCAACATCAGTTTCTTCTGCTGGACAAAACTCCGAGA GAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGGAGGGGACTGAGGTTTTCGCAGTG TGTGCTTTCGGGCAAGGTTGATTGGGTGCTATGTGATCGTTCGGTGTACAATGCATGCATTTTGCGCTGT GTCTTTTGCATACTCGCCTGACTCGACTCTTCCACGCTTAGGATGTTGACTTAATGGTTTTAAACGACCC GTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATACGCGTAATG AAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGT AAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCT GGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAAT CGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAG GTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAG AAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAG AACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAA AGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAA CTCACCTGCCGAATGAACTAGCCCTGAAAATACCCGGCGATCAAGAGCGCTGCCCCTAATTGGCGGTC >gi|913748735|ref|NG_042542.1| Mortierella longicollis CBS 209.32 28S rRNA, partial sequence; from verified material AGTGAAGCGGGAAAGGCTCAAATTTAAAAGCTGTTTTGCTTGCAAAACCGCATTGTATCCTATAGAAACG TTTTCTACTAGGGCTTTTGGTACAAGTCTCTTGGAACAGAGCATCAGTGAGGGTGAGAATCCCGTTCATG ACCAAAATGTCCCCCTGGTTCTACGATACGTTTTCGACGAGTCAGGCTGTTTGGGATTGCAGCTTCAATT GGGTGGTAAATTTCATCTTAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAG ATGAAAAGCACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGTTTGAAACCAGT CTGGTATACAGTTGATCAATCTTGGTTTTGGCCTGGATGCACTCTGCTGAATACCCGCCAAGGACAGTTT GAACTGGAGGAAAAAGATGGGAGGAAGGTGGCCCTCGGGTGTTATAGCCTCCTATGAAATACTCTGGTTT GGACTGAGGCTCGCAGCTAAAATGACAGTTTGATGTGACCTGAGTGGGACATTTGTTAAAACAGCTTGCT GATTTAATGAGTCGGCCCATTCACTCGTACCAAGCTCGTAATTGGCTTTGGTCTTTGGCATAATGGTTTT AAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTATTTGGATGGCAAATCCGCA TGCGAAATGAAAGTGATCTTGGGTGCCAAACCTTTTGGTGGCAGCATCGGCCGGCATGAACGTTTTTAAC TGAAATGTCTGAGCAAGAGCATACATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAG CCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGG GGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTTG TATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAA CTTTAAATATGTAAGACGCCTGTGCTTTCTTAGTTGAAGCCTGGCATTGAATGAAAGTTTCTAGTGGGCC ATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCAGAGTTAAGGTGCTAGAAGGCACGCTC ATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTA AGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTAGCC CATACTCTGCCGTCAGGGTTAAAGCGAAGCCCTGACGAGTAG >gi|913748734|ref|NG_042541.1| Umbelopsis autotrophica CBS 310.93 28S rRNA, partial sequence; from TYPE material AGAATGCACTCTCAAATATGCAGTCAACGTCAGTTGAGAGCGGGAAAAAGCTTGAGGAATGTGGCTTCGG GTGTATAGCTCTTGCTAAATACCGTCTCATGGACTGAGGCTCGCAGCAAAAATTTGGGCAGGCGTGCTTC TGAGGGGAATCATTATCAAGACAGCTTGCTGACTTGGTTTTGCCCAACTTCACAGTACGTTTCGCTTCTA ATTTGCTTAGGTCGTTGACATAATGGCTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAT ATATGCGAGTATTTGGGTGGCAAACCCACATGCGCAATGAAAGTGAAATTAGGTGCCAAACCTTCACGGG TGGCAGCATCGGCCGGCTCTGACGTTTTAACTGACGAGTCTGAGCAGAAGCATACATGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGAAACTTGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTT GGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATATGTAAGACGCTTAGCTTGCTTAATTGAAGC TAGGCATACGAATGAAAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGA ACGCAGAGTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCA GGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCC TGAAAATGGATGGCGCTCAAGCGTGTTGCCCATACTCTGCCGTCAATGTTAAAGCGAAGCATTGACGAGT AG >gi|913748733|ref|NG_042540.1| Mortierella cogitans CBS 879.97 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAATTGTAGTTTATAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCTTGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTTATG CGGGTGGAAAATCAGTCTTTCGCAGTGAGGAGTTGTGGGCGTTCAGACCGCAAGGCTGGCGTTTGCTTCA TTTTTGCTGTGAGTGATGCACTTTTTCATCTGCAGGTCAACATCAGTTTGCTCTGCTGGACAAAACCCCA AGGGAAGGTGGCAGCTTAGGCTGTGTTATAGCCCTGGGGCGATACAGTGGAGCGGACTGAGGTTTTTGCA GTGTGTGCTCTCGGGCAAGGCTGACTGGGTGCTATGGATTTGTTCGGCGTACAATGCATGCATTTTGCGT CGTGTCTTTTTCATACTCGCTCAACTCGGCTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGT >gi|913748732|ref|NG_042539.1| Mortierella stylospora CBS 211.32 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGGTGAGCTCAAATTTAAAATCTGGCTGGTTTACTAGTCCGAGTTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CTCAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CAGGTGGGAAATCAGTCAATCGTAGTGGGGAGTGGTAAAGGTTCGGACCGCAAGGCCGGCCTGTGCCTCA TCTTTGTTGCGCGTGATGCACTTTTCCATCAGCAGGTCAACATCAGTTTCCTCCGCTGGACAAAACTCTG AGAGAAGGTAGCAGCTTTGGCTGTGTTATAGCTCTGGAGCGATACAGTGGTGGGGACTGAGGTTTTCGCA GTGTGTGCTCTCGGGCAAGGCTGACCGGGTGCTATGGGATCGTTCAGTGTACAATGCATGCATTTTGCGC TGTGTCTTTTCTGTACTCGCCCGGCTCGGCTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATGCGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748731|ref|NG_042538.1| Mortierella angusta CBS 293.61 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGGATGAGCTCAAATTTAAAATCTGGCTGGTTTTCTAGTCCGAATTGTAGTTTAAAGAAGCG TTTTCGGTGGCAGCCCGGGTATAAATCCTTTGGAACAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGA CCTGGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGT GGTAAATTTCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATG CGGATGAAAAATCAGTCAATGGTGGTGAGGAGTGGTAGGGGTTCAGACCGCAAGGCTGGCTTTTGCTTCA TCTTTGTTGCCAGTGATGCACTTTTTCATTTGCAGGTCAACATCAGTTTCCCCTGCTGGACAAAACTCCG AGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACAGTGGGGGGGACTGAGGATTTCGCA GTGTGTGCTCTCGGGCAAGGCTGACTGGGTGCTATGGGATCGTTCAGCGTACAATGCTTGCATTTTGCGT CGTGTCTTTTCTATACTCGCTCAGCTCAGCTCTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTGTTTGGGTGGCAAACCCATACGCGTA ATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTG AGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATAATTCGCCGT CAGGGTAAAAGCGAAGCCCTGACGAGTAG >gi|913748730|ref|NG_042537.1| Dissophora ornata CBS 347.77 28S rRNA, partial sequence; from TYPE material GGAACAGGGTATCATAGAGGGTGAGAATCCCGTCTTTGACCTGGTGCATGCTACTATGTGATACGTTTTC AAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAGGCTAAATATTGGCG AGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTGC GTGAAATTGTTGAAAGGGAAACGTTTGACACCAGTCATGCGAATGAAAAATCAGTTAATGCTAGTGGAGA GTGGTACGGGTTCAGACCGCAAGGCTGGCCTTTGCTTCATCTCTGCTGTCATTGATGCACTTTTTCATTT GCAGGTCAACATCAGTTTTCCCTGCTGGACAAAACTCCAAGAGAAGGTAGCAGCTTAGGCTGTGTTATAG CTCTGGAGCGATACAGTGGGGGGGACTGAGGATTTCGCAGTGTGTGCTCTCGGGCAAGGCTGACTGGGTG CTATCGGATCGTTCGGTGTACAATGCATGCATTTTGCGCCGTGTCTTTCTTATACTCGCTCAGCTCAGCT CTTCCACACTTAGGATGTTGACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CATATATGCAAGTGTTTGGGTGGCAAACCCATACGCGTAATGAAAGTGAACGTAGGTGCGATCCGCAAGG TGCAGCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGACCCGAAAGA TGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTG CAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCG AAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGG CTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTTAATTGAGCCTGGA CATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC GAATTTAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGAC GGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCC >gi|913748729|ref|NG_042536.1| Candida lignicola ATCC MYA-4674 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGTCTTAGTAACGGCGAGTGAAGCGACAAAAGCT CAAATTTGAAATCTGACGCCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGTATGTCTTACTT TCGGGTGGGGCCTCTGCAGTTTATCGGGCCAGCATCAGTTTGGATGGTAGGATAATGACATTGGAATGTG GCTCCTCGGAGTGTTATAGCCCTTGTTGATACTGCCTATCTAGACTGAGGACTGCGTCTTTGACTAGGAT GCTGGCATAATGATTTTAAGCCGC >gi|913748728|ref|NG_042535.1| Simplicillium obclavatum CBS 311.74 28S rRNA, partial sequence; from TYPE material CTTAAGCATATCAATAAGCGGAGGAAAAGAAACAACAGGGATTGCCCAGTAACGGCGAGTGAAGCGGCAA CAGCTCAAATTTTGAAATCTGGCTCCCAGAGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGATGCGGTG CCTTCCGAGTTCCCTGGAACGGGACGCCATAGAGGGTGAGAGCCCCGTCTGGTCGGATGCCAAATCTCTG TAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGC TAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGG GTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCCTATGACCAGACTTGGGCCCGGTGAATCATCCAG CGTTCTCGCTGGTGCACTTTGCCGGGCACAGGCCAGCATCAGTTTGTCTTGGGGGAAAAAGGCTTTGGGA ATGTGGCTCCCTCGGGAGTGTTATAGACCATTGCATAATACCCTGGGACGGACTGAGGTTCGCGCATCTG CAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCTTCGTATGC GAGTGTTCGGGTGTAAAACCCCTACGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGA CCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGAAGGTGAACTAT TCCTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCGAATCGATCG TCAAAATATGGGAATGGGGGCGAAAGACTAATCGAAC >gi|913748727|ref|NG_042534.1| Neodeightonia palmicola MFLUCC 10-0822 28S rRNA, partial sequence; from TYPE material GTGGGAGGAAGAAACAAACAAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAA AGCTGGTCCTTTTAGGGTCCGCGTTGTAATCTGTAGAGGATGGTTCGGCGAGGGCTCCCGCCTAAGTCCC CTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGTTGCCTTAGCCATGTGAACCTCCTT CGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGC CAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTA CGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCG GCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGGCCTCGGGAATGTGGCTCCT CTCGGGGAGTGTTATAGCCCGGGGCGGAATGCGGCCAGCCTGGACTGAGGATCTCGCTTCGGCAAGGATG CTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTT GGGTGTCAAACCCATACGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAAGGGCGCACCATCGGCCGA TCCTGATGTCTTCGGATGGATTTGAGCAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCT GAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAA ATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGA TAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAA CCTATTCTCAACTTTAAATATGTAAGAGTCCTTGTTACTTAGTTGACGTGGACACTTGAATGTACCGTTA CTAGTGGGC >gi|913748726|ref|NG_042533.1| Trichosporon xylopini ATCC MYA-4670 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCT CAAATTTGAAATCTGGCAGTCTTCGATTGTCCGAGTTGTAATCTATAGAAGCGTTTTCCGTGCTGAACTG TGTATAAGTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTTACACAATCATCAGTGCTC TGTGATACGTTCTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAA GCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGAACGCTACGTATCATGTTTATTGGACTCAGCCG ATCTTCGGTGTACTTCCTTTAAACGGGTCAACATCAGTTTTGTCCGATGGATAAAGGTAGTAGGAAGGTG GCTCTCTCGGGAGTGTTATAGCCTATTGCCGCATACATTGGATGAGACTGAGGACTGCAGCTTGCCTTTA TGGCCGGGGTTCGCCCACGTTCAAGCTTAGGATGTTGACATATACTCGAGCGCACGC >gi|913748725|ref|NG_042532.1| Nannizziopsis pluriseptata UTHSC 10-1045 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAGAAG CTCAAATTTGAAATCTGGCCTCTTTGGGGGTCCGAGTTGTAATTTGCAGAGGACACTTCGGGTGCGGCCG CGGCCTAAGTCCCCTGGAACGGGGCGTCGCAGAGGGTGAGAATCCCGTCTTGGGCCGTGGGCCTGCCCCG TGTGAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTTCATCTAAG GCTAAATACTGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGGTTAAAAGCACCTTGAAAAGG GAGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGCGCTGGCAGCCAGACACGGACTCGGGGGCTCAGCG GGCATGCGTGCCCGTGCACTCCCCCGCGGTCCGGGCCAGCATCGGTTTCGGCGGCCGGTCAAAGGCCCCG GGAAGGTATCGTCCTCCGGGACGACTTACAGCCCGGGGTGCAATGCGGCCAGCCGGGACCGAGGTACGCG CTCCGGCACGGATGCTGGCGTAATGGCTGTCAGCGGCCCGTCTTGAAACACGGACC >gi|913748723|ref|NG_042531.1| Nannizziopsis arthrosporioides UTHSC R-4263 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAGAAG CTCAAATTTGAAATCTGGCCCCTCTGGGGGTCCGAGTTGTAATTTGCAGAGGACACTTCGGGTGCGGCCG CGGTCTAAGTCCCCTGGAACGGGGCGTCAGAGAGGGTGAGAATCCCGTCTTGGGCCGTGGGCTTGCCCCG TGTGAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTTCATCTAAG GCTAAATACTGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGGTTAAAAGCACCTTGAAAAGG GAGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTGGCAGCCAGACACGGACCCGGGGGCTCAGCG GGCATGCGTGCCCGTGCACTCCCCCGCGGTCCGGGCCAGCATCGGTTTCGGCGGCCGGTCAAAGGCCCCG GGAAGGTATCGTCCTCCGGGACGACTTACAGCCCGGGGCGCAATGCGGCCAGCCGGGACCGAGGAACGCG CTCCGGCACGGATGCTGGCGTAATGGCTGTCAGCGGCCCGTCTTGAAACACGGACC >gi|913748721|ref|NG_042530.1| Nannizziopsis draconii CCFVB CH12 28S rRNA, partial sequence; from TYPE material TGCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAGAA GCTCAAATTTGAAATCTGGCCCCTCTGGGGGTCCGAGTTGTAATTTGCAGAGGACACTTCGGGTGCGGCT GCGGTCTAAGTCCCCTGGAACGGGGCGTCGTAGAGGGTGAGAATCCCGTCTGGGACCGTGGACCTGCCCC GTGTGAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTTCATCTAA AGCTAAATACTGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGGTTAAAAGCACCTTGAAAAG GGAGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTGGCAGCCAGACAGGAACCCGGGGGCTCAGC GGGCATGMGTGCCCGTGCACTCCCCCGCGGTTCCGGCCAGCATCAGTTTTGGCGGCCGGTCAAAGGCCCC GGGAAGGTATCGTCCTCCGGGACGACTTACAGCCCGGGGTGCAATGCGGCCAGTCGGGACTGAGGAACGC GCTCCGCACCGGATGCTGGCGTAATGGCTGTCAGCGGCCCGTCTTGAAACACGGACCAA >gi|913748720|ref|NG_042529.1| Nannizziopsis chlamydospora UTHSC 04-2056 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAGAAG CTCAAATTTGAAATCTGGCCCCTCTGGGGGTCCGAGTTGTAATTTGCAGAGGACACTTCGGGTGCGGCTG CGGTCTAAGTCCCCTGGAACGGGGCGTCGGAGAGGGTGAGAATCCCGTCTGGGACCGTGGACCTGCCCCG TGTGAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTTCATCTAAA GCTAAATACTGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGGTTAAAAGCACCTTGAAAAGG GAGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGGGGTGGCAGCCAGACAGGAACTCGGGGGCTCAGCG GGCATCCCGTGCCCGTGCACTCCCCCGCGGTTCCGGCCAGCATCAGTTTCGGCGGCCGGTCAAAGGCCCC GGGAAGGTATCGTCCTCCGGGACGACTTACAGCCCGGGGTGCAATGCGGCCAGTCGGGACTGAGGAACGC GCTCCGGCACGGATGCTGGCGTAATGGCTGTCAGCGGCCCGTCTGAAAACACAGGAACC >gi|913748719|ref|NG_042528.1| Spencermartinsiella europaea 28S rRNA, partial sequence; from TYPE material AAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTT TGGTGTCCGAGTTGTAATTTGAAGAAAGTAACTTTTGGAATGAGCCTTGCATAAGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTATATGGTGGGGTATTCATTTCAATGTAAAGTGCTTTCGAAGAGTCG AGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGA TAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTG TTGAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAGCGATCTTTCGGGGTTGTGCACTTGC TGTTTACTGGGCCAGCATCGGTTTTGACGGTGGGATAAGAGTACTTGAATGTGGCTCTCTTCGGGGAGTG TTTATAGCCTGTGCTGATACCACCAGTTGAGACCGAGGACCGCGCATTTATGCTAGGATGCTGGCGTAAT GATTTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAA CCCGTACGCGTAATGAAAGTGAACGTAGGTGAGGGCCCGCAAGGGTGCATCATCGACCGATCCTGATGTT TTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTG AAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTAT AGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGC TCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTC AAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTG GGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATATTC GCTCATCAGAACCCAGAAAAGGTGTTAATTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCC GCTAAGGAATGTGTAACAACTCACCGGCCGAATGAATTAGCCCTGAAAATGGATGGCGCTTAAGCGAATT ACCTATACTCCACCGCTAGGGTTAGCAGTGATGCTCTAGCGAGTAGGCAGGCGTGGAGGTTTGTGACGAA GCCTTGGCAGTGATGCTGGGTCGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATG AGATCTTTGAAGACTGAAGTGGGGAAAGGTTCCGTGGGAACAGCAGTTGGCCACGGGTTAGTCGATCCTA AGAGATGGGGAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAATA TTCCGGAACTTGGATATGGATTCTTCACGGCAACGTAACTGAATGTGGAGACGTCGGCACAAGTCCTGGG AGGAGTTTTCTTTTCTTTTCAACAACCAAACACCCTGAAATTAGTTTGTCTAGAGCTAGGGTCTACTTGG TTGGAAGAGCCTGACACCTTTGTCAGGTCCGGTGCGCTTGTGACGATCCTTGAAAATCCGCAGGAAGGAA TAGTTTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAA TAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAG TGTTTTGGGTCTTGTTCCAGAACCCGAGGAACCTGGACGGAACTGTGTGGGATTCGCGTTTCACATGGAG CTGACTGGGATCTCTTGGCGGACGGGCTTGACAGATCTTTTTAAGGTCGTTCCGATTCACACCAAACGAC TAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAA AGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGC GGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCG CATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGG CTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATA GAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATT CAATTAAGCGGAATTGGACTTCACAGTCCACTTTCTAGTATTAAGGCATTTTTGCTGATCCGGGTTGAAG ACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGG ACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTG AATACAAACAATGAAAGTTTGGCCTATCGATCCTTTAGATCCTCGGAATTTGAGGCTAGAGGTGCCAGAA AAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGA TGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAAC GTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGACTGTTATCGCAATAGTAA TTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCC GCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATT TTTTGCCTCGCACATTTTAGATGGATAAAAATAAGGCTTTTGCCTCTGAACCATAGCAGGCTGGCAACGG TGCTCATTGCGGAAAGGCTTTGGGTGCTTGTCGGCGGATAGCAATGTACTAGTGAGCGGGGATAAATCCT TTGCAGACGACTTTGATGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748718|ref|NG_042527.1| Kodamaea ohmeri 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCCCCCCGGGG AGTTGTAATTTGAAGATTGCGTCTTGGAGGCGACCGTGTCTATGTTCCTTGGAACAGGACGTCACAGAGG GTGAGAATCCCGTGCGGCACGGCCCCCGGCTCCTTATAAGGCGCTCTCGACGAGTCGAGTTGTTTGGGAA TGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTA CAGTGATGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAACAGCACGTGAAATTGTTGAAAGGGAAGG GCATGCCGTCAGATTGTCAGTGTGGGTAAGAAGCGGGGTACAAAGACTGTGGAACGTGGCCCTCGGGTGT TATAGCCGCAGTTCATGCCCCGTCTCTTTCCGAGGCCTGCTTTGAGGACACCGACGTAATGACGGTACGC CGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTGTGGGTGTCAAACCCAAACGCG TAATGAAAGTGAACAGATGAGTTTCATCATCGACCGATCCTGAAGTGTTCGGATGGATTTGAGTAAGAGC ATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACC ATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATGAGGTAAA GCGAATGATTAGAGGTATTGGGGTTGAAATGACCTCGGCCTATTCTCAAACTTTAAATATGTAAGAAGTC CTTGTTGCTTAATTGAACGTGGACAGTCGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAGCAGAACT GGCGATGCGGGATGAACCGAACGCAAAGTTAAAGTGCCGGAATACACGCTCATCAGACACCACAAAAGGT GTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGAGTGTGTAACAACTCA CCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTATACTTTGCCGCCAGGGTG TATTTCGATGCCCTGGCGAGTAGGCAGGCGTGGGGGTTGTGACGAAGCCTTGGCAGTGATGCTGGGTCGA ACAGCCCCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGGGAACTTTGAAGACTGAAGTGGGG AAAGGTTCCATGTCAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGACGTGGGGAAGTTCTTGCAACG GCCCAATTCTCTGGGCCCTCGTCGAAAGGGAAACCGGTTAACATTCCGGTACTTGTATGTGTGTCTGACG GCAACGTAACAGAATGTGGAGACGTCGGCGTGAATCCCAAAAGGAGTTTTCTTTTCTTTTTAACCGTAAA CCACCCTGGAATCGGTTTATCCGGAGAGCGGGTACTACACGGTAAGAGCGGGTCCGCCCGTTTGGTGCAT TCACGACGGCCCTTGAAAATCCGCAGGACGATCCGATTTCACGACAAGTCGTACTCATAACCGCAGCAGG TCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAA CTTCGGGATAAGGATTGGCTCTAAGGGTTGGCGTATAACAACCATCTTAGAACTGGTACGGACAAGGGGA ATCTAACTGTCTAATTAAAACATAGCATTGCGACGGTCAGAAACTGATGTTGACGCAATGTGATTTCTGC CCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTC TCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAATGAGATTCCCACTG TCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGAC CCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATGGAGGGTGTAGCATAAGTGGGAGCGCAAG CGCCGGTGAAATACCACTACCTCCATCGTTTTTTTACTTACTCATCAGTGGACAGTACGCAAGTACCTTC TAGCTTTATAACCAGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGA TAACGCAGGTGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCC CTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAA TTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCG ACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGAT TGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTG ATGATTGTCGCCCCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGC GGCTGTCTGACAAGGCACCGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAA TCCATGCTAGAAGGGGGGATATCCTGTGCGTGAAAAAGACGGCAACAATATGTTTACCACTGCCCATAGG GTGCCAAGGTGAAGTCAGGAAAGTGGCCCACCCGCCCCTCATTGCAATTTATATCATGCTCAGATAAATC CTTTGCATACGACTGAGTTGTACAACGGAGTATTGTAAGCAGTAGAGTAG >gi|913748717|ref|NG_042526.1| Candida olivae ATCC MYA-4568 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATTAGACTTGGAACTTTCCAATTTATTGGA GCTTTCCGGGCCAGCATCAGTTTGGATGGTAGGATAATTGCGTTGGAAAGTAGCACTACTACGGTGGTGT ATTATAGACTTCGTCGATACTACCTATCTAGACTGAGGACCGCGTCTTTGACTAGGATGCTGGCGTAATG ATCTTAAGCCGC >gi|913748716|ref|NG_042525.1| Bandoniozyma complexa CBS 11570 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGATGAGCT CAAATTTGAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCG TGTCCAAGTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTC TGTGATACGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAA GCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGACTGTTGGGCTCAGCAG GTTCTGCCTGTGTATTCCCTTCAGTCGGGTCAACATCAGTTTTGACCGGTGGATAAGGGCAGCAGGAATG TGGCACCCTCGGGTGTGTTATAGCCTGTCGTCGCATACATCGGTCGAGACTGAGGAACGCAGCTCGCCTT TATGGCCGGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGAC >gi|913748715|ref|NG_042524.1| Pseudocercospora angolensis CBS 149.53 28S rRNA, partial sequence; from TYPE material GTTGACCTCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAA CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGT TGTAATTTGTAGAGGATGCTTCTGGGTAGCGGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGT GAGAATCCCGTATGTGATTGGCTTGCACCCTCCACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATG CAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGC CCGCAACCAGACTTTGCGGCAGTGTTCGGCCGGTCTTCTGACCGGTTTACTCGCTGTCGTGAGGCCATCA TCGTCTGGGACCGCTGGATAAGACCTTAGGAATGTAGCTCCCTTCGGGGAGTGTTATAGCCTCTGGTGAT GCAGCGCGTCTCGGGCGAGGTCCGCGCTTCGGCAAGGATGATGGCGTAATGGTTGTCGGCGGCCCGTCTT GAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGT GAACGGAGGTGGGAACTTTTTGTGCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGC ATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA GGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACC ATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAG CGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCC TTGTTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTG GCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATATACGCTCATCAGACACCACAAAAGGTG TTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCAC CTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTATTACCCATACCTCGCCGCCAGGGTAG AAACGATGCCCTGGCGAGTAGGCAGGCGTGGAGGCTCGTGACGAAGCCTTCGGAGTGATCCGGGGTAGAA CAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATACTCAAATGAGAACTTTGAGGACTGAAGTGGGGA AAGGTTCCGTGTGAACAGCAGTTGGACACGGGTTAGTCGATCCTAAGCCATAGGGAAATTCCGTTTTAAA GCGTGCGCTCCGCACCGCCCGGCGAAAGGGAAGCCGGTTAACATTCCGGCACCTCGATGTGGATTATCCG CGGCAACGCAACTGAAGGTGGAGACGTCGGCGGGGGCCCCGGGAAGAGTTCTCTTTTCTTCTTAACGGTC TATCACCCTGAAATCGGTTTGTCCGGAGCTAGGGTTTAACGACCGGTAGAGCGGCACACCTTTGTGCCGT CCGGTGCGCTCCCGACGACCCTTGAAAATCCGCCGGAAGGAATGATTTTCACGCGAGGTCGTACTCATAA CCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAAT AGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTTGGGCGCGTTGGGCCTTGGGCAGATTCCCCGG GAGCAGGTCGGCACTAGCTTCACGGCCGGCGCCTTCCAGCACCCGGTGGCGGACGCCCTTGGCAGGCTTC GGCCGTCCGGCGCGCGCTTAACAACCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTA AAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTC AAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAAT GCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTA GCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGAACCTATCCGTTC CGATTTACCAACGAACTACGAGTCAATCGTGAATTCAACGGGGTCAAGAGGTGATGGTCCCCTCGGGATC GGATCCTAGTCAATTCGACCGCAACAGCTGCGGGTGGTCGATGGCAACACCAGCTGGTACAGGGAAGGGA TTGCCGTAAGGCCAAAGGGCAATCCTAATCCTGTGGCGAGTCGGGCCGGGAAACTGGCAGACCGTCGCAA CGCGCGGAAAGCGGTGGGTTGATCTAATGTGCTTGGTCGCCTTAGGTTGGCTTGTGGGACGTGCTGGAGA CAATGTACACGATGAGCGCCCGCAGCGTAAAGCGTGTACGCCTACCGGAACCGAACGTGGGAAAGGTAGG TCTATCGTAGAAACGGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGGGGGTGTAGAATAGG TGGGAGCTTCGGCGCCGGTGAAATACCACTACCCTTATCGTTTTTTTACTTAATCAATGAAGCGGAACTG GTCTTCACCGACCATTTTCTGGCGTTAAGGTCCTTCGCGGGCCGATCCGGGTTGATGACATTGTCAGGTG GGGAGTTTGGCTGGGGCGGCACATCTGTTAAACCATAACGCAGGTGTCCTAAGGGGGACTCATGGAGAAC AGAAATCTCCAGTAGAGCAAAAGGGCAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATG AAAGTGTGGCCTATCGATCCTTTAGTCCCTCGAAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGG GATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCC TATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTT AGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGACCGTCGTCCCAATGGTAATACCGCTTAGTAC GAGAGGAACCGCGGTTTCAGATAATTGGTTTTTGCGGCTGTCCGACCGGGCAGTGCCGCGAAGCTACCAT CTGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCCAGAACGGGACGATCCTCTCTAGCACGC CTTAGGCGGATAAGAATAGGCACTGCCAGTACCTGGGACCCTCTCATCTCTTGCAGGACACGCAAGAGCG AAGGGCGTATCATAATTTAATCGCGCGCTAGGATGAATCCCTTGCAGACGACTTGGACGTCTAATCGGGT CGTGTAAGCAGTAGAGTAGCCTTGTTGTTACGATCTGC >gi|913748714|ref|NG_042523.1| Jaapia argillacea CBS 252.74 28S rRNA, partial sequence; from verified material TGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAG CGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTTTGGCCGTCCGAGTTGTAATTTAGAGAAGTGTTATCC GTGCTGGACCGTGTACAAGTCTCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATATGACACGGA CTACCAGTGCTCTGTGATGCGCTCTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAA ATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTACCGTGAGGGAAAGGTGAAAAGA ACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCGCGTCTGC CGGAACTCAGCCTAGCCTCGGCTTGGTGTATTTTCTGGTTGACGGGCCAGCATCAATTTTGACTGTCGGA CAAAGGCTGGGGGAATGTGGCACCTCCGGGTGTGTTATAGACCCTGGTCGTATACGATAGTTGGGATTGA GGACCGCAGCTTCGTGCTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATGCCTGCAAGTGTTTGGGTGGAAAACCCGAGCGCGTAACGAAAGTGAAAGTTGAGACCTC TGTCGTGGAGGGCATCGACGCCCGGACCTGATCTTCGGTGACGGATCTGCGGTGGAGCATGTATGTTGGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAAGCTCGTAGCGA TTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTG GTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTAAATCAGATTTATGTGGTAAAGCGAATGATT AGAGGAATTGGGGTTGAAACGACCTTGACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTT GATTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGAT GAACCGAACGTGAGGTTAAGGTGCCGGAATTTACGCTCATCAGACACCACAAAAGGTGTTGGTTCATCTA GACAGCAGGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAA CTAGCCCTGAAAATGGATGGCGCTCAAGCGTAATACCCATACCTCACCGTCAGCGTTGAAGTGACGCGCT GACGAGTAGGCAGGCGTGGAGGTCAGTGAAGAAGCCTTGGCAGCGATGCTGGGTGAACGGCTCAT >gi|913748713|ref|NG_042522.1| Hydropisphaera bambusicola CBS 124147 28S rRNA, partial sequence; from TYPE material ACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGTTGTAATTTGCAGAGGAT GTTTCTGGCGAGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCATAGAGGGTGAGAGCCCCGTACGGTTG GTCGCTAAGCCTCTGTGAAACTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTA TACGTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAG CACTTTGAAAAGAGGGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTCATGACCAGACTTGGGCC GGTTGATCATCCGCCGTTCTCGGCGGTGCACTCTGCCGGCTCAGGCCAGCATCAGTTCGGCCCGGGGGAT AAAGGCTTCGGGAATGTGACTCCCTCCGGGGAGTGTTATAGCCCGTTGCGCAATACCCTGGGCTGGGCTG AGGGCCGCGTTCTGCAAGGATGCTGGCGTAATGGTCATCAGTGACCCGTCTTGAAACACGGACCAAGGAG TCGTCTTCGTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGTAGGAGAGAGCTT CGGCGCATCTCCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCATACGGGGCCGGACCCGAA AGAAGGTGAACTATGCCTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATATGGGCATGGGGGGCGAAAGACTAATCGAACCCTTCTAGTAGCTGGTTTC CGCCG >gi|913748712|ref|NG_042521.1| Xeromphalina setulipes AH 36724 28S rRNA, partial sequence; from TYPE material TAGTACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTCCGGCCGTCCGAGTTGTAAT TTAGAGAAGTGTTATCCGCGCTGGACCGTGTACAAGTCTCCTGGAATGGAGCGTCATAGAGGGTGAGAAT CCCGTCTTCGACACGGACCCCCAGGGCTTTGTGATGCGCTCTCGAAGAGTCGAGTTGTTTGGGAATGCAG CTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTG AGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTG AAGTCAGTCGCGTTGGCCGGGGATCAACCTTGCATTCGTGCTTGGCGTACTTCCCGGTCGACGGGTCAGC ATCAATTTTGACCGCTGGATAAAGGTCAGGGGAATGTGGCATCTTCGGATGTGTTATAACCTCTGGCCGC ATACAGCGGTTGGGATTGAGGAACTCAGCACGCCGCAAGGCCGGGTTTTTAACCACGTACGTGCTTAGGA TGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCCGCGAGTGT TTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGATCCCTGTCGTGGGGAGCATCGACGCCC GGACCAGACCTTCTGTGACGGATCCGCGGTAGAGCGTGTATGTTGGGACCCGAAAGATGGTGAACTATGC CTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTC GAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATTAATGTTGCTACTCGGTGGTTAAGAGGCACCCG AAAGGGATGAAGCCTAGTGAGAGTTGAGGATTGCGACACCGTCAAATTGCGGGGACGTCCTTAGAGCCTT TGCTACCGCCTCTGCATGGAAACATAGCAGTGCGCACCAGGGTAATGACCTCGGGTATGGTAAAAACGCA AAGGATTGGATAATCCGCAGCCAAGTCCTAAGGGGTTGTTGTGCGAACGACAGCCTACGGATGCAGTTCA CAGACTAGATGGCGGTGGGTGCGGCGGAAATCCGTCGTGCTTAAGATATAGTCGGTCCTGCCGCGAAAGC GGACTGGCAGATGAAGGCTTGCTGACCCCTCAACTACAAGGTCGCAGGCCCCGAGCTGCTGGGAGGTGCT TCTGAAATATTGAAGTGCTTTGGGGTTAAATGCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAG CAGAAACTCATTATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAAC CTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTGATTGGACCGCTCGGCGATTGAGAGTTTC TAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAA TTCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGG AATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGC GTGATACCCATACCTCGCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGTCAGTGA AGAAGCCTGGCAGCGATGC >gi|913748711|ref|NG_042520.1| Acanthostigma septoconstrictum ILLS 59356 28S rRNA, partial sequence; from TYPE material GCCTCAGTAACGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAATCAGGCACCCGCCCGAATTGTAATTT GTAGAGGATGCTTCGGCCTACGTCTCGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCC CGTTTGTGGCCGTGACTTCCGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTA AATGGGAGGTATGTTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGA AAGATGAAAAGCACTTTGGAAAGAGAGTCAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACC AGACTTGCTCGTAGTTGCTCAACCGGTCCTCCGGCCGGTGCACTCTTCTACGGTCAGGCCAGCATCAGTT CGGGTGGTTGGATAAAGGCCTTGAGAATGTGGCTCTCTTCGGGGAGTGTTATAGCTCTTGGTGCAATACA GCCCGCCTGGACTGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAA ACACGGACC >gi|913748710|ref|NG_042519.1| Lichtheimia ornata CBS 291.66 28S rRNA, partial sequence; from TYPE material TGATTCCCCTAGTAACGGCGAGTGAAGAGGGAAAAGCTCAAAGTTGGAACCTGGCTGTCCTAGATAGTCC GGATTGTAAACTAAAGAGCGTGAGTCCAGGCAAGCCGGTTGATCAAGTCCTTTGGAATGAGGCGCCACTG AGGGTGAGAGCCCCGTAAATCGACTGAGCATTTGTCTTTTGTGTCTCGCGTTCAAAGAGTCAGGTTGTTT GGGAATGCAGCCTAAAGCTGGTGGTAAATCCCACCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAAC AAGTACCGTGAGGGAAAGATGAAAAGTACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGCCAAGAGG GAAGCATTTGGAGTTAGACTGACTTGGAGTTAATCAGCTTGGTCTTYGGACTGGGTGTACTTGACTTCTA TGTCTGCCAACAGCAGTTAGTCCTGATGGAAAAAACTGAAGGGAAGGTAGTCCTTCGGGATGTTTATAGA CCTTTGGAAAATACATTGGGATTGACTGAGGAATGCAGTAGATGCTATTAAGGCTTCGTCTATTGGGTGT TAGGTAAAGGTACTTGGTATTTTCAGCTTGCTGATGTGCTAGGTTACTTGAGCTTAATTGCCTAGTAGAA CTGTAATC >gi|913748708|ref|NG_042518.1| Lichtheimia ramosa CBS 582.65 28S rRNA, partial sequence; from TYPE material TGATTCCCCTAGTAACGGCGAGTGAAGAGGGAAAAGCTCAAAGTTGGAACCTGGCTGCCCTAGGCAGTCC GGATTGTAAACTAAAGAGCGTGAATCCAGGCAAGCCGGTTGACCAAGTCCTTTGGAATGAGGCGCCACTG AGGGTGAGAGCCCCGTAAGTCGACTGAGCATTTGTCTTTTGTGCTTCGCGTTCAAAGAGTCAGGTTGTTT GGGAATGCAGCCTAAAGCTGGTGGTAAATCCCACCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAAC AAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGCCAAGAGG GAAGCATTTGGAGTTAGATTGACTAGGAGTTAATCAGCTTGGTCTTTGGACTGGGTGTACTTGACTTCTA ATGGTCTGCCAATAGCAGTTAGTCCTGGTGGAAAAAACCAGAGGGAAGGTAGTCCTTCGGGATGTTTATA GACCTTTGGAAAATACACTGGGACTGACTGAGGAATGCAGTAGATGCCACTAAGGCTTCGTCTAGTGGGT GCTAGGCAAAGGTACTTGGTATTTTCAGCTTGCTGATGTGCCAGGTTACTTGAGTCTAGTCGCCTACTAG AACTGTAATC >gi|913748706|ref|NG_042517.1| Lichtheimia hyalospora CBS 173.67 28S rRNA, partial sequence; from TYPE material TGATTCCCCTAGTAACGGCGAGTGAAGAGGGAAAAGCTCAAAGTTGGAACCTGGCTGTCTTAGATGGTCC GGATTGTAAACTAAAGAGCGTGAATCCAGGCAAGCCGGTTGACAAAGTCCTTTGGAATGAGGCGCCACTG AGGGTGAGAGCCCCGTAAGTCGACTGAGCATTTGTCTTTTGTGTTTCGCGTTCAAAGAGTCAGGTTGTTT GGGAATGCAGCCTAAAGCTGGTGGTAAATCCCACCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAAC AAGTACCGTGAGGGAAAGATGAAAAGTACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGCCAAGAGG GAAGCATTTGGAGTTAGACTGACTTGAAGTCAATCAACTTGGTCTTTGGACTGGGTGTACTTGGCTTTTA TGTCTGCCAACAGCAGTTAGTTCTGGTGGAAAAAACTAGAGGGAAGGTAGTCCTTCGGGATGTTTATAGA CCTTTAGAAAATACACTGGGACTGACTGAGGAATGCAGTAGATGCTATTAGGCTTCGTCTTGTGGGTGTT GGGTAAAGGTACTAGGTGTTTTCAGCTTGCTGATGCGCATTGTGCCCGAGTCCATCCACTCACAAGTACT GTAATC >gi|913748705|ref|NG_042516.1| Umbilicaria maculata KRAM L 53238 28S rRNA, partial sequence; from TYPE material ACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCGTTCGGCGGTCCGAGTTGTAATTTGTAG AAGATGCTTCGGGTGCGGCGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTA TGTGACCGGTGACCCAGCCCGTGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAAT GGGTGGTAAATTTCATCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAG ATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGA CTCGCTCGCGGGCGATCAGCCGTCCTTTTGGGCGGTGCACTCGCCCGTGATCGGGCCAGCATCGGTTCAG GCGGCTGGATAACGGCCCCGGGAATGTGGCTCCCCTCGGGGAGTGTTATAGCCCGGGGCGCAATGCGGCC CGCCGGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTCGTAAGCGACCCGTCTTGAAACA CGGACCAAGGAGTCTAACATCTGTGCGAGTGTTTGGGTGTCAAACCCATGCGCGGAATGAAAGTGAACGG AGGTGGGAACCCTTCAGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGGATTTGAGTAAGAGCAT AGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAAGAAACTCTGGTGGAGG CTCGCAGCGGTTCT >gi|913748704|ref|NG_042515.1| Cryptococcus shivajii NCYC 3541 28S rRNA, partial sequence; from TYPE material AAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTTG AAATCTGGCGTCCTTCGGGCGTCCGAGTTGTAATCTATAGAAGCGTTTTCCGCGCCGGACTGTGTATAAG TCTCCTGGAACGGAGTATCAAAGAGGGTGACAATCCCGTGCTTTACACAACGACCGGTGCTCTGTGATAC GCTCTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAACTCCATCTAAAGCTAAATA TTGGTGGGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAA CAGTATGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCATTGGGTTCAGCCGGTTCTGCC GGTCTACTCCCTTTGGACGGGTCAACATCAGTTCTGGTCGGCGGATAAGGGCGTGAGGAACGTGGCACCC CTCGGGGTGTGTTATAGCCTCGCGTCGCATACGCTGGTCGGGACTGAGGAACGCAGCTCGCCTTTATGGC CGGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTG >gi|913748703|ref|NG_042514.1| Ogataea thermomethanolica ATCC MYA-4465 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAAACAATCTTGGATTTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCTGATGAGGTGTCCATTTCTATGT AAGATGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTTGATCAGACTTGGTATTTAGTTATCATTGCTC CTTGTGGGTGGTGCTCTAACTTTTTACTGGGCCAGCATCAGTTTTGGCGGCAAGATAATCGCAGTTGAAT GTAGCTCCTTGGAGTATTATAGCTTCTGTTGATATTGCCTGCTGAGACTGAGGTCTGCGGCTTCTGCCTA GGATGCTGGCGTAATGATTAAATACCGCCCGT >gi|913748702|ref|NG_042513.1| Ogataea siamensis ATCC MYA-4464 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAAGTAATCTTGGAGGTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGGTGTCCATTTCCATGT AAGATGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTTGATCAGACTTGGTATTTAGTTATCATTGCTC CTTGTGGGTGGTGCTCTAACTTTTTACTGGGCCAGCATCAGTTTTGGTGGTAAGATAATGACAGTTGAAT GTGGCTCCTCGGAGTGTTATAGCTTCTGTTGATGTTGCCTACCGGGACTGAGGTCTGCGGCTTTGCCTAG GATGCTGGCGTAATGATCCAATACCGCCCGT >gi|913748701|ref|NG_042512.1| Ogataea nakhonphanomensis ATCC MYA-4463 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACTTTCGGTGCCCGAGTTGTAATTTGAAGAAAACAATCTTGGATTTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCTGATGAGGTGTTCATTTCTATGT AAGATGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTTGATCAGACTTGGTATTTAGTTATCATTGCTC CTCGTGGGTGGTGCTCTAACTTTTTACTGGGCCAGCATCAGTTTTGGCGGCAAGATAATCGCAGTAGAAT GTAGCTCCTCGGAGTATTATAGCTTTTGTTGATATTGCCTGCTGAGACTGAGGTCTGCGGCTTTTGCCTA GGATGCTGGCGTAATGATTAAATACCGCCCGT >gi|913748699|ref|NG_042511.1| Ogataea chonburiensis ATCC MYA-4462 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAAGCTATCTTGGATTTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCTGATGAGGTGTCCATTTCTTTGT AAGATGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTTGATCAGACTTGGTATTTAGTTATCATGACTC CTCGTGTGTTATGCTCTAGCTTTTTACTGGGCCAGCATCAGTTTTGGTGGCAAGATAATGACTGTTGAAT GTAGCTCCTTGGAGTATTATAGCCTCAGTTGATATTGCCTACCGGGACTGAGGTCTGCGGCTTTGCCTAG GATGCTGGCGTAATGATCCAATACCGCCCGT >gi|913748695|ref|NG_042510.1| Ogataea polymorpha ATCC 34438 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAAGCTATCTTGGAGGTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCATGGAGGGTGAGAATCCCGTGTGATGAGGTGTCCATTTCCGTGT AAGATGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTTGATCAGACTTGGTATTTAGCTATCATCGCTC CTTGTGGGTGGTGCTCTAGCTTTTTACTGGGCCAGCATCAGTTTTGGTGGCAAGATAATGACAGTTGAAT GTGGCTCCTCGGAGTGTTATAGCTTCTGTTGATGTTGCCTACCGAGACTGAGGTCTGCGGCTTTTGCCTA GGATGCTGGCGTAATGATCCAATACCGCCCGT >gi|913748694|ref|NG_042509.1| Nannizziopsis guarroi CCFVB CH10 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAGAAG CTCAAATTTGAAATCTGGCCCCTCTGGGGGTCCGAGTTGTAATTTGCAGAGGACACTTCGGGTGCGGCCG CGGTCTAAGTCCCCTGGAACGGGGCGTCGGAGAGGGTGAGAATCCCGTCTGGGACCGTGGACCTGCCCCG TGTGAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTTCATCTAAA GCTAAATACTGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGGTTAAAAGCACCTTGAAAAGG GAGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTGGCAGCCAGACAGGAACCCGGGGGCTCAGCG GGCATGCGTGCCCGTGCACTCCCCCGCGGTTCCGGCCAGCATCAGTTTCGGCGGCCGGTCAAAGGCCCCG GGAAGGTATCGTCCTCCGGGACGACTTACAGCCCGGGGTGCAATGCGGCCAGTCGGGACTGAGGAACGCG CTCCGGCACGGATGCTGGCGTAATGGCTGTCAGCGGCCCGTCTTGA >gi|913748693|ref|NG_042508.1| Chytridium olla UACCC ARG100 28S rRNA, partial sequence; from TYPE material GCTCAACTTTGAAATCTCTCGGTTTCCCTGTGCGAATTGTAGGTCTAAAGAAGCGTTTTCGGGGGCGGCT CGGGTAAAAGTCCTTTGGAACAAGGCATCAGAGAGGGATGAGAATCCCGTACCTGACCCGGTGTTCGCTC CTATGTGATACGTCTTCAAAGAGTCGGATAGCTTGGGAATGCTGTCCAAAATGGGTGGTAAATACCATCT AAGGCTAATTATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAA AGAGAGTTAAACAGTACGTGAAATTGTCTAAAGGGAAACGGCTTTGAAACCAGTATTGCGCGTCAGAGAT CAGCCATCCATTAGGGTGGTGCACTCTCTGGCGTCGCGGGTCAGCATCGGTTTTGCTTAAAGTATAAAGC TTGAGGAAGGTGACCCCTTGTGGGTGTTATAGCCTCAAGTCATGCTTTGGGCGAGACCGAGGACCGCAGC CATGCTATTGGGGAAGCGGCCGCCTCTTTTTACGCGTTGCCAAACAACTTGTTGATTGGTGGCGTCTTGT GAATTGCGCACGGTCGTCTAACCACACCTTGGCTTAGGATGCTGACGAAATGGTTTTAAACCACCCGTCT TGAAACACGGACCAAGGAGTCCAACACATATGCGAGTCTTTGGGTGGCAAACCCACGGGCGTAATGAAAG TGAAAGGGTACGAACTTTGTTGTGCAGTACCGACCGGTCTGGATTTTTTTGATGGATCTGAGTATGAGCA TATGTGCTGGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGG >gi|913748692|ref|NG_042507.1| Candida tetrigidarum ATCC MYA-4369 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCTCTTTCAGAGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGGCTGGCTCTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGACCCAGTCCTATG TAAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGTATGTTACTTC TTCGGGGGTGGCCTCTGCAGTTTGCCGGGCCAGCATCAGTTTGGGCGGTAGGACAATCGCGCAGGAACGT GGCACGGCTTCGGTTGTGTGTTATAGCCTGTGTGGATACTGCCAGCCTAGACTGAGGACTGCGGTTTATA CCTAGGATGTTGGCATAATGATCTTAAGTCGC >gi|913748691|ref|NG_042506.1| Candida labiduridarum ATCC MYA-4368 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCTCTTTCAGAGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGCCTGGCTCTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGGGATGATCCAGGTCTATG TAAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGTATGTTGCTTC TTCGGGGGCGGCCTCTACAGTTTACCGGGCCAGCATCAGTTTGGGCGGTAGGAGAATCGCTTGGGAACGT GGCACGACCTCGGTTGTGTGTTATAGCCCTTGTGGATACTGCCAGCCTAGACTGAGGACTGCGATTATAT CTAGGATGTTGGCATAATGATCTTAAGTCGC >gi|913748690|ref|NG_042505.1| Candida buenavistaensis ATCC MYA-4365 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCGCTTTCAGCGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGCCCGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGACCCGGGTCTATG TAAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTTGTATGTTGTTC TTTCGGGGGCGGCCTCTACAGTTTACCGGGCCAGCATCGGTTTGGAGCGGTAGGATAATTGCGAAGGAAT GTGGCACGGCTTTTGTTGTGTGTTATAGCCTTTTCGTAGATACTGCCAGCCTAGACCGAGGACTGCGGCG TAAGCCTAGGATGTTGGCATAATGATCTTAAGTCGC >gi|913748689|ref|NG_042504.1| Candida alai ATCC MYA-4364 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTCAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACCTTTGGTGCCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGTACGGCACTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGAGTTGTCCGTGTCCGTGT AAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTTTGAGATCAGACTTGGTATTTTGCATGGCTCTCGG GTCCTCTGCAGTTTACTGGGCCAGCATCGGTTTGTCTGGCGGGATAATTGCGCAGGAATGTGGCACGGTT CGCCGTGTGTTATAGCCTGTGTGGATGCCGGCGGGTAGACCGAGGACTGCGATTTTTTTAATCTAGGATG CTGGCATAATGATCCCAAACCGC >gi|913748688|ref|NG_042503.1| Candida bohioensis ATCC MYA-4363 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCACTTTCAGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGATCTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGTTCCAGATCTATG TAAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGTATGTTGTTCT TTCGGGGGCAGCCTCTACAGTTTATCGGGCCAGCATCGGTTTGGACGGTAGGATAATGGCAAAGAAATGT GGCAAGCTTCGGTTTGTGTTATAGTCTTTGTTGATACTGCCAGTCTAGACCGAGGACTGCGGCTTCTGCC TAGGATGCTGGCATAATGATCTTAAGTCGC >gi|913748686|ref|NG_042502.1| Candida ascalaphidarum ATCC MYA-4358 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGTAGAAGGTAACCTTGGGTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCATTCCTATGT AAGGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATGAGATCAGACTTGGTATTTTGCAACCTTTCTTT CGGGAGGGGCCCCTGCAGTTTACCGGGCCAGCATCGGTTTTGATGGCAGGATAATGGTATTGGAATGTGA CTCGACTACGGTTGAGTGTTATAGCCTTTGCTGATACTGCCTATCGAGACCGAGGACTGCGTCTTTGACT AGGATGCTGGCATAATGATCCTATGCCGC >gi|913748684|ref|NG_042501.1| Candida corydali ATCC MYA-4357 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACTTTCAGTATCCGAGTTGTAATTTGAAGAAGGTATCTTTGGACCTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCTCCAGGTCTATG TAAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGATATTTTGTATGTTGTTCT TTCGGGGGCAGCCTCTACAGTTTATCGGGCCAGCATCGGTTTGAACGGTAGGATAATGGTAAAGAAATGT GGCATCACTTGTGATGTGTTATAGTCTTTTATTGATACTGCCAGTTTAGACCGAGGACTGCGATTTTTAA TCTAGGATGTTGGCATAATGATCTTAAGTCGC >gi|913748683|ref|NG_042500.1| Candida chauliodis ATCC MYA-4356 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACTTTCAGTGCCCGAGTTGTAATTTGAAGAAGGTATCTTTGGACCTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCTCCAGGTCTATG TAAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGTATGTTGTTCT TTCGGGGGCGGCCTCTACAGTTTACCGGGCCAGCATCGGTTTGAACGGTAGGATAATGGTAAAGAAATGT GGCATTACTTGTGATGTGTTATAGTCTTTATTGATACTGCCAGTTTAGACCGAGGTCTGCGATTTTAATC TAGGATGTTGGCATAATGATCTTAAGTGC >gi|913748682|ref|NG_042499.1| Candida atbi ATCC MYA-4351 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTCCGCAAGGCGAGTTGTAATTTGAAGAGGCAACTTTGGACTGGTCCCTTGTCTATGT TCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGGAGCGCCAGTCCGTGTAAAGTGCT TTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTG GCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAAAAG TACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTGACTCGTCACTGGGCCAGCATCGGTT CGGGTGGCAGGATAATACCGTAGGAACGTAGCTCAGCTTCGGGTGAGTGTTATAGCCTGGGGAGATACTG CCAGCCTGGACCGAGGACTGCGGCAACTAGGATGCTGGCATAATGATCTTAAGCCGC >gi|913748681|ref|NG_042498.1| Candida jeffriesii ATCC MYA-4346 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCAGTTTCACTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGTCTGGCGCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGACGGGCTGCCCAGATCCGTGT AAAGTTCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCATGCGATCAGACTTGGTATTTTGTATGTCTTGCTT TCGGGCGGGGCCTCTGCAGCTTACTGGGCCAGCATCGGTTCGGGTGGCAGGACAATTGCGGAGAAATGTG GCACGGCCTCGGTTGTGTGTTATAGTCTCTGTCGATACTGCCTGCCTGGACCGAGGACTGCGTCTTACGA CTAGGATGCTGGCATAATGATCGTACGCCGCCCGTCTTG >gi|913748680|ref|NG_042497.1| Candida lessepsii ATCC MYA-4338 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGCGCCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGAATTTTCCAGCAATGGAGC TTTCCGGGCCAGCATCAGTTTGGATGGCAGGATAATTGCGTAGAAAAGTGGCACTACTTCGGTGGTGTGT TATAGTCTGCGTCGATACTGCCTGTCTAGACTGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGAT CTTAAGCCGC >gi|913748679|ref|NG_042496.1| Candida endomychidarum ATCC MYA-4335 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGCGTCTTCGGCGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGAATTTTCCAGCAATGGAGC TTTCCGGGCCAGCATCAGTTTGGATGGCAGGATAATTGCGTAGGAAAGTGGCTCCACTACGGTGGAGTGT TATAGCCTGCGTCGATACTGCCTGTCTAGACTGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGAT CTTAAGCCGC >gi|913748678|ref|NG_042495.1| Candida gorgasii ATCC MYA-4334 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGTCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGAATTTTCCAGCAATGGAGC TTTCCGGGCCAGCATCAGTTTGGATGGCAGGATAATTGCGTAGAAAAGTAGCACTACTTCGGTGGTGTAT TATAGTCTGCGTCGATACTGCCTGTCTAGACTGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGAT CTTAAGCCGC >gi|913748677|ref|NG_042494.1| Candida michaelii ATCC MYA-4332 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGAATTTTCCAGTAATGGAGC TTTCCGGGCCAGCATCAGTTTGGATGGCAGGATAATTGCGTAGAAAAGTAGCTCTACTTCGGTGGAGTGT TATAGTCTGCGTCGATACTGCCTGTCTAGACTGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGAT CTTAAGCCGC >gi|913748676|ref|NG_042493.1| Candida amphicis ATCC MYA-4331 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGCACCTTCGGTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGAATTTTCCATTACATGGAG CTTTCCGGGCCAGCATCAGTTTGGATGGCAGGATAATTGCGTTGGAAAGTAGCTCTACTTCGGTGGAGTA TTATAGCCTTCGTCGATACTGCCTGTCTAGACTGAGGACTGCGTCTTTGACTAGGATGCTGGCATAATGA TCTTAAGCCGC >gi|913748675|ref|NG_042492.1| Candida blattariae ATCC MYA-4330 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAATAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAGGTATCTTTGGTTTTGGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGCCCAATTCCATGT AAAGTTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATTAGACTTGGAATTTTCCAATTATTGGAG CTTTCCGGGCCAGCATCAGTTTGGATGGCAGGATAATTGCGTTGGAAAGTAGCACTACTTCGGTGGTGTA TTATAGACTTCGTCGATACTGCCTATCTAGACTGAGGACCGCGTCTTTGACTAGGATGCTGGCATAATGA TCTTAAGCCGC >gi|913748674|ref|NG_042491.1| Candida taliae ATCC MYA-4322 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCTCTGATTCAGGGTCCGAATTGTAATTTGAAGAAGCGACTTTGGGCCTGGCTCT TGTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGAAGCCCAGGTTCGTG TAAAGCGTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTTGTTTTTCCATGGCGCTCTT TTGGGGGTGTCCTCTGGGTCTACAGGGCCAGCATGGGTTTTGCGGGCGAGACAAGGACTCAGGAATGTGG CTCTGCTTCGGTGGAGTGTTATAGCCTGGGGTACTGGTCGCCATGCGGGACCGAGGACTGCGGTACTAGG ATGCTGGCATAATGATCTTAAGCCGC >gi|913748673|ref|NG_042490.1| Candida anneliseae ATCC MYA-4321 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCTCTATTTTGGGGTCCGAATTGTAATTTGAAGAAGCGACTTTGGACCTGGCTCT TGTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGAAGCCCAGGTTCGTG TAAAGCGTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTTGTTTTTCCATGGCGCTCTT TCGGGGGTGTCCTCTGGGTCTACAGGGCCAGCATGGGTTTTGCGGGCGAGACAAGGACTCAGGAATGTGG CTCTGCTTCGGTGGAGTGTTATAGCCTGGGGTACTGGTCGCCATGCGGGACCGAGGACTGCGGTACTAGG ATGCTGGCATAATGATCTTAAGCCGC >gi|913748672|ref|NG_042489.1| Candida maxii ATCC MYA-4320 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCTCCTTTGCGGGGGTCCGAGTTGTAATTTGAAGAAGCGACTTTGGGCCTGGCTC TTGTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGAGACCCAGGTTCGT GTAAAGCGTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAG CTAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAG AGTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTTGTTTTTCCATGGCGCTCT TTCGGGGGTGTCCTCTGGGTCTACAGGGCCAGCATGGGTTTTGCGGGCGAGACAAGGACCTAGGAATGTG GCTCTGCTTCGGTGGAGTGTTATAGCCTGGGGTACTGGTCGCCATGCGGGACCGAGGACTGCGGTACTAG GATGCTGGCATAATGATCTTAAGCCGC >gi|913748671|ref|NG_042488.1| Candida atakaporum ATCC MYA-4317 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCCTCTGGTCCGAGTTGTAATTTGAAGAAGCGACTTTGGTACCGGCTCTTGTCTA TGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGTCCGGTGCTATGTAAAGC GTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATA TTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAA AAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTTGTATTTCCATGGCGCTCTTTCGGGG GTGTCCTCTGGGTTTACAGGGCCAGCATGGGTTCTGCGGGCGAGATAAGGACTTAGGAATGTGGCTCCGC TTCGGGGGAGTGTTATAGCCTGATGTACTGGTCGCCACGCGGGACCGAGGACTGCGAATCTAGGATGCTG GCATAATGATCTTAAGCCGC >gi|913748670|ref|NG_042487.1| Candida choctaworum ATCC MYA-4315 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCCTTGCGGTCCGAATTGTAATTTGAAGAAGCGACTCTGGACCCGGCCCTTGTCT ATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGGGGGTGCCTGGGTCTATGTAGA GCGTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGA AAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGGGATCAGACATTGTATTTCCATGGCGCTCTCTCGG GGGTGTCCTCTGGGCTTACAGGGCCAGCATGGGTTCTGCGGGCAAGACAAGGCCGCGAGGAATGTAGCTC TGCTGCGGCGGAGTGTTATAGCCTCACGGTACGGTTGCCACGCGGGACCGAGGACTGCGAATCTAGGATG CTGGCATAATGATCTTAAGCCGC >gi|913748669|ref|NG_042486.1| Candida wounanorum ATCC MYA-4312 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCCGCAAGGTCCGAATTGTAATTTGAAGAAGCGACTCTGGTACCGGCCCTTGTCT ATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGGGGAGCCCGGTGCTATGTAGAG CGTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAA AAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGGGATCAGACATTGTATTTCCATGGCGCTCTCTCGGG GGCGTCCTCTGGGTTTACAGGGCCAGCATGGGTTCTGCGGGCAAGATGAGGGTGTGGGGAACGTGGCTCT GCTTCGGCCGAGTGTTATAGCCCCGTACACTGGTTGCCACGCGGGACCGAGGATTGCGAATCTAGGATGC TGGCATAATGATCTTAAGCCGC >gi|913748668|ref|NG_042485.1| Candida bokatorum ATCC MYA-4308 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCCTGTGGTCCGAATTGTAATTTGAAGAAGCGACTCTGGTACCGGCCCTTGTCTA TGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGGGGAGTCCGGAGCCATGTAGAGC GTTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATA CAGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAA AAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGGGATCAGACTTTGTATTTCCATGGCGTTCTCTCGGGA GCGTCCTCTGGGTTTACGGGGCCAGCATGGGTTCTGCGGGCAAGACAAGGGGGACAGGAATGTGGCTCTG CCTCGGCGGAGTGTTATAGCCTGGCCTTTTCCGGTTGCCACGCGGGACTGAGGACTGCGAATCTAGGATG CTGGCATAATGATCTTAAGCCGC >gi|913748667|ref|NG_042484.1| Tsuchiyaea wingfieldii CBS 7118 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTTCGGGCGTCCGAGTTGTAATCTACAGAAACGTTTTCCGTGCTGGACTGTGTCTAA GTTCCTTGGAATAGGATATCAAAGAGGGTGACAATCCCGTACTTGACACAATCACCAGTGCTCTGTGATA CGTTTTCTACGAGTCGCGTTGCTTGGGAATGCAGCGCAAAATGGGTGGTAAACTCCATCTAAAGCTAAAT ATTGGTGGAAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCTATTGGGTTCAACCAGTTCTGC TGGTGTATTCCCTTTAGACGGGTCAACATCAGTTCTGATCGGTGGATAAGGGCATGAGGAATGTAGCAAT CTTCGGGTTGTGTTATAGCCTTGTGTCGCATACACTGGTTGGGACTGAGGAATGCAGCTCGCCTTTATGG CCGGGGTTCGCCCACGTTCGAGCTTAGGATGTTGACAAAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748666|ref|NG_042483.1| Cryptococcus dejecticola CBS 10117 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGCCCCGGACCGTGTATAA GTCTCCTGGAACGGAGTATCAAAGAGGGTGACAATCCCGTGCTTTACACGACGACCGGTGCTATGTGATA CGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAACTCCATCTAAAGCTAAAT ATTGGTGGGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTATGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCATTGGGTTCAGCCGGTCCTGC CGGTCTACTCCCTTTGGACGGGTCAACATCAGTTCTGATCGGCGGATAATGGCACGGGGAACGTGGCACC CTCCGGGGTGTGTTATAGCCTCGCGTCGCATACGCTGGTCGGGACTGAGGAACGCAGCTCGCCCTCACGG GCCGGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748665|ref|NG_042482.1| Cryptococcus bestiolae CBS 10118 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAAGCGTTTTCCGCGCCGGACCGTGTATAA GTCTCCTGGAACGGAGTATCAAAGAGGGTGACAATCCCGTGCTTTACACGACGACCGGTGCTCTGTGATA CGTTCTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAACTCCATCTAAAGCTAAAT ATTGGTGGGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTATGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCATTGGGTTCAGCCGGTCCTGC CGGTCTACTCCCTTTGGACGGGTCAACATCAGTTCTGACCGGTGGATAATGGCACGAGGAACGTGGCACC CCCAGGGGTGTGTTATAGCCTCGCGTCGCATACACTGGTTGGGACTGAGGAACGCAGCTCGCCTTCATGG CCGGGGTACGCCCACGTACGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748664|ref|NG_042481.1| Cryptococcus amylolentus CBS 6039 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTTCGGGCGTCCGAGTTGTAATCTACAGAAACGTTTTCCGTGCTGGACTGTGTCTAA GTTCCTTGGAATAGGATATCAAAGAGGGTGACAATCCCGTACTTGACACAATCACCAGTGCTCTGTGATA CGTTTTCTACGAGTCGCGTTGCTTGGGAATGCAGCGCAAAATGGGTGGTAAACTCCATCTAAAGCTAAAT ATTGGTGGAAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCTATTGGGTTCAACCAGTTCTGC TGGTGTATTCCCTTTAGACGGGTCAACATCAGTTCTGATCGGTGGATAAGGGCACGAGGAATGTAGCAAT CTTCGGGTTGTGTTATAGCCTTGTGTCGCATACACTGGTTGGGACTGAGGAATGCAGCTCGCCTTTATGG CCGGGGTTCGCCCACGTTCGAGCTTAGGATGTTGACAAAATGGCTTTAAACGACCCGTCTTGGAAACACG >gi|913748663|ref|NG_042480.1| Cryptococcus cerealis CBS 10505 28S rRNA, partial sequence; from TYPE material GAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTGAAATCTGG TAGCCTTCGGTTGCCCGAGTTGTAATCTAGAGAAGTGTTTTCCGCGTTGGCCCATGTACAAGTCCCTTGG AACAGGGCGTCATAGAGGGTGAGAATCCCGTCCTTGACATGGACCCCCAATGCTTTGTGATACACTTTCA ACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAATTCCATCTAAAGCTAAATATTGGCGA GAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACG TGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCATGCTCTTTGGTTTAAGCCGTTCTGCGGTGTATAT CATTGAGTGGGGTCAACATCAGTTTTGACCGCTGGAAAAGGGCAAGAGGAAGGTAGCACCCCCGGGTGAA CTTATAGCCTCTCGTCGTATACAGTGGTTGGGACTGAGGAACGCAGCATGCCTTTTGGCCGGGATTCGTC CACGTACATGCTTAGGATGTTGACATAATGGCTTTAAACG >gi|913748662|ref|NG_042479.1| Abundisporus sclerosetosus MUCL 41438 28S rRNA, partial sequence; from TYPE material ACGATAAGAACTAACAAGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGG TGGTCTTTGGCCACTCGAGTTGTAGTCTGGAGAAGTGTTTTCCGCGCTGGACCGTGTATAAGTCTCTTGG AACAGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGATGCGCTCTCA AAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAATTCCATCTAAAGCTAAATATTGGCGA GAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACG TGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGTCTGGAACTCAGCCTTGCTTTTGCTTGGT GCATTTTCTAGATGACGGGCCAGCATCGATTTTGACCGTCGGAAAAGGGCTAGAGTAATGTGGCACCTTC GGGTGTGTTATAGACTCTAGTCGCATACGGCGGTTGGGATCGAGGACCGCAGCGCGCCGTAAGGCAGGGG TTCGCCCACTTTCGCGCTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCTC TGTCGTGGAGGGCATCGACGCCCGGACCTGACGTTCTCTGAAGGATCCGCGGTAGAGCATGTATGTTGGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGA TTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTG GTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTATCAGATTTATGTGGTAAAGCGAATGATTA GAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCGCTTG ATTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAG >gi|913748661|ref|NG_042478.1| Perenniporiella chaquenia MUCL 49758 28S rRNA, partial sequence; from TYPE material GGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTTAAATCTG GCGGTTTTGGCCGTCCGAGTTGTAGTCTGGAGAAGTACTTTCCGCGCTGGACCGTGTACAAGTCTCTTGG AACAGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGTGCTTTGTGAAGTGCTCTCA AAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAATTCCATCTAAAGCTAAATATTGGCGA GAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACG TGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGTCTGGGACTCAGCCTTGCTTTTGCTTGGT GCACTTTCCGGATGACGGGCCAGCATCGATTTTGACCGTTGGAAAAGGACTAGGGTAATGTGGCACCTTC GGGTGTGTTATAGACTCTAGTCGCATACAACGGTTGGGATCGAGGATCGCAGCGCGCCGCAAGGCAGGGG TTCGCCCACTTTCGCGCTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGACCTC TGTCGTGGAGGGCATCGACGCCCGGACCTGACGTTTTCTGACGGATCCGCGGTAGAGCATGTATGTTGGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGA TTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTG GTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTATCAGATTTATGTGGTAAAGCGAATGATTA GAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTA ATTGGACCGCTCGGCGATTGCAGA >gi|913748660|ref|NG_042477.1| Candida palmyrensis ATCC 62899 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGTCTTAGTAACGGCGAGTGAAGCGACAAAAGCT CAAATTTGAAATCTGGCGCCTTTGGTGCCCGAGTTGTAATTTGAAGAAGGTAACTTTGGGGGCAGCTCTT GTCTATGTTTCTTGGAACAGAACGTCACAGAGGGTGAGAATCCCGTGCGATGAGAGAAATGCTTCCGTGT AAAGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTTGTATTTTGCGACCTTTTCTT CGGAGGGGGCCCCCGCAGTTTACAGGGCCAGCATCAGTTTGGGTGGTGGGAGAATGGCGGCGGAATGTAG CTTGGCTCGCCAAGTGTTATAGACGCTGCTGATACCGCTTGCCCAGACTGAGGACTGCGTCTTTTTGACT AGGATGCTGGCATAATGATCCCCAGCCGC >gi|913748659|ref|NG_042476.1| Candida xyloterini ATCC 62898 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAAGCAATCTTGGATTTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTCTGATGAGGTGTCCATTTCTATGT AAGATGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTAGATCAGACTTGGTATTTAGTTATCATTACTC CTCGTGAGTGTTGCTCTAGCTTTTTACTGGGCCAGCATCAGTTTTGGTGGCAAGATAATGACTGTTGAAT GTAGCTCCTTGGAGTATTATAGCTTCGGTTGATATTGCCTACCGGGACTGAGGTCTGCGGCTTTTGCCTA GGATGCTGGCGTAATGATCCAATACCGC >gi|913748658|ref|NG_042475.1| Knufia epidermidis CBS 120353 28S rRNA, partial sequence; from TYPE material GCATATCCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACA GCTCAAATTTGAAATCTGGCCTTACGGTCCGAGTTGTAATTTGTAGAGGATGTTTTGGGTACCGCCACGG TTTAAATTTCTTGGAACAGAATGTCAAAGAGGGTGAGAGTCCCGTCTTGGATCGTGGTAGGGCCTGTGTA AAACTCCTTCGACGAGTCGACTTGTTTGGGAATGCAGGTCAAAATGGGTGGTAAATTTCATCTAAAGCTA AATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGT TAAACAGTATGTGAAATTGTTGAAAGGGAAGCGCTGGCAACCAGACTCGTGCGCGGGGTTCCCCCTTGCT TCTGCTTGGGTCACTTCCCCGTGTCCGGGCCATCATCAGTTTTGGGGGCCGGTTAAAGGCTCTGGGAATG TATCTACCCCTCCGGGGGTGGACTTATAGCCCAGGGCGTCATGCGGCCACCCAGGACTGAGGAACGCGCT TCGGCGAGGATGATGGCGTAATGGTTGTCAGCGACCCGTCTTGAAACCACGGGACC >gi|913748657|ref|NG_042474.1| Rhizidium phycophilum UACCC KP013 28S rRNA, partial sequence; from TYPE material GCTCAAATTTAAAATCTCCTAGGTTCCCTAGGCGAATTGTAGTTTCAAGAAGCGTTTTCTGAGGTGGCCT CGGTCCAAGTCTGCTGGAAGGCAGCGCCATAGAGGGTGATAGCCCCGTAGGATCCTGAACCATTTCTTTA TGATTGCGTCTTCAAAGAGTCGTACAGTTTGAGAATGCTGTGCTAAATGGGAGGTAAATATCTTCTAAAG CTAAATACTGGCGTGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAG AGTTAAATAGTACGTGAAATTGTCTAAAGTGAAACGTTTGAAACTAGTATCGGGAGATTACGGACAACCG CAAGGTGCATTCGTGGTTTCCTGTGCCAGCGACGGTTTCGTTTGCAGTAAATGCTCCTGGGAATGTAGCT TCGGTGTTATAGCTCAGGGTGAGTGCTGTGGACGGGACCGATGATCGCCACTGCCTTGGGGAAGCGGCTG CCTCGAAGCGAGCGGCGCTAGACAACTTGTTGACTAGTGCTGTCTTCGTTAGGGACCGGTCGTGTACCAC TTACAGTGTAGGTTGCTGGTGAAATAGTTTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTTCTACA AATGCGCGAGTCGTTGGGTGTCAAACCCGAGGGCGGAATGAAAGTAAACGTAGGTGTGATCCGCAAGGTG CAACATCGACCGGACTGGATTTCTTTGAAAGTTCTGAGTACGAGCGCATTTGCAGAGACCCGAAAGATGG TGAACTATACCTGAGTAGGGTGAAGTCAGAGG >gi|913748656|ref|NG_042473.1| Candida sithepensis ATCC MYA-4470 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAGGGTATCTTGACTTTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGGTGTCCTTTGTCATTT AAGATCCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTAGATCAGACTTGGTATTTAGTTATCATTGCTC CTTGTGGGTGGTGCTCTAGCTGTTTACTGGGCCAGCATCAGTTTTGGTGGCAGGATAATGACATTTGAAT GTGGCTCTCTCGGGAGTGTTATAGCTTTTGTTGATGCTGCCTACCGGGACTGAGGTCTGCGGCTTTGCCT AGGATGCTGGCGTAATGATCCAATACC >gi|913748655|ref|NG_042472.1| Candida krabiensis ATCC MYA-4469 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGAAGAAAACTGTCTTGGATTTGGCCTTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTGCGATGGAGTGCCCATTTCCTTGT AAGACGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGTATTCGATCAGACTTGGTATTTAGTTATCATTGCTT CTCGTGAGTGGTGCTCTAGCTTTTTACTGGGCCAGCATCAGTTTTGGTGGTGAGATAATGGCAGTTGAAT GTGGCTCCTCGGAGTGTTATAGCTTCTGTTGATATTACCTACTGGGACTGAGGTCTGCGGCTTTGCCTAG GATGCTGGCGTAATGATCCAATACCGC >gi|913748654|ref|NG_042471.1| Candida thaimueangensis ATCC MYA-4468 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAGCGGCGAGTGAAGCGGCAAGAGCT CAGATTTGAAATCGTGTTTCGGCACGAGTTGTAGAGTGTAGGCGGGAGTGTCTGCGGCGGGCAGTGTCCA AGTCCCTTGGAACAGGGCGCCACTGAGGGTGAGAGCCCCGTGGGATGCTGCGCAAAGCTTTGAGACCCTG CTGACGAGTCGAGTTGTTTGGGAATGCAGCTCCAAGCGGGTGGTAAATTCCATCTAAGGCTAAATACTGG CGAGAGACCGATAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAACAGC ACGTGAAATTGTTGAAAGGGAAGGGTATTGGGCCCGACATGGGGAGTGCGCACCGTTGCCTCTTGTAGGC GGCGCTCTGGGCGCTCTCTGGGCCAGCATCGGTTCTTGCTGCAGGAGAAGGGGTGCCGGAACGTGGCTCT TCGGAGTGTTACAGCCGGGGCCAGATGCTGCGTGCGGGGACCGAGGGCTGCGACATATGTCTCGGATGCT GGCACAACGGCGCAATACCGC >gi|913748653|ref|NG_042470.1| Kazachstania siamensis ATCC MYA-4466 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTAGTACCTTTGGTGCTCGAGTTGTAATTTGTAGAGGGCAACTTTGGGGCCGTTCCTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTGTGGCGAGGAGTGCGGTTCTTTGT AAAGTACCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGTGCCCCCTGCTC CTTGTGGGTGGGGGAATCTCGCAGCTCACTGGGCCAGCATCAGTTTTGGTGGTTGGATAAATCTGCAGGA ATGTGGCTTGCTTCGGTAAGTGTTATAGCCTGTGGGAATACAGCCAGCCGGGACTGAGGACTGCGACACT TTGTGTCAAGGATGCTGGCATAATGGTTATATGCCGC >gi|913748652|ref|NG_042469.1| Saccharomyces kudriavzevii ATCC MYA-4449 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACCTTCGGTGCCCGAGTTGTAATTTGGAGAGGGCAACTTTGGAACCGTTCCTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTGTGGCGAGGAGTGCGGTTCTTTTG TAAAGTGCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGC TAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGA GTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGCGCCCTCTGCT CCTTGTGGGTGGGGGAATCTCGCATTTCACTGGGCCAGCATCAGTTTTGGTGGCAGGATAAATCCGTAGG AATGTAACTTGCTTCGGGAAGTATTATAGCCTGCGGGAATACTGCCAGCTGGGACTGAGGACTGCGACGT AAGTCAAGGATGCTGGCATAATGGTTATATGCCG >gi|913748651|ref|NG_042468.1| Saccharomyces mikatae ATCC MYA-4448 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGTACCTTTGGTGCCCGAGTTGTAATTTGGAGAGGGCAATTTCGAGACCGTTCCTT GTCTATGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTGTGGCGAGGAGTGCGGTTCTCAAT GTGAAATGCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAG CTAAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAG AGTGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCATTTGATCAGACATGGTGTTTTGTGCCCTCTGC TCCTTGTGGGTAGGGGAATCTCGCATTTCACTGGGCCAGCATCAGTTTTGGTGGCAGGATAAATCCGTAG GAATGTAACTTGCTTCGGGAAGTATTATAGCCTGCGGGAATACTGCCAGCTGGGACTGAGGACTGCGACG TAAGTCAAGGATGCTGGCATAATGGTTATATGCCG >gi|913748650|ref|NG_042467.1| Trichosporon insectorum ATCC MYA-4361 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCT CAAATTTGAAATCTGGCAGTCTTCGATTGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCG TGTCCAAGTCTCCTGGAAAGGAGTATCAAAGAGGGTGATAATCCCGTACTTAACACGACCACCGGTGCTC TGTGATACGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAATTCCATCTAAA GCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTTCTTTGGATTCAGCCA GTTCTGCTGGTCTACTTCCTTTGAACGGGTCAACATCAGTTTTGTCCGGTGGATAAAGGTAGTAGGAATG TGACTTCTCCGGAAGTGTTATAGCCTATTATCACATACACTGGGTGAGACTGAGGACTGCAGCTCGCCTT TATGGCCGACCTTCGGGTACGTTCGAGCTTAGGATGTTGACATAATGGCTTTAAACGAC >gi|913748646|ref|NG_042466.1| Geotrichum histeridarum ATCC MYA-4340 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCGACCCCCAGGTCGAGTTGTAATTTGTAGAATCTACCTTGGACAAAAACAAGTCTGTT GGAACACAGCGCCTTAGAGGGTGAGAGCCCCGTAAACATGTCTGCTGTAAGGTATTTTCAAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGAGGTAAATTCCTTCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT AAAAGGGAAGGGTACTACATCAGACGTGGGCCTGCAGTTCAGCTGGATTTCGATCCTGTGTACTCTGCAG GTCTAGGCCAAGGTGGGATTACTGGGCAGGAAAAAGCTTGCGGAATGTGGCTCCTCGGAGTGTTATAGCC GCTTGTAATACTGCCTCAGTGGTCTCAGGACTGCGCTTTTAGCTAGGATCTTGGCGTAATGATGTTGTAC CGC >gi|913748645|ref|NG_042465.1| Candida elateridarum ATCC MYA-4325 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCT CAAATTTGAAATCTGGCACTTTCAGTGTCCGAGTTGTAATTTGAAGAAGGTAACCTTGAGGCTAGCTCTT GTCTATGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCGATGAGATGACTAGTTTCATGT AAGGTGCTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCT AAATATTGGCGAGAGACCGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAG TGAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTTTGCGCCCCTACTCT CGGGTGGGGTCTCCGCAGCTTACTGGGCCAGCATCGGTTTGGACGGTAGGATAATGACGAAGGAATGTGG CTTTGCTTCGGTAAAGTGTTATAGCCTTAGTTGATACTGCCAGTCTAGACCGAGGACTGCGATTTTTCTA GGATGTTGGCATAATGATCTTAAGTCGC >gi|913748644|ref|NG_042464.1| Spongiforma thailandica BBH DED 7873 28S rRNA, partial sequence; from TYPE material TAACAAGGATTCCCCTAGTACTGCGAGTGAAGCGGGACGAGCTCAAATTTTGAATCTGGCGGTCCCTCCA GGCCGTCCGAGTTGTAATCTAGAGAAGCGTCTTCCGCGCTGGCCCGTGTACAAGTCTCCTGGAAGGGAGC ATCTTAGAGGGTGACAATCCCGTCTATGACACGGACATACCAGGGCTTATGTGATGCGCTCTCAACGAGT CGAGTTGTTTGGGAATGCAGCTCAAATAGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCGAGAGACC GATAGCGTACAAGTACCGTGAGGGAAAGACGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAAT TGCTGAAAGGGAAACGCTTGATGTCCAGTCGCGTTCGCCGGAGATCAACCTTGCTTTCATCCGCTCGGTG TACTTTCCGGTCGGACGGGTCAGCATCAGTTTCGCTCGCCGTACAAAAGCAAAGGGAACGTGGCACTCTA CCCAGAGTGTGTTATAGCCCTCGGTCGCATGCGGTGATAGGGACTGAGGAACTCAGCACGAACTTTTCGT TCTGTTGCATGGGATGCTGGCATAATGGCATTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATGCATGCGAGTGTTCGGGTGGAAAACCCTGAGCGCGTAACGAAAGTGAAAGTCGAGATCTCACTCCAGA GTGCACCGACGCCCGGACCCGACGTCTTTCGACAAGGGATCTGCGGTAGAGCATGTACGTTAGGACCCGA AAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAAGCTCGTAGCGATTCTGA CGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCGTCTAGTAGCTGGTTCCT GCCGAAGTTTCCCTCAGGATAGCAGAAACTCAGATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCAT TGGGGTCGAAACGACCTCGACCTATTCTCAAACTTTAAATATGTAAGGACGGGCCATCGCTTGGTTGGAT GCGTCCGGCGATTGAGAGTTTCTAGTGGGCCAGTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGA ACGGGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCA GGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCC TGAAAATGGATGGCGCTCAAGCGTGTTACCCACACCTCCCCGTCAGCGTTGATTTCTTGACGCGCTGACG AGTAGGCAGGCGTGGAGGTCGTGAAGAAGCCTGGCAGCGAT >gi|913748643|ref|NG_042463.1| Diplodia cupressi CBS 168.87 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCCCTTTTAGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGCTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGCACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGCAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748641|ref|NG_042462.1| Neodeightonia phoenicum CBS 122528 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCCCTTTTAGGGTCCGCGTTGTAATCTGTAGAGGATGGTTCGGCGAGGGCTCC CGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGTTGCTTTAGCCAT GTGAACCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGGCCTCGGG AATGTGGCTCCTCTCGGGGAGTGTTATAGCCCGGGGCGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748640|ref|NG_042461.1| Lasiodiplodia pseudotheobromae CBS 116459 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCCCTTTTAGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC TGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTAGGTTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGGCCTCGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGACCAGCCTGGACTGAGGATCTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748639|ref|NG_042460.1| Lasiodiplodia theobromae CBS 164.96 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCCCTTTTAGGGTCCGCATTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC TGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTAGGTTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGGCCTCGGG AATGTGGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGCAATGCGGCCAGCCTGGACTGAGGAACTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748638|ref|NG_042459.1| Phaeobotryon mamane CPC 12440 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCTCCTTCGGAGTCCGCATTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGCCTAAGTCCACTGGAACGTGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGTTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGGGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCCGGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCTGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCCGCCCGTCTTGAAACACGGACC >gi|913748637|ref|NG_042458.1| Sphaeropsis citrigena ICMP 16812 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAG CTCAAATTTGAAAGCTGGCCCTTTCAGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGTGGTGGGCTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748636|ref|NG_042457.1| Botryosphaeria corticis CBS 119047 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCTCCTTCGGAGTCCGCATTGTAATTTGTAGAGGATGATTCGGCAAGGGCTCC CGCCTAAGTCTCCTGGAACGGAGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGCTGCCTAAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGTGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGGCCAGCCCGGACTGAGGATCTCGCT TCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748635|ref|NG_042456.1| Arizonaphlyctis lemmonensis DAOM BR 429 28S rRNA, partial sequence; from TYPE material GCTCAAATTTGAAATCTCGTTGGTCCGCCAGCGCGAATTGTAGTTTAGAGAAACGTTTTCGGGAGGGGCG TGGGCATAAGTCCTTTGGAACGAGGCATCATAGAGGGTGAGAATCCCGTTTATGGTCCACTGTTCCCTCC TATGTGATACGTTTTCCACGAGTCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTA AAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAA GAGAGTTAAACAGTACGTGAAATTGTCAAAAGGGAAACGCTTGGAACCAGTATTGCCGGCAGGTAATCAG CCGTGTCACAAGCACGGTGCACTTGCCTGCTGGCAGGTCAGCATCAGTTTGGCTTGAGGTAAAAAGCCAG GAGAAGGTGGCCCGGGGTTCGCTCTGGGTGTTATAGCTCCTGGTCATGCCTTGGGCTGGACTGAGGAATG CAGCGTTTTTTGGGTTACCGGTAGCCTCCTGATTGCCCTCCGTAGACAGCTTGCTGATTGCGGGTGGAAG TAGGGAGCTCTGTCGGGATTCCACACCAACGCTTAGGATGCTGACGAAATGGTTTTAAACGACCCGTCTT GAAACACGGACCAAGGAGTCTAACATATATGCGAGTATTTGGGTGTCAAACCCTTATGCGTAATGAAAGT GAACTTAGGTGGGATCTTCGGTGCACCATCGACCGGTCTGGATTTTTTTGATAGATCTGAGTAAGAGCAT ATCTGTTGGGACCCGAAAGATGGTGAATCTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAG GCTCGTAGCGATTCTGACCGTGCAAATCGATCGTCAAATTTGGGT >gi|913748634|ref|NG_042455.1| Borealophlyctis paxensis DAOM BR 368 28S rRNA, partial sequence; from TYPE material GCTCAAATTTGAAATCCTCGCAGGGCTTTGCCTCCTGTGCGAATTGTAGTTTATAGAAACATTTTCGGGG GTAGCCTTGGGAGTAAGTCTCTTGGAAAAGAGCATCATAGAGGGTGAGAATCCCGTCTTAATCCCAATGC CTGCTCCTATGTGATATGTTTTCAAAGAGTCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATA CCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACT TTGAAAAGAGAGTTAAAAGTACGTGAAATTGTCAAAAGGGAAACGCTTAGCACCAGTTTTGCCTTCAAGT AATCAACCGTGCTTTAATTAGCATGGTGCACTTGCTTGTATGGCAGGTCAACATCAGTTTGGCCTGCGGT AAAAAGCCAGCGGAAGGTAGCCCAATTCGTTGGGTGTTATAGCCGCTGGTCATGCCGTGGGCTGGACTGA GGACTGCAGCGCTAATTTGGGTTGCTTGGTCGCCTCTTGAAACTTGGTTGCAGACAGCATGCTGACTGTG ATCAGACGTAGGGAGCTCGGTCAGGTTTTCCACACCAGCGCTTTGGATGTTGACATAATGGTTCTAAACG ACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTATTTGGGTGGAAAACCCTAATGCGC AATGAAAGTGAATTTCAATGGTGGGATCTTCGGTGCACCATCGACCGGTCTGGATTTTTTTGATAGATCT GAGTAAGAGCATATATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAA CTCTGGTGGAAGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGT >gi|913748633|ref|NG_042454.1| Sonoraphlyctis ranzonii DAOM BR 060 28S rRNA, partial sequence; from TYPE material GCTCAAATTTGAAATCTCACAAGTTTTCTTGTGCGAAATGTAGTTTATAGAAACGTTTTCGGAGGTGGCT TGGGCATAAGTCCTTTGGAATGAGGCATCATAGAGGGTGACAATCCCGTCTTTGGTCCAATGTCCGCTTC TATGTGATACGTTTTCTAAGAGTCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTA AAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAA GAGAGTTAAACAGTACGTGAAATTGTCAAAAGGGAAACGCTTGAAACCAGTATTGCTTGCAAGTAATCAG CCGTACCTTTTGGTGCGGTGCACTTGCTTGCCGGCAGGTCAACATCAGTTTGACTTGGGGTAAAAAGCCA GAAGAAGGTAGCCCGGGGTTCGCTCTGGGTGTTATAGCTTCTGGTCCTGCCCTGGGTTGGACTGAGGTCT GCAGTGTTATTTGGGTTACCAGTCGCCTTCTGATGGTCTGTTGCAGACAGCACGCTGACTGTGACAGCTC GTAGGAAGCCCGGTTGAGATTCCACACCAACGCTTAGGATGTTGACGAAATGGTTTTAAACGACCCGTCT TGAAACACGGACCAAGGAGTCTAACATATATGCGAGTATTTGGGTGGCAAACCCTTATGCGCAATGAAAG TGAACTTAGGTGGGATCTTCGGTGCACCATCGACCGGTCTGGATTTTTTTGATAGATCTGAGTAAGAGCA TATCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAG GCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGT >gi|913748632|ref|NG_042453.1| Cryptococcus pinus VKM Y-2958 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAG CTCAAATTTGAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGCGCCGGAC CGTGTATAAGTCTCCTGGAACGGAGTATCAAAGAGGGTGACAATCCCGTGCTTTACACGACGACCGGTGC TATGTGATACGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAACTCCATCTA AAGCTAAATATTGGTGGGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAA GAGAGTTAAACAGTATGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCATTGGGTTCAGC CGGTCCTGCCGGTCTACTCCCTTTGGACGGGTCAACATCAGTTCTGACCGGTGGATAATGGCACGAGGAA CGTAGCACCCTCCGGGGTGTGTTATAGCCTCGCGTCGCATACACTGGTCGGGACTGAGGAACGCAGCTCG CCCTCACGGGCCGGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCT TGAAACACGGACC >gi|913748631|ref|NG_042452.1| Coralloidiomyces digitatus UACCC PL 163L 28S rRNA, partial sequence; from TYPE material GGAGAGACTACAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTCACTGT TTCGCAGTGCGAATTGTAGTTTAGAGAAACGTTTTCTAGGCAGACTTCTAGTACAAGTTCTTTGGAACGA GACATCACAGAGGGTGAAAATCCCGTCTATGACTAGAGGCTCTGTCTTTTATGATACGTTTTCCAAGAGT CGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACC GATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAAT TGTCAAAAGGGAAACGCTTGAAACCAGTATTGTGGGCAGAAATTCAGCTTTAGTTTACTAGGGTGTATTT TTCTGTCTGCGAGTCAACATCAGTTTTGCTCCAAGTAAAAAGCTATGGGAAGGTAGCCTTCGGGTATTAT AGCCTATAGTCATGCTTGGGTCGAGACTGAGGACTGCAGCGTTTTTTGGGCACCCCGTCGCCTTTTGAAG TAGCAAAGTTAAATGCATGCAGATGACTTTGTCTATCAGGAAGCCCGGCGGGTTCGCTACACCAACGCTT AGGATGTTGACGAAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGA GTATTTGGGTGGTAAACCCTTATGCGTAGTGAAAGCGAAAAGGTGGGATTCTTTATTGATGCACCATCGG CCGCGCCAGATTATTACTATCTCGGCGTGAGTATGAGCATACATGTTGGGACCCGAAAGATGGTGAACTA TGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATC GTCGAATTTGGGTATAGGGGCGAAAGACAATCAACCT >gi|913748630|ref|NG_042451.1| Globomyces pollinis-pini BAFC ARG 068 28S rRNA, partial sequence; from TYPE material ACTACAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGGAATCTCCTAACTTTGTT AGGTGAATTGTAGTTTAAAGAAACATTTTCGAGGGTAATCTTTAGTACAAGTTCTCTGGAACGAGTCATC ACAGAGGGTGAAAATCCCGTCTTTGACTAAGGTATTATTCTTATGTGATATGTTTTCTAAGAGTCGGTTT GTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGC GAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGAAATTGTCAA AAGGGAAACGCTTGGAATCAGTATTGTGAGCAGGAATTCAATCTTCGGATGCATTTTTCTGTTTACGAGT CAACATCAGTTTGATTTGAAGTAAAAAACTATAGGAATGTAGCCTTCGGGTGTTATAGACTATAGCTATG CTTTGGGTTAGACTGAGGTCTGCAGTGTTATTTAGGTTTTTACCATACCAACACTTAGGATGTTGACGAA ATGATTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCATGCGAGTATTTGGGTGGAA AACCCTTATGCGTAGCGAAAGCGAAAAGGTGGGAATCTTTACTGATGCACCATCGACCGCGTTTGATTAT TACTATTACAACGTGAGTATGAGCATGTATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTA TAGGGGCGAAAGACNATCAACCTCT >gi|913748629|ref|NG_042450.1| Urceomyces sphaerocarpus BAFC ARG 048 28S rRNA, partial sequence; from TYPE material GGAGAAGACTACAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGGAATCCCCTAG CTTTGTTAGGTGAATTGTAGTTTAAAGAAACATTTTCGAGGGTAATCTTTAGTACAAGTTCTCTGGAACG AGTCATCATAGAGGGTGAAAATCCCGTCTTTGACTAAGGTATTACTCTTATGTGATATGTTTTCTAAGAG TCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGAC CGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGAAA TTGTCAAAAGGGAAACGCTTGGAATCAGTATTGTGAGCAGTAATTCAATTACCCTTAGGGTGATGTATTT TACTGTTTACGAGTCAACATCAGTTTGATTTGAAGTAAAAAACTATAGGAATGTAGCCTTCGGGTGTTAT AGACTATAGCTATGCTTTGGGTTAGACTGAGGTCTGCAGTATTACTTAGGACTCGTCCATACCAATACTT AGGATGTTGACGAAATGATTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCATGCGA GTATTTGGGTGTAAAACCCTTATGCGTAGCGAAAGCGAAAAGGTGGGAATCTTTACTGATGCACCATCGA CCGCGTTAGATTATTACTATCTCAACGTGAGTATGAGCATGTATGCTGGGACCCGAAAGATGGTGAACTA TGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATC GTCGAATTTGGGTATAGGGGCGAAAGACTATCGACCTCTT >gi|913748628|ref|NG_042449.1| Pateramyces corrientinensis BAFC ARG 046 28S rRNA, partial sequence; from TYPE material GGAGAAGACTAACAAGGATTCCCTTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGAAATCTCAC TGGTTTCCAGTGCGAATTGTAGTTTATAGAAACGTTTTCTGGGTTAACTTTTGGTACAAGTTCTTTGGAA CAAGACATCATAGAGGGTGAAAATCCCGTCTTTGACCAAGAGTTTAATTCAATGTGATACGTTTTCTACG AGTCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAG ACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGA AATTGTCAAAAGGGAAACGTTTGAAACCAGTATTGTGAATAATAATTCAATTAATCATTTGATTGATGCA CTTTATTATTTACGAGTCAACATCAGTTTGAAATTAAGTAAAAAGTTATAGGAAGGTAGCCTTCGGGTAT TATAGCCTATGATCATGCTTTTTTTTAGACTGAGGACTGCAGTTTTTAGGATGTTGACGAAATGGTTTTA AGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAAATATGCGAGTATTTGGGTGGTAAACCCTTAT GCGTAGTGAAAGCGAAAAGGTGGGAATCTTTATTGATGCACCATCGGCCGCGTTCAATTATTATTATTGT AACGTGAGTATGAGCATATTTGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGACCTCTT >gi|913748627|ref|NG_042448.1| Gorgonomyces haynaldii BAFC ARG 026 28S rRNA, partial sequence; from TYPE material TTGACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAG CGGGAAAAGCTCAAATTTGAAATCTCCCACCAGGGCGAATTGTAGTTTAAAGAGTCGCAATCGAAGACCG GACGTGCACAAGTTCTTTGGAACGAGACATCAGAGAGGGTGAGAATCCCGTGGATGGTGCGTCTGTGTTT TTGTGTGAGGCGTGCTCGAAGAGTCGGTTTGTTTGGGAATGCAGACCAAATGGGTGGTAAATAGCATCCA AGGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAA GAGAGTTAAAAGTGCGTGAAATTGTCAAAAGGGAAACGTTTGGAACCAGTTGGGACAGTGCAAAGCACAC CATTGGTGTGTGGTCGTACGTCTGGGCCAGGAGGGGTTTGGTGTGGGTGAAAAAGCCTAGGGAAGGTAGC CATTGGTGTTATAGCCCTGGGTGATAGCCTGTGCTGGACTTTTGCTGGCGAAATGGGTTCAAGCGACCCG TCTTGAAACACGGACCAAGGAGTCTAACATGTATGCGAGTATTTGGGTGGCAAACCCTGATGCGAAATGA AAGTGAAAGGGTGGGATCCTCGGAGCACCATCGGCCGCATCCTGCGCAGGCAGGGTGTGAGCACGAGCAT ATATGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGG CTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCAT CTAGTAGCTGGTTCCCTCCGAAGTTCCCCNCC >gi|913748626|ref|NG_042447.1| Angulomyces argentinensis BAFC ARG 008 28S rRNA, partial sequence; from TYPE material GGAGAAAACTAACAAGGATTCCCTTAGTAACGGCGAGTGAAGTGGGAATAGCTCAAATTTGAAATCTCCC CTCTGGGGCGAATTGTAGTTTAGAGAAACGTTTTCGGGCTTGACTTCAGGTACAAGTTCGTTGGAACTCG GCATCATAGAGGGTGATAATCCCGTCCATGATCTGTTGTTCAAGTCCATATGATACGTTTTCCAAGAGTC GGATTGTTTGGGAATGCAGTCCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCG ATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATT GTCAAAAGGGAAACGTTTGAAACCAGTATTGTATACAAGATTTAATGAGGATTTATTCTCATGTCCTTTT TTGTTTACAAGTCAACATCAGTTTGATTTGAAGGAAAATGCTAAAGGAAGGTGGCCTTCGGGTGTTATAG CCTTTAGTTCTGCTTTGAATTAGACTGAGGTCTGCAGCTTCGGCTTAGGATGTTGACGAAATGGTTTTAA GCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGTATGCGAGTATTTGGGTGGTAAACCCTTATG CGTAATGAAAGTGAAAAGGTGGGATTCCTTTGGATGCACCATCGACCGCGCCAGATTATTACTATCTCGG CGTGAGTATGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATACCTGAATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAA GACTAATCGAACCTC >gi|913748625|ref|NG_042446.1| Kuraishia capsulata NRRL Y-1842 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCTCAAATTTGAAATCTGGTACCTT CGGTGCCCGAGTTGTAATTTGAAGAAGGTATTCTTTAGTTTGGCCCCCGTCTATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTGCGATGGGGTGTCCATTCTTTGTAAGATTCCTTCGACGAGTCGAGT TGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTG AAAGGGAAGGGTATTTGATCAGACTTGGTATTAGAATATGGTTTCTCCTTGTGGGTTGCCCTCTATTCTT TTACTGGGCCAGCATCGGTTCGGATGGTAAGATAATTGCGATTGAATGTGGCTCTTCGGAGTGTTATAGC TTTCGTCGATATTGCCTGTCTGGACCGAGGACTGCGTCTTTTGACTAGGATGCTGGCGTAATGATTAAAT ACCGCCCGTCTTGAAACATGGACCAAGGAGTCTAACGTCTATGCGAGTGTTAGGGTGTAAAACCCTTACG CGTAATGAAAGTGAACGTAGGTGAGGGCCCTTTGGGGTGCATCATCGACCGATCCTGATGTCTTCGGATG GATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCA GTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAATGACCTTAACCTATTCTCAAACTTTA AATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTT TTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAAGTGCCAGAATACACGCTCATCA GACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGA GTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACTTATAC TTCACCGTCAGGGTTTTTATGATGCCCTGACGAGTAGGCAGGCGTGGTGGTCAGTGACGAAGCCTTTGGC GTGAGCCTGGGTCGAACGGCCACTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTG AAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAGAGATGGG GAAGCTCCGTTTCAAAGTGTCTGATTTTTCAGGCCACCATCGAAAGGGAATCCGGTTAATATTCCGGAAC TTGGATATGGATTCTTCACGGTAACGTAACTGAATGTGGAGACGTCGGCATGAGCCCTGGGAGGAGTTCT CTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGATAGGGTCTTATGGCTGGAAGAGC GCAGTTCCTTTACTGCGTCCGGTGCGCTTATGACGATCCTTGAAAATCCACAGGAAGGAATAGTTTTCAT GCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGAT AAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGGGTGCTTTGGGC CTTTTCAAGACGCTCGAAGGTTTCGTTGAGGACTGCTCTTCGGGGTGGACTTCTGTGAGACTTTTGGGTT GACGGGATTGGTAGACCTTCTGGTCGTCCGGGGTACGCTTAACGATCAACTTAGAACTGGTACGGACAAG GGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCATAAAATGATGTTGACGCAATGTGATTT CTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATG ACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCC ACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGA AGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGCT TCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGCGGAGCTGGACTTTAC CGTCCACGTTCTAGTATTTAAAGTCTCTTGTAGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTT TGGCTGGGGCGGCACATCTGTTAAACGATAACGCAGGTGTCCTAAGGGGGGCTCATGGAGAACAGAAATC TCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGT GGCCTATCGATCCTTTAGTCCTTCGGAATTTGAAGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACT GGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATA CCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGT CGTGAGACAGGTTAGTTTTACCCTACTGATGAGTGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGA ACCGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTACCATCTGCTGG ATTATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATTTCTTCCCTCGCACATTTTAG ATGGATACGAATAAGACCTTTGGTCGCTAAACCATAGCAGGTTGGCAATGGTGCTCTTAACGGAAAGGTT TTGGGTGCTTGCTGACGAATTGCAATGTAATCATGCGCGAGGATAAATCCTTTGCATACGACTTAAATGT ACAACGGGGTATTGTAAG >gi|913748623|ref|NG_042445.1| Kregervanrija fluxuum NRRL YB-4273 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTCAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGTAGTTC TGCTACCCGAGTTGTAATTTGTAGAAAACTGTCTTTGTTAGGGTGCCTGTCTAAGTTCCTTGGAACAGGA CGTCGCAGAGGGTGAGAATCCCGTGTGATGGGTGGCCCGAGCTTTTAAGGCGTTTTCGAAGAGTCGAGTT GTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGC GAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAACAGTACGTGAAATTGTTGA AAGGGAAGGGTATTTGATCCGACATGGGATTTACTCATCATTGCTCCTTGTGGGTGGTGCTCTGGGTTTT TTCTGGGCCAGAATCAGTTTGTGTGGCAGGATAAAGGCGTGAGGAAGTAGCTCTTCTGGAGCAATATAAC TCATGTTAATACTGCCTATGCGGACTGAGGAATGCGGTTTTTACCAAGGATTCTGGCATAACGATTAAAT ACCGCCCGTCTTGAAACATGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCCAGCG CGTAATGAAAGTGAACGTAGGTCAGACCTGTTAAAGGGGCATGATCGACCGATCCTGATGTTTATCGGAT GGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAG AGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCG AAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATC AGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGGAGTCGAAATGATTTTAACCTATTCTCAAACTTT AAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATATGAATGAAGAGCTTTTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAGGTGCCGGAATACACGCTCATC AGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG AGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATA CTTTGCCGTCATGGTTATATTTATATATTTTGCCATGACGAGTAGGCAGGCGTGGAGGTCAGTGACGAAG CCTTGGGTGTGAACCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGA GAACTTTGAAGACTGAAGTGGGGAAAGGTTCCACGTCAACAGCAGTTGGACGTGGGTTAGTCGATCCTAA GAGATGGGGAAGCTCCGTTTCAAAGTATGCAATTTATTGTGTCACCATCGAAAGGGAATCCGGTTAATAT TCCGGAACTTGAATATGGATTCTTCACGGCAACGTAACAGAATGTGGAGACGTCGGCGCGAGCCCTGGGA GGAGTTCTCTTTTCTTCTTAACAGCTTATCACCCTGGAATTGGTTTATCCGGAGAGGGGGTTTTATGGCT GGAAGAGCGTGGTATTTTTTGCCACGTCCGGTGCGCTTGTGACGGTCCTTGAAAATCCACAGGAAGGAAT AGTTTTCATGTCAAGTCGTACTCATAACCGCAGCAGGTCTCCTAGGTTAACAGCCTCTAGTTGATAGAAT AATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGGT TTTCTGGTGTTATTTTGTGCAGTCGGAGGAGCCCTCACGGGCACTTCTGGCCTAGCGAGATGAAGTTTTC CGGATTACAATTAACGATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATA GCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGA AGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGT CATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAAC CACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTG ACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTT ATCGTTTTTTTACTTATTCAATTAAGCGGAGCTGGACTTTATTGTCCATGTTCTAGTATTAATGTCTCTT GTAGACTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGAT AACGCAGATGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCC TTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAAT TTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGCTCATAGCGA CATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATT GTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGA TGAATGTTGTCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCAGATAATTGGTTTTTGCG GCTGTCTGATCAGACACTACCGCGAAGCTACCATCTGCTGGATAATGGCTGAACGCCTCTAAGTCAGAAT CCATGCTAGAACGCGATGATTTCTTGCCCTCGCACATTTTAGAAGGATAAGAATAAGGCCTCCGGGTCGC AGAACCATAGCAGGCTGGCAACGGTGCTCTTAACGGAAAGGTTTTGAGTGCTTGCCGGTGGATAGCAATG TCAGGATGCGCGAGGATAAATCCTTTGCATACGACTTAAATGTACAACGGGGTATTGTAAG >gi|913748622|ref|NG_042444.1| Pichia membranifaciens NRRL Y-2026 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCCCAGTAGCGGCGAGTGAAGCGGCAAGAGCTCAGATTTGAAATCGTGCTAATT TTTTTGGCACGAGTTGTAGAGTGTAGGCGGGAGTCTTTGTGGAGCACGGTGTCCAAGTCCCTTGGAACAG GGCGCCTGAGAGGGTGAGAGCCCCGTGGGGTGCCGTGCGAAGCTCTGAGGCCCTGCTGACGAGTCGAGTT GTTTGGGAATGCAGCTCCAAGTGGGTGGTAAATTCCATCTAAGGCTAAATACTGGCGAGAGACCGATAGC GAACAAGTACTGTGAAGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAACAGCACGTGAAATTGTTGA AAGGGAAGGGTATTGGGCCCGACATGGGGAGTGCGCACCGCTGTCTCTTGTAGGCGGCGCTCTGGGCGCT CTCTGGGCCAGCATCGGTTCTTGCTGCGGGAGAATGGGTGCCGGAAAGTGGCTCTTCGGAGTGTTATAGC CGGCGCCAGATACCGCGTGCGGGGACCGAGGACTGCGGCTTCTGTCTCGGATGCTGGCACAACGGCGCAA TACCGCCCGTCTTGAAACATGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTAC GCGTAATGAAAGTGAACGTAGGTCGGACCCCTTCGGGGGGCACGATCGACCGATCCTGATGTTTATCGGA TGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGC GAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTAT CAGTTTTATGAGGTAAAGCGAATGATTAGACGTCTCGGGGTCGAAATGACCTTAGCGTATTCTCAAACTT TAAATATGTAAGAAGTCCCTGTTGCTTTATTGAACGCGGACGTTTGAATGCAGAGCTTTTAGTGGGCCAT TTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATGCACGCTCAT CAGACACCACAAAAGGTGTTAGTTCATCCAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAG GAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTAT ACCTCGCCGCCATGGCAGAAGGCCTTGGCGAGTAGGCAGGCGTGGGGGTTTGTGACGAAGCCTTGGGCGT GAGCCTGGGTCGAACGGCCCCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGGGAACTTTGAA GACTGAAGTGGGGAAAGGTTCCGCGTCAACAGCAGTTGGACGCGGGTCAGTCGATCCTAAGAGATGGGGA AGCTCCGTTTCAAAGGCGCAATTCGTTGCGCCACCATCGAAAGGGAATCCGGTTAAGATTCCGGAACTTG GATGTGGATTCTTCACGGCAACGTAACAGAATGCGGAGACGCCGGCGGGAGCCCTGGGAGGAGTTTTCTT TTCTTCTTAACAGCCTATCACCCTGGAATTGGTTTATCCGGAGAGGGGGTTTTATGGCTGGAAGAGCGTC GCCCTTGTTGCGACGTCCGGTGCGCTTGCGACGGTCCTTGAAAATCCGCAGGAAGGAATAGTTTTCACGC CAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGATAGAATAATGTAGATAA GGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTTGGGCGGATGCCGTCC GGCGCTGGCTATGCGTGCTGGCCTGCCTCCTCGGGGGCGGTGCTGCGTGCTGCGCTTGTGCCGGGTTTTC GGCGCCGCGGTTAACAACCGACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATA GCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGA AGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGT CATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAAC CACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTG ACATTGTGAAAAGACATAGAGGGTGTAGCATAAGTGGGAGCTCCGGCGCCAGTGAAATACCACTACCTTT ATCGTTTTTTTACTTATTCAATGAAGCGGAGCTGGTCTTGACGACCACGTTCTGGAGCGAAGGCGCCTTG TGCGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACGATA ACGCAGATGTCCTAAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCT TGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATT TGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGCTCATAGCGAC ATTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTG TTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGAT GAATGTTGTCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCAGATAATTGGTATTTGCGG CTGTCTGAGCAGACACTGCCGCGACGCTACCATCTGCTGGATAATGGCTGAACGCCTCTAAGTCAGAATC CATGCTAGAACGCGACGATTACCTGCCCTCGCACATTTGAGAAGGATAAGAATAAGGCCCTTGTTGGCCG CAGAACCGTAGTAGGCCGGCAGCGGTGCGCGTGGCGGAAAGGCTGCGTGTGCTTGCCGGCGGATGGCAAT GTCAGGATGCGCGAGGATAAATCCTTTGCAGACGACTTAGATGTACAACGGGGTATTGTAAG >gi|913748621|ref|NG_042443.1| Clydaea vesicula JEL 369 28S rRNA, partial sequence; from TYPE material GGCAAGACTAACAGGATCCCCTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGAAATCCTACTGG TTTCCAGTATGAATTGTAGTTTAAAGAAATGTTTTCGAAGACAACCCAGGATCAAGTCTCTTGGGATGGA GCATCATAGAAGGTGAGAATCCTGTATGTGTTCTGGGAGTTGTTTTTATGTGATACATTTTCAAAGAGTC AGGTTGTTTGGGAATGCAGCCTAAAATGGGAGGTAAATACCTTCTAAAGCTAAATATTGGCGAGAGACCG ATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAAAGTACGTGAAATTG TCAAAAGGGAAACACTTGAAACCAGTCTTGCATTTAAAATCCCAACCAATCTAACGATTGGTATATGTTT TTAATTGCAGGTCAATATCAGTTTTTTTTGGAGTACAAAACCTGAGGAAGGTAGCTAGCAATAGTGTTAT AGCTTCAGGTAATGCTCTGAAAAAGACTGAGGAACGCAGCGCAGTCTTGGGTACCCTGTCGCTAGTTGAT GAATCTTTGCAGAATACTTGTATACTGTAAAGATTATAAGGCTAATCGGCGGGTTTGCCACACCTGTGCT TAGGATATTGACATAATGGTTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACACATATGCG AGTTTTTGGGTGGTAAACCCGAGAAGCGTAATGAAAGTATTAAGGTGGGAATCGCAAGATGCACCATCGA CCGGTCTGGATATTTATTGATAGATCTGAGTAAGAGCATATTTGTTAGGACCCGAAAGATGGTGAACTAT GCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGACATTCTGACGTGCAAATCGATGT TCAAATTTGGGTATAGGGCGAAAGACTAATCGTGCATTA >gi|913748620|ref|NG_042442.1| Naohidea sebacea CBS 8477 28S rRNA, partial sequence; from verified material TGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAG TGGGAAAAGCTCAACTTTAAAATCTGGCACCTTTGGTGTCCGAGTTGTAGTCTCGAGAAGTGTTTTCCGC GTTGGACCACATACATGTCTGTTGGAACACAGCGTCATAGAGGGTGAGAATCCCGTATATGATGTGGACT CCCAATGCTTTGTGATACACTTTCGATGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAAT TCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCAC TTTGGAAAGAGAGTTAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGACGTGCGTGGTGC AATTCAACCGCAAGGTGTATTTTGTGCCAAAGCAGGCCAGCATCGGTTTTCCGAGTCGGATAAAGGTAAG GAGAAGGTAGCAGTCTTCGGGCTGTGTTATAGCTTCTTACTGAATACGAAATGGGAGACCGAGGAACGCA GTGCGCCGCAAGGCAGCTCGATCAGTCGAGTTTCGCACTTAGGATGCTTGGTGAAATGGCTTTAAACGAC CCGTCTTGAAACACGGACCAAGGAGTCTAACATGCTTGCGAGTATTTGGGTGGTCAAACCCGAGTGCGCA ATGAAAGTGAATGGAGGTGGGATCCTGTCAAAGGGAGCACCATCGACCGGTCTTGATTTTTAATGAAGGA TCTGAGTAAGAGCACGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAA GACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGCATCAGT TTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGACGTAATGTCCTTAACCTATTCTCAAACTTTAAA TGTGTAAGAAGCACTTGTCACTTAATTGGACGTGTGCATGCGAATGAGAGTTTCTAGTGGGCCATTTTTG GTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATACACGCTCATCAGAC ACCACAAAAGGTGTTAGTTCATCTAGACAGCCGCACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTG TGTAACAACTCAACGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCTC GCCGTTGGTGTTGCATTTTGATGCACCAACGAGTAGGCAGGCGTGGAGGTTTTGTGAAGAAGCTCTGGTC >gi|913748619|ref|NG_042441.1| Microbotryum violaceum GLM 50283 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAAAG CTCAAATTTGTAATCTGGCGCCTTTGGCGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCTGGACCG CACATAAGTCTGTTGGAATACAGCGTCATAGTGGTGAGAACCCCGTATAGGGTGCGGATGCCCAGTGCTT TGTGATATACTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAA GCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAACAGTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCATTTTGGAGTTCAGCCG CAAGGTGTATTCTTCAATTCGCAGGCCAGCATCAGTTTTTGGGGGTGGAAAAGCGTGGTTTGAAGGTAGC AGTCTCGGCTGTGTTATAGCTTTCCACTGGATTCACTTTTGGGGACTGAGGAACGCAGTACGCTTTTTGC AAGATTCTCGGATCTTTCGTACTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACGGA C >gi|913748618|ref|NG_042440.1| Operculomyces laminatus JEL 223 28S rRNA, partial sequence; from TYPE material GCTCAAATTTGAAATCTCACTGTTTTACAGTGCGAATTGTAGTTTAGAGAAATGTTTTCTAGGCAGACGA TTAGTACAAGTTCATTGGAACATGACATCATAGAGGGTGAAAATCCCGTCTTTGACTAATTGCTCTGTTT AATATGATACATTTTCCAAGAGTCGGTTTGTTTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTA AAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAA GAGAGTTAAACAGTACGTGAAATTGTCAAAAGGGAAACGCTTGAAACCAGTATTTTTTCTAGTAATTCAC CCATCTTTTAGGTGGTTTATTTTACTAGGAAAGAGTCAACATCAGTTTTGTTTGGGGTAAAAAACTATGG GAAGGTAACCTGCTTCGGGAGGTATTATAGACCATAGCTATGCCCTGGATGAGACTGAGGTCTGCAGTAT TTTTTGGCCATCTGGCACACCAATACTTGGGATGTTGACGAAATGGTTTTAAGCGACCCGTCTTGAAACA CGGACCAAGGAGTCTAACATATATGCGAGTATTTGGGTGGAAAACCCTTATGCGTAGTGAAAGCGAAAAG GTGGGATTCTTTACTGATGCACCATCGGCCGCGCTAGATTATTACTATCTCAGCGTGAGTATGAGCATAT CTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG >gi|913748617|ref|NG_042439.1| Botryozyma nematodophila NRRL Y-17705 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAGAGCTCAAATTTGAAATCTGACTCCAT TTTGGTGTCCGAATTGTAATTTGAAGAGGTATCTTTGGAAGTAGCTCTCGCATATGTTCCTTGGAACAGG ACGTCATAGAGGGTGAGAATCCCGTACGTGGTGAGTTGTCTGCAACCTTGTAAAGTGCCTTCGAAGAGTC GAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCG ATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATT GCTGAGAGGGAAGCGTTTGAAATCAGACTTGGTATTCGGATAATCTTTTAGGTTTTACTAAGGGACCCTT TCTGTTTACTGGGCCAGCATCAGTGTGGGCGGCAGGATAATTGCTTGGTAATGTAGCTTCTTTTGAAGTG TTATAGACCAAGTGGATACTGCCAGCCTGTACTGAGGACCGCGCATTTTGCTAGGATGCTGGCGTAATGA TTTTAAACGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCAAGTGTTTGGGTGTTAAACC CGTACGCGTAATGAAAGTGAACGTAGGTGAGAACTCTCTTTTGAGTGCATCATCAACCGATCCTGATGTT TTCAGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTG AAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTAT AGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGC TCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTTGGGGACGCAATGTCCTTAACCTATTCTC AAACTTTAAATGTGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACAATTGAATGAAGAGCTTTTAGTG GGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCAAGGTTAAGGTGCCGGAATACAC GCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCC GCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTT ACCTATACCTTGCCGTCAGGGTTAACAACTGATGCCCTGACGAGTAGGCAGGCGTGGAGGTTTGTGACGA AGCCTTGGGCGTGAGCCTGGGTCGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAAT GAGATCTTTGAAGACTGAAGTGGGGAAAGGTTCCATGCGAACAGCAGTTGGCCATGGGTTAGTCGATCCT AAGAGATGGGGAAGCTCCGTTTTAAAGTGTCTAATTTTTTAGGCCACCATCGAAAGGGAATCCGGTTAAT ATTCCGGAACCTGGATGTGGATTCTTCACGGTAACGTAACTGAACGTGGAGACGTTGGCATGAGCCCTGG GAGGAGTTCTCTTTTCTTTTTAACAGTTTAACACCTTGAAATCGGTTTGTCCGGAGCTAAGGTCTTCTAA CTGGAAGAGCCAAGCGCTTCAGCTTGGTCCGGTGCGCTCATGACGACCCTTGAAAATCCACGGGAAGGAA TAGTTTTCACGCCAGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAA TAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGATCGGG TGTCTTGGGCCATTGTTTGAAGCAGCGAGACCAGGAAGGGACTATACTTGGGCAACTGAGTATGGACCTT TCCAGGACTTGTCTGTGGAAGGCTTTGGCAGATTTTTTTAATCGTCCGGGGCACGCCTAACGATCAACTT AGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGAT GTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAA ACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAA TGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGC AGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGT GTAGCATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATTGTTTTTTTACTTATTCAATTA AGCGGAACTGGACTTTGTCCATATTTTTGATTTAAGGTCCTTCGTGGGCTGATCCGGGTTGAAGACATTG TCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTGTCCTAAGGGAGACTCAT GGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCTCCTTGATTTTGATTTTCAGTGTGAATACA AACCATGAAAGTGTGGCCTATCGATCCTTTAGATCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTA CCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGG CTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGC TGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAAC TTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCAGTGCTGCGAAG CTACCATCCGCTGGATAATGGCTGAACGCCTCTAAGTCAGAATCCATGCTAGAAAGCGATGATGCCTACC CTCGCACATTTTAGATGGATATAAATAAGGCTTCGTGCCGCAAAACCATAGTAGGTTGGCAATGGTGCTC ATGGCGGAAAGGCTGTGGGTGCTTGCTGACGGATCGCAATTTATTGATGCGCGGGGATAAATCCTTTGCA GACGACTTAACTGTACAACGGGGTATTGTAAGCAGTAGAG >gi|913748616|ref|NG_042438.1| Blastobotrys illinoisensis NRRL YB-1343 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGCGAAGCGGCAATAGCTCAAATTTGAAATCTGGCGTCTT TGGCGTCCGAGTTGTAATTTCAAGAAGTGTCTTCTGGTTTGGCCCTTGCATATGTTCCTTGGAACAGGAC GTCATAGAGGGTGAGAATCCCGTATATGGTGAGGTGACCATTTCCTTTGTAAGACGCTCTCTAAGAGTCG AGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGA TAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTG CTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTCAGTGATCAGCTGTCTTTCGGGACTGTGCACTCGC TGTTTACTGGGCCAACATCAGTTTGGATGGCGAGATAATGACAATTGAATGTGGCTCTCTCTTCGGAGGG AGTGTTATAGCTTTTGTTGATATCGCCTATCCGGATTGAGGACCGCGCTTCGGCTAGGATGTTGGCGTAA TGATCTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAA ACCCGTACGCGTAATGAAAGTGAACGTAGAGGAGGACCCGCAAGGGCGCATCCTCGACCGATCCTGATGT TCTCGGATGGATTTGAGTGAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTA TAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAG CTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCT CAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGT GGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAAGTGCCGGAATACA CGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATC CGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGT TACTTATACTCCACCGCTAGGGTTATTGTGATGCCCTAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAA GCCTTGGCAGTAATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATG AGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTA AGAGATGGGGAAGTTCCGTATTAATGTGCTCGATTCTTCGAGCCGCCATCGAAAGGGAATCCGGTTAATA TTCCGGAACTTGGATATGGATTCTTCACGGTAACGTAACTGAATGCGGAGACGTCGGCATAAGTCCTGGG AGGAGTTCTCTTTTCTTCTTAACAACTTACCACCCTGAAATTAGTTTGTCTAGAGATAGGGTCCACGGGT TGGAAGAGCCTGACACCTTTGTCAGGTCCGGTGCACTTATGACGTCCCTTGAAAATCCGCAGGAAGGAAT AGTTTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAAT AATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGT GTTTTGGGCCTTGTTACAGAACCTCGGGAACTCGGATGGAACTGCGTAGGATTCACGTCTTATGTGGAGC CGTCTGGGATCCTTGAGCGGACGTGCTTGGCAGGTCATTTCGACCGTCCGATTCACACCAAACGATTAAC TTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTG ATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGT AAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATG AATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTG GCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGG GTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAAT TAAGCGGAATTGGACTTCACCGTCCACTTTCTAGTATTAAGGTCGCTTCGGCGGCTGATCCGGGTTGAAG ACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGG ACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTG AATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGCCAGAA AAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGA TGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAAC GTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAA TTGAACTTAGTACGAGAGGAACAGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCC GCGAAGCTACCATCTGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATT CTTGCCCTCGCACATTTTAGATGGATAAAAATAAGGCTTCGGCCGCTGAACCATAGCAGGCTGGCAACGG TGCTCATTACGGAAAGGTTTTGGGTGCTTGCCGGTGGATAGCAATGTCATTATGCGCGGGGATAAATCCT TTGCAGACGACTTAAATGTACAACGGAGTAT >gi|913748615|ref|NG_042437.1| Blastobotrys malaysiensis NRRL Y-6417 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGCGAAGCGGCAATAGCTCAAATTTGAAATCTGGCGTCTT TGGCGTCCGAGTTGTAATTTCAAGAAGTGTCTTCTGGTTTGGCCCTTGCATATGTTCCTTGGAACAGGAC GTCATAGAGGGTGAGAATCCCGTATATGGTGAGGTGACCATTTCCTTTGTAAGACGCTCTCTAAGAGTCG AGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGA TAGCGAACAAGTACTGTGAAGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTG CTGAAAGGGAAGGGCTTGAGATCAGACTTGGTATTCAGTGATCAGCTGTCTTTCGGGACTGTGCACTCGC TGTTTACTGGGCCAACATCAGTTTGGATGGCGAGATAATGACAATTGAATGTGGCTCCTTCTTCGGAGGG AGTGTTATAGCTTTTGTTGATATCGCCTATCCGGATTGAGGACCGCGCTTCGGCTAGGATGTTGGCGTAA TGATCTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAA ACCCGTACGCGTAATGAAAGTGAACGTAGAGGAGGACCCGCAAGGGCGCATCCTCGACCGATCCTGATGT TCTCGGATGGATTTGAGTGAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTA TAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAG CTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCT CAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGT GGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAAGTGCCGGAATACA CGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATC CGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGT TACTTATACTCCACCGCTAGGGTTATTGTGATGCCCTAGCGNGTAGGCAGGCGTGGAGGTCAGTGACGAA GCCTTGGCAGTAATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATG AGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTA AGAGATGGGGAAGTTCCGTTTTAATGTGCTCGATTCTTCGAGCCGCCATCGAAAGGGAATCCGGTTAATA TTCCGGAACTTGGATATAGATTCTTCACGGTAACGTAACTGAATGCGGAGACGTCGGCATAAGTCCTGGG AGGAGTTCTCTTTTCTTCTTAACAACTTACCACCCTGAAATTAGTTTGTCTAGAGATAGGGTCCACGGGT TGGAAGAGCCTGACACCTTTGTCAGGTCCGGTGCACTTATGACGTCCCTTGAAAATCCGCAGGAAGGAAT AGTTTTTATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAAT AATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGT GTTTTGGGCCTTGTTACAGAACCTCGGGAACTCGGATGGAACTGCGTAGGATTCACGTCTTATGTGGAGC CGTCTGGGATCCTTGAGCGGACGTGCTTGGCAGGTCATTTCGACCGTCCGATTCACACCAAACGATTAAC TTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTG ATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGT AAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATG AATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTG GCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGG GTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAAT TAAGCGGAATTGGACTTCACCGTCCACTTTCTAGTTTTAAGGTCGCTTCGGCGGCTGATCCGGGTTGAAG ACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGG ACTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTG AATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGCCAGAA AAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGA TGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAAC GTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAA TTGAACTTAGTACGAGAGGAACAGTTCATTCAGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCC GCGAAGCTACCATCTGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATT CTTGCCCTCGCACATTTTAGATGGATAAAAATAAGGCTTCGGCCGCTGAACCATAGCAGGCTGGCAACGG TGCTCATTACGGAAAGGTTTTGGGTGCTTGCCGGTGGATAGCAATGTCATTATGCGCGGGGATAAATCCT TTGCAGACGACTTAAATGTACAACGGGGTATTGTAAGCAGA >gi|913748614|ref|NG_042436.1| Trichomonascus ciferrii NRRL Y-10943 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTCAGTAACGGCGAGCGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGTCGT GTCGGCGTCCGAGTTGTAATTTGAAGATGGCAACTTTGGGAATGGCTCTCGCATATGTTCCTTGGAACAG GACGTCATAGAGGGTGAGAACCCCGTTCATGGCGAGATGACCCAGTCCTATGTAAAGTGCTTTCTAAGAG TCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAGGCTAAATATTGGCGAGAGAC CGATAGCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAA TTGTTGAAAGGGAAGGGCTTGAAGTCAGACATGGTATTCAGTGATCAACTGTCTTTCGGGACTGTGCACT CGCTGTTTACTGGGCCAGCATCGGTTTAGGCGGTGAGATAAATGCAAAAGAATGTGGCTCCGCTTTCGGG TGGAGTGTTATAGCTTTTGTTCATATCACCAGCTTGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCG TAATGACTTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGT AAAACCCGTACGCGTAATGAAAGTGAACGTAGATGAGAGCCCTTAAGGGTGCATCATCGACCGATCCTGA TGTTTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAG GGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGG GTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAG AAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTAT TCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTAGAATGAAGAGCTTTT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTAGAGTTAAGGTGCCAGAAT ACACGCTCATCAGACACCAGAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGA ATCCGCTAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCG TGTTACCTATACTCTACCGCTAGGGTTATTGTGATGCCCTAGCGAGTAGGCAGGCGTGGAGGTCAGTGAC GAAGCCTTTGCAGTGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAA ATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAATTGGCCACGGGTTAGTCGATC CTAAGAGATGGGGAAGCTCCGTTTCAATGTGCTCGATTTTTCGAGCCACCATCGAAAGGGAATCCGGTTA ATATTCCGGAACTTGGATATGGATTCTTCACGGCAACGTAACTGAATGTGGAGACGACGGCATAAGTCCT GGGAGGAGTTCTCTTTTCTTCTTAACAGCTTATCACCCTGAAATTGGTTTATCCGGAGCTAGGGTCTTAT GGCTGGAAGAGCCTGACATCTTTGTCAGGTCCGGTGCACTTATGACGTCCCTTGAAAATCCACAGGAAGG AATAGTTTTCATACCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAG AATAATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTCG AGTGTTTTGGGCCTTGTTTCAGAACCTGAGGAACCCGGACGGAACTGCGTGGGATTCACGTCTCATGTGG AGCTGACTGGGGTCCTTCAGCGGACGTGCTTGGCAGGTCCTTGTGGCCGCTCCGATTCACATTGAACGAC CAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAA AGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCAACTTTTCTTGAAAGTTGTTGCCAAATACAAAA TTGGCCAACATTCAGGGCACTCAAAGGTAGACCAGTAATGGTCGGCCTAGTCTTTTTTTAATAAAAAAAG GCTACATCCTCAAATTGCGGGGACTTCCTTAGAGCTTTGAGATACCGCGGCCTTTGTGAAAACTAGGTGC AGCAGATGGCGTAGGGGCCATTGGATGGTAAAAACTCTCAAAGATTGGATAATCCGCAGCCAAGCCCTAA GTCTTGAAAAAGATATGGGTGCAGTTCACAGACTAAATGTGGGTGGGTCTTGTTGTACAACAAGGCTTAA GATATAGTCGGTTAGCACTAGAAATAGTGCTAGTAAAAACGCTGAATGTCAAAGTGAAGAAATTCAACCA AGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTG ACGCGCATGAATGGATTAACGAGATTCCTACTGTCCCTACTTACTATCTAGCGAAACCACAGCCAAGGGA ACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAG ACATAGAGGGTGTAGGATAAGTGGGAGCTCCGGCGCCAGTGAAATACCACTACCTTTATCGTTTTTTTAC TTATTCAATTAAGCGGAACTGGACTTCACCGTCCACTTTCTAGTATTAAGGTCCTTCGGGGCTGATCCGG GTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCT AAGGGGGACTCATGGAGAACAGAAATCTCCAGTAGAATAAAAGGGTAAAAGTCCCCTTGATTTTGATTTT CAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGT GCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGAT CCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAAC AGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTCATCGCA ATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCAGATAATTGGTTTTTGCGGTTGTCTGATCAGG CATTGCCGCGAAGCTACCATCTGCTGGATTATGGCTGAACGCCTCTAAGCCAGAATCCATACTAGAAAGC GATGATTCTTGCCCTCGCACATTTTAGATGGATACAAATAAGGCCTCTGGCCGCTGAACCATAGCAGGCT GGCAACGGTGCTCATTGCGGAAAGGCTTTGGGTGCTTGCCGGCGGATAGCAATGTCATTATGCGCGGGGA TAAATCATTTGCAGACGACTTAAATGTACAACGGGGTATTGTAAGCAGT >gi|913748612|ref|NG_042435.1| Sugiyamaella floridensis NRRL YB-3827 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTGGACACCTTGCTTATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTATGGTGGGGCAAGTTCATTCATGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTG TTTACTGGGCCAGTATCGGTTTTGGCGGTGGGATAATGACGTAGGAATGTGGCTTTTCGGAGTGTTATAG CCTGCGTTGATACCACCAGCCGGGACCGAGGACCGCGCTTTTAGCTAGGATACTGGCGTAATGATTTTAA GCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACG CGTAATGAAAGTGAACGTAGGTGAGAGCCCTTTGGGTGCATCATCGACCGATCCTGATGTTCTCGGATGG ATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAG GAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAA AGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAG TTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTAA ATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTTT TGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGAGTTAAGGTGCCGGAATACACGCTCATCAG ACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAA TGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACT TCGCCGCTAGGGTTATTGTGATGCCCTAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGCAG TGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTGA AGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGGGG AAGCTCCGTTTCAATGTACTCGATTTTTCGAGTCGCCATCGAAAGGGAATCCGGTTAATATTCCGGAACT TGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCGCAAGCCCTGGGAGGAGTTCTC TTTTCTTCTCAACAGCTTATCACCCTGAAATTGGTTTGTCCAGAGCTAGGGTCTTATGGCTGGAAGAGCC TGACGCCTCTGTCAGGTCCGGTGCGCTTGCGACGTCCCTTGAAAATCCGCAGGAAGGAATAGTTTTCATG CCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATA AGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGTGTTTTGGGCC TTGTTTCAGAACCCAGAGAACCTGGACGGCACTGAGTGGGATTCACGTCTCGCTTGGAGCTGACCGGGAT CTTCTGGCGGACGTGCTTGGCAGACAATTTATTGTCGTTCCGATTCACACCAAACGATTAACTTAGAACT GGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGAC GCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCG GGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATT AACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATC AGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAA TAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGCGGA GCTGGACTTCATCGTCCACGTTCTAGTATTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACATTGTCAG GTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGACTCATGGAG AACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACC ATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCAC AGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTCT TCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGG TTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGTAATAGTAATTGAACTTAG TACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTAC CATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACACGATGATTCTTGCCTCGT ACATTTTAGATGGATACAAATAAGGCCTTTGGCCGCTGAACCATAGCAGGTTGGCAATGGTACTCATGAC GGAAGAGTTGTGGGTGCTTGCTGACGGATAGCAATTTACTAATGCGCGGGGATAAATCCTTTGCAGACGA CTTAAATGTACAACGGAGTATTGTAAGCAGTAGAG >gi|913748611|ref|NG_042434.1| Sugiyamaella boreocaroliniensis NRRL YB-1835 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTGGACACCTTGCTTATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTATGGTGGGGCAAGTTCATTCGTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAGATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTG TTTACTGGGCCAGTATCGGTTTTGGCGGTGGGATAATGGCGTAGGAATGTGGCTTTTCGGAGTGTTATAG CCTACGTTGATACCACCAGCCGGGACCGAGGACCGCGCTTTTAGCTAGGATACTGGCGTAATGATTTTAA GCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACG CGTAATGAAAGTGAACGTAGGTGAGAGCCCTTTGGGTGCATCATCGACCGATCCTGATGTTCTCGGATGG ATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAG GAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAA AGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAG TTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTAA ATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTTT TGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGAGTTAAGGTGCCGGAATACACGCTCATCAG ACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAA TGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACT TCGCCGCTAGGGTTATTGTGATGCCCTAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGCAG TGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTGA AGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGGGG AAGCTCCGTTTCAATGTACTCGATTTTTCGAGTCGCCATCGAAAGGGAATCCGGTTAATATTCCGGAACT TGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCGCAAGCCCTGGGAGGAGTTCTC TTTTCTTCTCAACAGCTTATCACCCTGAAATTGGTTTGTCCAGAGCTAGGGTCTTATGGCTGGAAGAGCC TGACGCCTCTGTCAGGTCCGGTGCGCTTGCGACGTCCCTTGAAAATCCGCAGGAAGGAATAGTTTTCATG CCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATA AGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGTGTTTTGGGCC TTGTTTCAGAACCCAGAGAACCTGGACGGCACTGAGTGGGATTCACGTCTCGCTTGGAGCTGACCGGGAT CTTCTGGCGGACGTGCTTGGCAGACAATTTATTGTCGTTCCGATTCACACCAAACGATTAACTTAGAACT GGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGAC GCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCG GGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATT AACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATC AGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAA TAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGCGGA GCTGGACTTCATCGTCCACGTTCTAGTATTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACATTGTCAG GTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGACTCATGGAG AACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACC ATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCAC AGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTCT TCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGG TTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGTAATAGTAATTGAACTTAG TACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTAC CATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACACGATGATTCTTGCCTCGT ACATTTTAGATGGATACAAATAAGGCCTTTGGCCGCTGAACCATAGCAGGTTGGCAATGGTACTCATGAC GGAAGAGTTGTGGGTGCTTGCTGACGGATAGCAATTTACTAATGCGCGGGGATAAATCCTTTGCAGACGA CTTAAATGTACAACGGAGTATTGTAAGCAGTAGAG >gi|913748608|ref|NG_042433.1| Sugiyamaella valdiviana NRRL Y-7791 28S rRNA, partial sequence; from TYPE material GGGATTGCCTTAGTAGCGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGCCTTTGGTGTCCG AGTTGTAATTTGAAGAAGGTAACTTTTGAGTAGGACCTTGCTTATGTTCCTTGGAACAGGACGTCATAGA GGGTGAGAATCCCGTGTGGCGAGGCAGCCTACTCAATGTAAAGTGCTTTCGAAGAGTCGAGTTGTTTGGG AATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAG TACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTGAAAGGGAA GGGCTTTAGATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTGTTTACTGGG CCAGTATCGGTTTTGGCGGTGGGATAATGGCGTAGGAATGTGGCTTTTCGGAGTGTTATAGCCTACGTTG ATACCACCAGCCGGGACCGAGGACCGCGCTTTATAGCTAGGATACTGGCGTAATGATTTTAAGCCACCCG TCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGTAATGA AAGTGAACGTAGGTGAGAGCCCTTTGGGGTGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTATG AGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTAAATATGTA AGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGCGGAGTTAAGGTGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATGTGTAA CAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACTTCGCCGC TAGGGTTATTGTGATGCCCTAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGCAGTGATGCT GGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTGAAGACTGA AGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGGGGAAGCTCC GTTTCAATGTGCTTGATTTTTCAAGCCGCCATCGAAAGGGAATCCGGTTAATATTCCGGAACTTGGATAT GGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCGCAAGCCCTGGGAGGAGTTCTCTTTTCTT CTCAACAGCTTATCACCCTGAAATTGGTTTGTCCAGAGCTAGGGTCTTATGGCTGGAAGAGCCTGACGCC TCTGTCAGGTCCGGTGCGCTTGCGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCATGCCAAGTC GTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAG TCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGTGTTTTGGGCCTTGTTTC AGAACCCAGAGAACCTGGACGGCACTGAGTGGAATTCACGTTTCGCTTGGAGCTGACCGGGATCTTCTGG CGGACGTGCTTGGCAGGCAATTTATTGTCGTTCCGATTCACACCAAACGATTAACTTAGAACTGGTACGG ACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGT GATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAA CTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGA TTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGG AAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGG GAGCTTCGGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGCGGAGCTGGAC TTCATCGTCCACGTTCTAGATTTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGA GTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGACTCATGGAGAACAGAA ATCTCCAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAG TGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATT AACTGTTGAACGAGTAAGTGATGGAAATTTACTTGACTTGCAAAGTACACTCAATGTTTTGTTTGTACAG AGGGGAGAATGTACTTTGCCTGAGAGTAAAGGACTAGCACTTGACTATCGTGCAAATTAACTAATAGTCC CAGGCTTCGCTTCCCAGCGGAGTCTAGTCCGGCCGTTTTCTCATAGTGCTGAATTCGGTTAGCTGCCAGT TTATTCTGAGCGGCGAAAGGGCGACACATCTGGATGCGGGGAACCCTCGTTAGGTCTTTGGTACCAAACA CAGGCGGTAACGCCCCTGTGTGAAGTCTGTTGGGGCAGACGGGTAAAAATCCAAAGAATAGAGACAATCC GCAGCTGACTTGGCTCCCTGATATTATATTATATTAGTTCAAAGCTAAGCGGTTCAACGCTCGCTAAGAT GTGGGTTTCTGTAGTTTTAACTATGAACTAAAACTACAAGAGGCTTAAGGTACGGGCTACGCCCATCCGA GAGGATGCAATTACCTACCGGTTGCACAAACTGAGAAGTAGTTGGCTGTGAGTGATATCACGGTGGTAGT ACGGAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTCTTC CTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTT TAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGACTGTTATCGTAATAGTAATTGAACTTAGTA CGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTACCA TCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACACGATGATTTTTGCCTCGTAC ATTTTAGATGATAAAAATAAGGCCTTTGGCCGCTGAACCATAGCAGGCTAGCAATGGTGCTCATGACGGA AGAGTTGTGGGTGCTTGCTGGCGGATAGCAATTTACTAATGCGCGGGGATAAATCCTTTGCATACGANTT ATATGTNCAACGGGGTATTGTAAGCAG >gi|913748605|ref|NG_042432.1| Sugiyamaella japonica NRRL YB-2798 28S rRNA, partial sequence; from TYPE material AAACCANCAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACTAG TTGTCCGAGTTGTAATTTGAAGAAGGTATCTTTGGGTTTGGTCCTTGCATATGTTCCTTGGAACAGGACG TCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAGTT GTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGC GAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTGA AAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTGTT TTACTGGGCCAGTATCGGTTTTGGCGGTGAGATAATGGTGTCGGAATGTGGCTCCTCGGAGTGTTATAGC CTTCATTGATATCACCAGCCGGGACCGAGGACCGCGCTACTTGTAGTTAGGATACTGGCGTAATGATTTT AAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTA CGCGTAATGAAAGTGAACGTAGGTGAGGGCCCCTTTTTATCGGGGGGTGCATCATCGACCGATCCTGAAG TTTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGG TGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGT ATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAA GCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTC TCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTTATTGAACGTGGACATTTGAATGAAGAGCTTTTAG TGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATAC ACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAAT CCGCTAAGGACTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTG TTACCTATACTTCACCGCTATGGTTATAGTGAAGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGA AGCCTTGGCAGTGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAAT GAGATCTTTGAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCT AAGAGATGGGGAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAAT ATTCCGGAACTTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGG GAGGAGTTCTCTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGA CTGGAAGAGCCTGGTACCTTTACCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAA TAGTTTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAA TAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAG TGTTTTGGGTCTTGTTTCAGAACCCGGGGAACCTGGACGGAACTGTGTGGGATTTACGTTTCACATGGAT CTGACCGGGATCCTTTCGGCGGACGTGCTTGGCAGATAATTTTATTATCGTTCCGATTCACACCAAACGA CTAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGA AAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCG CGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGC GCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGG GCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACAT AGAGGGTGTAGAATAAGTGGGAGCTTCGGCGACGGTGAAATACCACTACCTTTATAGTTTTTTTACTTAT TCAATTAAGCGGAGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCCTTTTGGGGCTGATCCGGGT TGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAA GGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCA GTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGC CAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCC TTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAG GGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAAT AGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCA TTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGA TGATTGTTTGCCTCGCACATTTTAGATGGATAAAAATAAGGCCTTTTTTGTGCCGCTGAACCATAGCAGG CTGGTAACGGTACTCAGTAGATAAAATTATTGGGTGCTTACCGGTGGATAGCAAAGTTACTATGTTGCGA GGATAAATCCTTTGCAGACGACTTAAATGTACAACGGGGTATTGTAAGCAG >gi|913748603|ref|NG_042431.1| Sugiyamaella neomexicana NRRL YB-2450 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTTTGGTCCTTGCATATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTG TTTTACTGGGCCAGTATCGGTTTTGGCGGTGAGATAATGGTGTTGGAATGTGGCTCCTCGGAGTGTTATA GCCTTCATTGATATCACCAGCCGGGACCGAGGACCGCGCTGCTTTTGTAGTTAGGATACTGGCGTAATGA TTTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACC CGTACGCGTAATGAAAGTGAACGTAGGTGAGGGCCCCTTTTATCGGGGGGTGCATCATCGACCGATCCTG AAGTTTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATA GGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTG GGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCA GAAGCTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTA TTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTTATTGAACGTGGACATTTGAATGAAGAGCTTT TAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAA TACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGG AATCCGCTAAGGACTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGC GTGTTACCTATACTTCACCGCTATGGTTATAGTGAAGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGA CGAAGCCTTGGCAGTGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCA AATGAGATCTTTGAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGAT CCTAAGAGATGGGGAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTT AATATTCCGGAACTTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCC TGGGAGGAGTTCTCTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTC TGACTGGAAGAGCCTGGTACCTTTACCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAG AAATAGTTTTCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATA GAATAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTC GAGTGTTTTGGGTCTTGTTTCAGAACCCGGGGAACCTGGACGGAACTGTGTGGGATTAACGTTTCACATG GATCTGACCGGGATCCTTTCGGCGGACGTGCTTGGCAGGTAATTTATTATCGTTCCGATTCACACCAAAC GACTAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCA GAAAGTGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAG CGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGAC GCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAAC GGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGAC ATAGAGGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTT ATTCAATTAAGCGGAGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCTTCGGGGCTGATCCGGGT TGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAA GGGGGGCTCATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCA GTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGC CAGAAAAGTTACCACAGGGATTAACTGTAGAGAATTTCTAATCATAGTCCCAGGCTTTGATATCCCAACA AAGTCTAGTCCGGCTGGAGCTGTAAAGTGCTGGTTCCAGTTAAGTAACTACTACTATGTATATAGTAGTG GTTATTGTAGGGCGACACATCTGGATGCGGGGAACCCTCGTTAAGTCTTTGGTACCAAGTGCAAGCGGTA ACACCCTTGTACAAAGTCTGTTTGGGGCAGACGGGTAAAAATCCAAAGAATAGAGACAATCCGCAGCTGA CTTGGCTCCCTCATGGTAAAGCTAAGCGGTTCAACGCTCGCTAAGATGTGGGTGGAATTGTAGATATTAT TTTATTATTATTATTATTAACAACAATTCTGCTTAAGGTACGGGCTACGCCCACCTGAGAAGGTGCAATT ACCTACCGGTAGCACAAACCGAGAAGTAATTGGTCATGGTAGTACGGAACTGGCTTGTGGCAGTCAAGCG TTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAA GCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTT ACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATT GGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCT AAGTCAGAATCCATACTAGAACGCGATGATTCTTTGCCTCGCACATTTTAGATGGATAAAAATAAGGCCT TTTTTGTGCCGCTGAACCATAGCAGGCTGGTAACGGGGCTCAGTAGATAAAATTATTGAGTGCTTACCGG GGGATAGCAAAGTTACTATGCGCGGGGATAAATCCTTTGCAGACGACTTAAATGTACAACGGGGTATTGT >gi|913748599|ref|NG_042430.1| Sugiyamaella pinicola NRRL YB-2263 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT CGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTTTGGTCCTTGCATATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAGCTTTCTTTCGGGATTGTGCACTCGCTG TTTTACTGGGCCAGTATCGGTTTTGACGGTGAGATAATGGTGTTGGAATGTGGCTCCTCGGAGTGTTATA GCCTTCATTGATATCACCAGTCGGGACCGAGGACCGCGCTTTATAGCTAGGATACTGGCGTAATGATTTT AAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTA CGCGTAATGAAAGTGAACGTAGGTGAGGGCCCCTCACGGGGTGCATCATCGACCGATCCTGAAGTTTTCG GATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGT ATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAAC TTTAAATATGTAAGAAGTCCTTGTTACTTTATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCC ATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTC ATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTA AGGACTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCT ATACTTCACCGCTATGGTTATAGTGAAGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTT GGCAGTGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATC TTTGAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGA TGGGGAAGCTCCGTTTCAATGTGCTTGATTATTCAAGCCACCATCGAAAGGGAATCCGGTTAATATTCCG GAACTTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAG TTCTCTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGACTGGAA GAGCCTGGTACCTTTACCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTT TCATGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGT AGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAGTGTTTT GGGTCTTGTTTCAGAACCCGAGGAACCTGGACGGAACTGTGTGGGATTCGCGTTTCACATGGATCTGACC GGGATCCTTTCGGCGGACGTGCTTGGCAGGTAATTTATTACCGTTCCGATTCACACCAAACGACTAACTT AGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGAT GTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAA ACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAA TGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGC AGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGT GTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCAATTA AGCGGAGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACAT TGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTC ATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATA CAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGCCAGAAAAGT TACCACAGGGATTAACTGTAGAGAAGAAATTAAATCTAATCATAGTCCCAGGCTTTGATATCCCAGCAAA GTCTAGTCCGGCTGGAGCTGTAAGTGCTGGCTCCAGTTAAGTAACAACATCCTTGTTATTGTAGGGCGAC ACATCTGGATGCGGGGAACCCTCGTTAGGTCTTTGGTACCAAGTATAAGCGGTAACACCCTTGTACAAAG TCTGTTTGGGGCAGACGGGTTAAAATCCAAAGAATAGAGACAATCCGCAGCCGACTTGGCTCCCTCATGG AAAGCTAGGCGGTTCAACGCTCGCTAAGATGTGGGTAGAATTGTTAAAAAAAGATTATTACTATAGCAAC AATTCTGCTTAAGGTACGGGCTACGCCCACCTGAGAAGGTGCAATTACCTACCGGTCGCACAAACCGAGA AGTAGTTGGTCATGGTAGTACGGAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGAT CCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAAT AGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCA ATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGG CATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGC GATGATTCTTTGCCTCGCACATTTTAGATGGATAAAAATAAGGCCTTTTTTGTGCCGCTGAACCATAGCA GGCTGGTAACGGTGCTCAGTAAATAAAATTATTGGGTGCTTACCGGTGGATAGCAAAGTTACTATGCGCG GGGATAAATCCTTTGCAGACGACTTAAATGTACAACGGGGTATTGTA >gi|913748597|ref|NG_042429.1| Sugiyamaella grinbergsii NRRL Y-27117 28S rRNA, partial sequence; from TYPE material AAACCANCAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTTTGGTCCTTGCATATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTATCTTTCGGGATTGTGCACTCGCTG TTTACTGGGCCAGTATCGGTTTTGACGGTGAGATAATGGTGTTGGAATGTGGCTCTTCGGAGTGTTATAG CCTTCATTGATATCACCAGTTGGGACCGAGGACCGCGCTTTATAGCTAGGATACTGGCGTAATGATTTTA AGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTAC GCGTAATGAAAGTGAACGTAGGTGAGGGCCCTCACGGGTGCATCATCGACCGATCCTGAAGTTTTCGGAT GGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAG AGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCG AAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATC AGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTT AAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATC AGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG ACTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATA CTTCACCGCTATGGTTATAGTGATGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGC AGTGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTT GAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGG GGAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAATATTCCGGAA CTTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAGTTC TCTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGACTGGAAGAG CTTGGTACCTTTACCAAGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCA TGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGA TAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAGTGTTTTGGG TCTTGTTTCAGAACCCGAGGAACCTGGACGGAACTGTGTGGGATTCGCGTTTCACATGGAGCTGACCGGG ATCCTTCGGCGGACGTGCTTGGCAGGTAATTTATTATCGTTCCGATTCACACCAAACGACTAACTTAGAA CTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTG ACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGG CGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGA TTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAA TCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAG AATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCAATTAAGCG GAGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACATTGTC AGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTCATGG AGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAA CCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACC ACAGGGATTAACTGTAGAAAAAGTCGGATATAAAATCCTAGACTATCATCTAATCATAGTCCCAGGCTTT GTATCCCAACAAAGTCTAGTCCGGCTGGAGCTGTAAGTGCTGGTTCCAGTCAAGTAACGAAAGTTATTGT AGGGCGACACATCTGGATGCGGGGAACTCTCGTTAGGTCTTTGATACCAAGTGCAGGCGGTAACTCCCCT GTACAGAGTCTGTTTGGGGCAGACAGGTAAAAATTCAAAGAATAGAGACAATCCGCAGCTGACTCGGCTC CCTCATGGAAAGCTGAGCGGTTCAACGCTCGCTAAGATGTGGGTGGAATAACTAATTAATATTAAAAAAT AAGAACAGTTATTCCGCTTAAGGTACGGGCTACGCCCACCTGAGAAGGTGCAATTACCTACCGGTCGCAC AAACCGAGAAGTAGTTGGTCATGGTAGTACGGAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTG CTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCA CCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAAT GTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGT CTGATCAGGCATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATA CTAGAACGCGATGATTCTTGCCTCGCACATTTTAGATGGATAAAAATAAGGCCTTTGTGCCGCTGAACCA TAGCAGGCTGGTAACGGTACTCAGTAGATAAATTATTGGGTGCTTACCGGTGGATAGCAATGTTACTATG CGCGGGGATAAATCCTTTGCAGACGACTTAAATGTACAACGGAGTATTGTAAGCAGTAGAG >gi|913748595|ref|NG_042428.1| Sugiyamaella lignohabitans NRRL YB-1473 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTTTGGTCCTTGCATATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTATCTTTCGGGATTGTGCACTCGCTG TTTACTGGGCCAGTATCGGTTTTGGCGGTGAGATAATGACTTTGGAATGTGGCTCCTCGGAGTGTTATAG CCTTTGTTGATATCACCAGCTGGGACCGAGGACCGCGCTTTTAGCTAGGATACTGGCGTAATGATTTTAA GCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACG CGTAATGAAAGTGAACGTAGGTGAGGGCCCTCACGGGTGCATCATCGACCGATCCTGATGTTTTCGGATG GATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCA GTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTA AATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTT TTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATCA GACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGA CTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATAC TTCACCGCTATGGTTATTGTGATGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGGA GTGATCCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTG AAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGGG GAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAATATTCCGGAAC TTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAGTTCT CTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTCTTCTGACTGGAAGAGC CTGGTACCTTTACCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCAT GCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGAT AAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAGTGTTTTGGGT CTTGTTTCAGAACCCGAGGAACCTGGACGGAACTGTGTGGGATTCACGTTTCACATGGAGCTGACCGGGA TCCTTCGGCGGACGTGCTTGACAGGTAATTTATTATCGTTCCGATTCACACCAAACGACTAACTTAGAAC TGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGA CGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGC GGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGAT TAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAAT CAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGA ATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCAATTAAGCGG AGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACATTGTCA GGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTCATGGA GAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAAC CATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCA CAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTC TTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGG GTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTA GTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTA CCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATTCTTGCCTCG CACATTTTAGATGGATAAAAATAAGGCCTTGTGCCGCTGAACCATAGCAGGCTGGTAACGGCACTCAGTA GATAAATTATTGGGTGCTTACCGGTGGATAGCAATGTTACTATGCGCGGGGATAAATCCTTTGCAGACGA CTTAAATGTACAACGGGGTATTGNNNGCAG >gi|913748594|ref|NG_042427.1| Sugiyamaella marionensis NRRL YB-1336 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTTTGGTCCTTGCATATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTATCTTTCGGGATTGTGCACTCGCTG TTTACTGGGCCAGTATCGGTTTTGACGGTGAGATAATGACTTTGGAATGTGGCTCTTCGGAGTGTTATAG CCTTTGTTGATATCACCAGTTGGGACCGAGGACCGCGCTTTTAGCTAGGATACTGGCGTAATGATTTTAA GCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACG CGTAATGAAAGTGAACGTAGGTGAGGGCCCTCACGGGTGCATCATCGACCGATCCTGATGTTTTCGGATG GATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCA GTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTA AATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATTT TTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATCA GACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGA CTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATAC TTCACCGCTATGGTTATTGTGATGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGGA GTGATCCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTG AAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGGG GAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAATATTCCGGAAC TTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAGTTCT CTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGACTGGAAGAGC CTGGTACCTTTACCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCAT GCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGAT AAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAGTGTTTTGGGT TTTGTTTCAGAACCCGGGGAACCTGGACGGAACTGTGTGAGATTCGCGTTTCATATGGAGCTGACCGGGA TCCTTCGGCGGACGTGCTTGACAGATAATTTATTATCGTTCCGATTCACACCAAACGACTAACTTAGAAC TGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGA CGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGC GGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTNGTCATCTAATTAGTGACGCGCATGAATGGAT TAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAAT CAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGA ATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCAATTAAGCGG AGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCTTCGGGGCTGATCCGGGTTGAAGACATTGTCA GGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTCATGGA GAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAAC CATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCA CAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTC TTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGG GTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTA GTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTA CCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATTCTTGCCTCG CACATTTTAGATGGATAAAAATAAGGCCTTTTGGCCGCTGAACCATAGCAGGCTGGTAACGGTACTCAGT AGATAAATTATTGGGTACTTACCGGTGGATAGCAATGTTACTATGCGCGGGGATAAATCCTTTGCAGACG ACTTAAATGTACAACGGAGTATTGTAAGCAGTAGAG >gi|913748593|ref|NG_042426.1| Sugiyamaella novakii NRRL Y-27346 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCACCTT TGGTGTCCGAGTTGTAATTTGAAGAAGGTAACTTTGAGTTTGGTCCTTGCATATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTTCTGTGAGGTGGCCATTCTCTTGTAAAGTGCTTTCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTG TTTACTGGGCCAGTATCGGTTTTGACGGTGAGAGAATTGCAAAGGAATGTGGCTCCTCGGAGTGTTATAG CCTTTGTGGATATCGCCAGTTGGGACCGAGGACCGCGCTTTATAGCTAGGATACTGGCGTAATGATTTTA AGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTAC GCGTAATGAAAGTGAACGTAGGTGAGAGCCCTTACGGGTGCATCATCGACCGATCCTGATGTTTTCGGAT GGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAG AGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCG AAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATC AGTTTTATGAGGTAAAGCGAATGATTAGAGGTATTGGGGTTGAAACGACCTTGACCTATTCTCAAACTTT AAATATGTAAGAAGTCCTTGTTACTTTATTGAACGTGGACATTTGAATGAAGAGCTTTTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATC AGACACCACAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG ACTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATA CTTCACCGCTATGGTTATAGTGATGCCATAGCGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTGGC AGTGATGCTGGGTCGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTT GAAGACTGAAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATGG GGAAGCTCCGTTTCAATGTGCTTGATTTTTCAAGCCACCATCGAAAGGGAATCCGGTTAATATTCCGGAA CTTGGATATGGATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAGTTC TCTTTTCTTCTCAACAGTCTATCACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGACTGGAAGAG CCTGGTACCTTTACCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCA TGCCAAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGA TAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTCGAGTGTTTTGGG TCTTGTTTCAGAACCCGAGGAACCTGGACGGAACTGTGTGGGATTCGCGTTTCACATGGAGCTGACCGGG ATCCTTCGGCGGACGTGCTTGGCAGGTAATTTATTATCGTTCCGATTCACACCAAACGACTAACTTAGAA CTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTG ACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGG CGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGA TTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAA TCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAG AATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCAATTAAGCG GAGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGTCCTTAGGGGCTGATCCGGGTTGAAGACATTGTC AGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTCATGG AGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAA CCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCTGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACC ACAGGGATAACTGGCTTGTGGCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCT CTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTG GGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGATTGTTATCGCAATAGTAATTGAACTT AGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCT ACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATTCTTGCCTC GCACATTTTAGATGGATAAAAATAAGGCCTTGTGCCGCTGAACCATAGCAGGCTGGTAATGGTACTCAGT AGATAAATTATTGGGTGCTTACCGGTGGATAGCAATGTTACTATGCGCGGGGATAAATCCTTTGCAGACG ACTTAAATGTACAACGGAGTATTGTAAGCAGTAGAG >gi|913748592|ref|NG_042425.1| Sugiyamaella castrensis NRRL Y-17329 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCAGCAA TGTCCGAGTTGTAATTTGAAGAGAGTAACTTTGAGTTGGGTCCTTGCATATGTTCCTTGGAACAGGACGT CATAGAGGGTGAGAATCCCGTTCTGTGAGGTGACCCTTCTCTTGTAAAGTGCCCTCGAAGAGTCGAGTTG TTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCG AACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTGAA AGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGATTGTGCACTCGCTGTTT ACTGGGCCAGTATCGGTTTTGGCGGTGGGATAATGGTATAGGAATGTGGCTCCTCGGAGTGTTATAGCCT ATATTGATACCACCAGCTGGGACCGAGGACCGCGCTTTTTAGCTAGGATACTGGCGTAATGATTTTAAGC CACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCG TAATGAAAGTGAATGTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTTTCGGATGGATTTG AGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTA TGAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTAAATATG TAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAA GCAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATCAGACACCA CAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGATTGTGTA ACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACTTCACCG CTATGGTTATAGTGAAGCCATAGCGAGTAGGCAGGCGTGGAGGTTTGTGACGAAGCCTTGGCAGTGATGC TGGGTCGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTGAAGACTG AAGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATAGGGAAGCTT CGTTAAAACGCTTGATTTTTCAAGCCTCTATCGAAAGGGAATCCGGTTAATATTCCGGAACTTGGATATG GATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAGTTCTCTTTTCTTC TCAACAGTCTAACACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGACTGGAAGAGCCTGACACCT TTGTCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCATGCCAAGTCG TACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGT CGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGTGTTTTGGGCCTTGTTAAG AACCCGAGGAACCTAGTCGGCACTGTGTGGGATTCGCGTTTCGCATGGAGCTGGCCGGGATTTTTGGCGG ACGAGCTTGGCAGGTTTTTAACCGTTCCGATTCACACCAAACGATTAACTTAGAACTGGTACGGACAAGG GGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTC TGCCCAGTGCTCAACCTAAGTTGCAAAGAAAAAAGTCTTTGGCCTCTTCAGGGCACAGGTAACCAGTAAT GGTGGCCTAGTCGATGTGTTATCATTGGCGACATCCTCAAATTGCGGGGAGTCCCTTAAGCTTAGAGATA CCGCGGCGACGTGAAAGCGAGCGTGTCAGCAGATGGTGTAACGGCCATTGGATGGTAAAAACTCTCTAAG ATTGGGTGATCCGCAGCCAAGCCCTAAGTCGAAAGATATGGGTGCAGTTCACAGACTAAATGTGGATGGG TGGTATGATAGGATGATAGTTAATAAAAAATGACGATTTTTATCGTGGGCAATTTTAAACTATCTATTAA ACCTACATATTGCTTAAGATATAGTCGGGCTCTTACTGAAAGGTGAGAGGATTAGTAATGCTGAATGTCA AAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATG CCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAG CGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTTAAGCTTAATGGGGT CAACAGCGGGGTATTTTAATACTGAAACCTGCTAGTCAAGTTAGCATCATTGTAAGGGCTTTCTGGCGAG ACAACCTGGTACGGGGAAGCCTCTAAGAGGTAATCCCGTGGCGAGCTTTAATTAGTGATAATTAAAAGCC GTCGTAACGCGCGGTAAGGTGTCGGTCGACTCAATGAGCCGGCTTAAGGTACGTGCTAATCCCCCCGTGA GGGTGTTTGTCTGAGGAGCGCTTACACGTGAATCAGATGAAAGCTGTAAACTAGTAGGAAATGACTAGTC TAGGCTGGTATTGATCATTCGATCGTATGGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGA GGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCTTTATAGTTTTTTTACTTATTCA ATTAAGCGGAGCTGGACTTCATCGTCCACGTTCTAGATTTAAGGCTTCGGCTGATCCGGGTTGAAGACAT TGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTC ATGGAGAACAGAAATCTCCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATA CAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGT TACCACAGGGATTAACTGTAAAATAATAGTCCCAGGCTTTGTTTCCCAACAGAGTCTAGTCCGGCTAAAC TGTGTTGTGTTGGTTTAGTTAGCGTATTAACGCGTAGGGCAACACATCTGGATGCGGGGAACCCTCGTTA GGTCTTTGGTACCAAGCGTAGTTGTAACACCTCTACGTAAAGTCTGTTTGGGGCAGACGGGTAAAAATCC AAAGAATAGAGACAATCCGCAGCTGACTTGGCTCCCTCTTTGAAAGCTAGGCGGTTCAACGCTCGCTAAG ATGTGGGTGAAAACATATATTTTTGTAGTTGTTTTTGCTTAAGGTACGGGCTACGCCCATCCGAGAGGAT GCAATTACCTACCGGTTGCACAAACTGAGAAGTAATTGGTCATGGTAGTACGGAACTGGCTTGTGGCAGT CAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATT CGGTAAGCGTTGGATTGTTCACCCACTAAAATCCTCTATTGGTGGTGATAGTCAGGCTAGTTTACTAGTT ATGCTGGCTAGTCGAGATGGGGTTCATGACAGGACCCATCCGGCGAGATAACCTGGTTCGGGGAAGGCTA AGACTAAGTTATTAGTTATGCTAATCCCGAGCGGAGTGCCTGAAGAGCGATTTTCAGATCACCCGTGTAA CGCGCGGTAAGGTATCGGCTGTCTTTCATAGACAGCTTAAGGGACGTGCTATTCCCTGGGGAAACCCAGC CTAGTTAAGAAGGACCTGTCATCTGGACTTTCTAGGAACCGTAGTTTACTGAGGAAATGCTGTAGACAAG GTTGGTATTTTAGAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACT GATGAATGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTTTTTG CGGCTGTCTGATCAGGCATTGCCGCGAAGCTACCATCCGCTGGATTATGGCTGAACGCCTCTAAGTCAGA ATCCATACTAGAACGCGATGATTCTTGCCTCGCACATTTTAGATGGATAAAAATAAGGCTTCGGCCGCTG AACCATAGCAGGCTGGCAACGGTGCTCATTAAGAAGTTTTTGGGTGCTTGCCGGTGGATAGCAATGTTAC TATGCGCGGGGATAAATCCTTTGCAGACGACTTAAATGTACAACGGAGTATTGTAAGCAGTANAG >gi|913748591|ref|NG_042424.1| Sugiyamaella paludigena NRRL Y-12697 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCAGCAA TGTCCGAGTTGTAATTTGAAGAGAGTAACTTTGAGTTGGGTCCTTGCATATGTTCCTTGGAACAGGACGT CATAGAGGGTGAGAATCCCGTTCTGTGAGGTGACCCTTCTCTTGTAAAGTGCCCTCGAAGAGTCGAGTTG TTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCG AACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTTGAA AGGGAAGGGCTTGAAATCAGACTTGGTATTCAGTGATCAACTTTCTTTCGGGAATGTGCACTCGCTGTTT ACTGGGCCAGTATCGGTTTTGGCGGTGGGATAATGGTATAGGAATGTGGCTCCTCGGAGTGTTATAGCCT ATATTGATACCACCAGCTGGGACCGAGGACCGCGCTTTTAGCTAGGATACTGGCGTAATGATTTTAAGCC ACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTCTATGCGAGTGTTTGGGTGTAAAACCCGTACGCGT AATGAAAGTGAATGTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTTTCGGATGGATTTGA GTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCGTATCAGTTTTAT GAGGTAAAGCGAATGATTAGAGGTATTGGGATTGAAACGATCTTGACCTATTCTCAAACTTTAAATATGT AAGAAGTCCTTGTTACTTAATTGAACGTGGACATTGAATGAAGAGCTTTTAGTGGGCCATTTTTGGTAAG CAGAACTGGCGATGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACACGCTCATCAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGATTGTGTAA CAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACTTCACCGC TATGGTTATAGTGATGCCATAGCGAGTAGGCAGGCGTGGAGGTTTGTGACGAAGCCTTGGCAGTGATGCT GGGTCGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGATCTTTGAAGACTGA AGTGGGGAAAGGTTCCGTGTGAACAGCAGTTGGCCACGGGTTAGTCGATCCTAAGAGATAGGGAAGCTTC GTTAAAACGCTTGATTTTTCAAGCCTCTATCGAAAGGGAATCCGGTTAATATTCCGGAACTTGGATATGG ATTCTCCACGGTAACGTAACTGAATGTGGAGACGTCGGCACAAGCCCTGGGAGGAGTTCTCTTTTCTTCT CAACAGTCTAACACCCTGAAATTAGTTTGTCTAGAGCTAGGGTTTTCTGACTGGAAGAGCCTGACACCTT TGTCAGGTCCGGTGCGCTTGTGACGTCCCTTGAAAATCCACAGGAAGAAATAGTTTTCATGCCAAGTCGT ACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTC GGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGATCGAGTGTTTTGGGCTTTGCTAAGA ACCCGGGGAACCTGGACGGCACTGTGTGGGATTCGCGTTTCGCATGGAGCTGACCGGGATCTTTGGCGGA CGAGCTTGGCAGGTTTTTAACCGTTCCGATTCACACCAAACGATTAACTTAGAACTGGTACGGACAAGGG GAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCAGAAAGTGATGTTGACGCAATGTGATTTCT GCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGAC TCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCAC TGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAG ACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGCTTC GGCGCCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGCGGAGCTGGACTTCATCG TCCACGTTCTAGATTTAAGGCTTCGGCTGATCCGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGG GCGGCACATCTGTTAAAAGATAACGCAGATGTCCTAAGGGGGGCTCATGGAGAACAGAAATCTCCAGTAG AACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATC GATCCTTTAGTCCCTCGGAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTG GCAGTCAAGCGTTCATAGCGACATTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACCGAAGCA GAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGAC AGGTTAGTTTTACCCTACTGATGAATGTTATCGCAATAGTAATTGAACTTAGTACGAGAGGAACCGTTCA TTCGGATAATTGGTTTTTGCGGCTGTCTGATCAGGCATTGCCGCGAAGCTACCATCCGCTGGATTATGGC TGAACGCCTCTAAGTCAGAATCCATACTAGAACGCGATGATTCTTGCCTCGCACATTTTAGATGGATAAA AATAAGGCTTTATGCCGCTGAACCATAGCAGGCTGGCAACGGTGCTCATTAAGAAGTTTTTGGGTGCTTG CCGGTGGATAGCAATGTTACTATGCGCGGGGATAAATCCTTTGCAGACGACTTAAATGTACAACGGAGTA TTGTAAGCAGTAGAG >gi|913748590|ref|NG_042423.1| Lasiodiplodia gonubiensis 28S rRNA, partial sequence; from TYPE material TCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGAT TGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCCCTTTCAGGGTCCGCATTG TAATTTGTAGAGGATGATTCGGCGAGGGCTCCCGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGA GAATCCCGTATGTGGTGGGTTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGC AGCTCTAAATTGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAG TGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCT TGCAACCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGC ATCAGTTCGGGCGGTCGGATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTG GAATGCGGCCAGCCTGGACTGAGGATCTCGCTTCGGCATGGATGCTGGCGTAATGGTTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATGA AAGTGAACGGAGGTGGGAACCCGCAAGGGTGCACCATCGGCCGATCCTGATGTCTTCGGATGGATTTGAG CAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAA TCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGA >gi|913748589|ref|NG_042422.1| Lasiodiplodia crassispora 28S rRNA, partial sequence; from TYPE material ACCTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGG CAACAGCTCAAATTTGAAAGCTGGCCCTTTCGGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAG GGCTCCCTCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGTTGCCTT AGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTT CTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGG AAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCT CAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGGC CTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGCGGAATGCGGCCAGCCTGGACTGAGGAT CTCGCTTCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTA ACATCTATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAA GGGTGCACCATCGGCCGATCCTGATGTCTTCGGATGGATTTGAGCAAGAGCATAGCTGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATTAAGAAAGTAGTTTTCG TTTTTT >gi|913748588|ref|NG_042421.1| Sphaeropsis porosa 28S rRNA, partial sequence; from TYPE material GGTTGACCTCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCA ACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCCCTTTTAGGGT CCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCCCGCCTAAGTCCCCTGGAACGGGGCGTCATA GAGGGTGAGAATCCCGTATGCGGTGGGCTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTT GGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCAC AAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGG GAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGGCC AGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGC CCGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCTTCGGCAAGGATGCTGGCGTAATGGTTGTAA GCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATACG CGTAATGAAAGTGAACGGAGGTGGGAACCCGCAAGGGCGCACCATCGGCCGATCCTGATGTCTTCGGATG GATTTGAGCAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGA >gi|913748587|ref|NG_042420.1| Spencermartinsia viticola CBS 117009 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAG CTCAAATTTGAAAGCTGGCCCCTTTGGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGTCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGTGATGGGTTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCCTAGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCTGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCT ATGCGAGTGTTTGGGTGTCAAACCCATACGCGTAATGAAAGTGAACGGAGGTGGGAACCCTCACGGGTGC ACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAA ATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAG TTTCCC >gi|913748586|ref|NG_042419.1| Barriopsis fusca CBS 174.26 28S rRNA, partial sequence; from TYPE material GGTTGACCTCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCA ACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCCCTTTCAGGGT CCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCCCGCCTAAGTCCCCTGGAACGGGGCGTCATA GAGGGTGAGAATCCCGTATGCGGTGGGTTGCCTTAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTT GGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCAC AAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGG GAAGGGCTCGCAGCCAGACTTGTCCGCAGTTGCTCAGCCGGTCTCCTGACCGGCGTACTCTTCTGCGGCC AGGCCAGCATCAGTTCAGGCGGTCGGATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGC CCGGGGTGGAATGCGGCCAGCTTGGACTGAGGATCTCGCTTCGGCAAGGATGCTGGCGTAATGGCTGTGA GCCGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATACG CGTAATGAAAGTGAACGGAGGTGGGAACCCGCAAGGGCGCACCATCGGCCGATCCTGATGTCTTCGGATG GATTTGAGCAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGG >gi|913748585|ref|NG_042418.1| Microbotryum adenopetalae KRAM F55201 28S rRNA, partial sequence; from TYPE material TGCATATCAATAAGCGGAGGAAAAGAAACTAACCAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAAA GCTCAAATTTGTAATCTGGCGCCTTGGGCGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCTGGACC GCACATAAGTCTGTTGGAATACAGCGTCATAGTGGTGAGAACCCCGTATAGGGTGCGGATGCCCAGTGCT TTGTGATATACTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATGGGGTGGTAAATTCCATCTAA AGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAG AGAGTTAACAGTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTTTTTGGAGTTCAGCC GCAAGGTGTATTCTTCAATTTGCAGGCCAGCATCAGTTTTTGGGGGTGGAAAAGCGTGGTTGGAAGGTAG CAGTCTCGGCTGTGTTATAGCTATCCACTGGATTCACTTTTGGGGACTGAGGAATGCAGTACGCTTTTTG CAAGATTCTAGGGTCTTTCGTACTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACGG ACCA >gi|913748584|ref|NG_042417.1| Quambalaria eucalypti CBS 118844 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GAAAGCTGGCACCTTCGGTGTCCGCGTTGTAATCTCGAGAAGTGTTTTCCGTGCTGGACCATGTACAAGT TCCTTGGAATAGGACGTCATAGAGGGTGAAAATCCCGTACTTGACATGGACGCCCAGTGCTTTGTGATAC ACTCTCCACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATA TTGGGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAA CAGTACGTGAAATTGTCGAAAGGGAAGCGCTTGAAGTTAGACATGCTTGCCGGGATTCAGCCTTGCTTTT GCTTGGTGCATTTCCCGGTGTGCAGGCCAGCATCAGTTTTGTTTGCCGGATAAGGGTGAGAGGAACGTGG CCCCTCGGGGTGTTATAGCCTCTCACTGGATACGGCGGATGGGACTGAGGACCGCAGTGTGCCTTTATGG CGGGCCTTCGGGCACCTTCACACTTAGGATGCTGGCGTAAT >gi|913748583|ref|NG_042416.1| Quambalaria cyanescens CBS 357.73 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GAAAGCTGGCACCTTCGGTGTCCGCGTTGTAATCTCGAGAAGTGTTTTCCGTGCTGGACCATGTACAAGT TCCTTGGAATAGGACGTCATAGAGGGTGAAAATCCCGTACTTGACATGGACGCCCAGTGCTTTGTGATAC ACTCTCCACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATA TTGGGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAA CAGTACGTGAAATTGTCGAAAGGGAAGCGCTTGAAGTTAGACATGCTTGCCGGGATTCAGCCTTGCTTTT GCTTGGTGCATTTCCCGGTGTGCAGGCCAGCATCAGTTTTGTTTGCCGGATAAGGGTGAGAGGAATGTGG CCCCTCGGGGTGTTATAGCCTCTCACTGGATACGGCGGATGGGACTGAGGACCGCAGTGTGCCTTTATGG CGGGCCTTCGGGCACCTTCACACTTAGGATGCTGGCGTAAT >gi|913748582|ref|NG_042415.1| Spiromyces minutus NRRL 3067 28S rRNA, partial sequence; from verified material ATTTGACCTCAAATCAGGTAGGAAGACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAGCCCTTAATCAGTAACGGTTTACCG TTGTTGAGTTGTAGCTTGAAGGTTGGCACTTTGACAGCGAAGCAGACATAAGCCTTTTGAATAAGGTGCC AGAGAGGGTGCAAGCCCCGTCTTTTGTCAGCATCTCGTCTGTCAGTGTAAGAGTCAGCCAGCGAGTCGGG TTGTTTGGGAATGCAGCCCTAACTGGGTGGTAAATTTCATCCAAAGCTAAATATCAGCCAGAGACCGATA GTGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTCTGGAGAGAGAGTGAAATAGTACGTGAAATCGCT GCAAGGGAACCGCTTGCTCATCTCAAGTCACTACTTTTATAGCTGTGACGGCCAGCACCAGTTTGAACTC CCAAACGGCCAGGATTAGAAGGTAGGTAGAACTTTTGTTTTGCTGTTATAGCTTTTCCGATGGTTCTATG GGGGTTTGGACTGAGGCATACCAGCAGTACGTGCTTCCCTCGGGAGGCGGCCCAACATGCCTGCTCTTTG TGGACACTCTTCAGACAGCATGCTGACTGTAGGTGAAATTTCTTGCAACGACTCGGGTGTGATTGGGACT TATTAGTACTACGGGTGCTGGCTTAAGGATAGTAATCGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CATGTGTGCGAGTGTTTGGGTGTTTAAACCCGTGCGCGTAATGAAAGTGACACACTTTTGTGTGATGGTG CCAGGCTTAATCCTCGGATTGAGCTGCAGCATCGGCCGACCATGAGGCTTCTACGCCAAAGGTTTGAGCA AGAGCACATATGCTAGGACCCGAAAGATGGTGAACTATACCTGAATAGGGTGAAGCCAGAGGAAACTCTG GTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATC GAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAGACTCATTATACAGTTTTATG AGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTTTAAATGTGTA AGAACCCTTCGTTACTTAATTGAACCGAGGGATGTGAATGAGAGTCTCTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGCTGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATACTCGCTCATTTAGACACCAC AAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAA CAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGAGTTACCTATACTCCACCGT CAGTGGGAGCACACACAGTTTCCCTTCACGGGGAATACCGTTGCTGGAGCTGCTGACGAGTAGGCAGGCG TGGAGGTTGTATCGAAGGTCAGGGCGTGAGCTCGACTGGAACGGCCTCTAGTGCAGATCTTGGTGGTAGT AGCAAATATTCAAGTGAGATCCTTGAAGACTGAAGTGGAGAAGGGTTCCATGTTAACAGCAGTTGGACAT GGGTTAGTCGATCCTAAGAGGCAGGGTAGTTCCGTGAACGTGGCAACTTGTTTTGCCCGAACGTCTCGAA AGGGAAACCGGTTAATATTCCGGTACCAGTATGTGGGAGTTAAGCGGCAACGCTATGAACTCAGAGACAC CAGCAGGAGCCCTAGAGAGAGTTTTCTTTTCTCTTTTACAGTCTAATAACCCTGGAATCAGGTTGCCTGG AGAAGGGGTTCGACGGCTGGTAGAGCAGGCCACTTCTGGCTTGTCTGGTGCGCTCTTGATGGTCCGTGAA AATCTGAGGGAATGTTTTTCCACGACTGGTCGTACCCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCT CTAGTTGATAGAACAATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGC TCTAAGGGTTGGGTATGTTGGGGCTGTAAGGCAAGCGTGTCAAATTGACTTGGGAGTGCCTGCTGACTGT TGCCTTCGGGTGACGGATGGCYGGGCGTTCCCAGGTCGAGGTGGCCGTCAGCCTTACCGTTGATTAACTG GCATACGCTAAACAACCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGC ATTGCGATGGCCATAACATGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAATGTGAAG AAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCA TCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCA CAGCCAAGGGAACGGGCTTGGCAGAAACAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGAC ATTGTGGAGAGACATAGAGGGTGTAGAATAAGTGGGAGACTTTGTCGACAGTGAAATACCACTACCTTTA TTGTTTCTCTACTTACTCGGTGAAGAGGTACTAGGCTTTGCCTATCTTCTAGAATTAACGTCACTTGCTG ACGGAACCTGGTCGAGGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACG CAGGTGTCCTAAGGGGGGCTCATTGAGAACAGAAATCTCAAGTAGAACAAAAGGGTAAAAGCCCCCTTGA TTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTGGAAATTTCA GGCTAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTT GCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAGCGTTGGATTGTTC ACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGTTGAG TTGTCATCGCAA >gi|913748581|ref|NG_042414.1| Kuzuhaea moniliformis NRRL 13723 28S rRNA, partial sequence; from TYPE material TCTCAGTCTCAGTTAGGTAGGAGTACCCGCTGAACTTAAGCATATCAGTAAGCGGAGGAAAAGAAACCAA CAGGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTAAAATCGTGTCAGGGTAACCTG GTCACGAATTGTAGTTTGATGAGGTATGCTTGGTGGGCGCCTGGATCAAAGTCCTTTGGAAAAGGGTATC ATAGAGGGTGACAATCCCGTCTGTGGTCCAGATAGCGGTCTATCGTGTAAGCTACCTTCAAAGAGTCGGG TTGTTTGGGAATGCAGCCCTAAGCTGGTGGTAAATTCCATCTAAGGCTAAATATTCGTGAGAGACCGATA GCGAACAAGTACCGTGAGGGAAAGTTGAAAAGCACTCTGGAGAGAGAGTCAAACAGCACGTGAAATTGTT AACAGGGAAACGTTGGGCACCAGTACGCGCCTCGCGTAAAATCAACCATCTCTTCCCCAAGGGTATACAT CTGGGTGGATGAGCCTTAAAAAGCCATTGCCCGGGTGGTTGCCCGAGGGGGGTGGTGCACTTTTGCGTGG GCGGGTCAACATCGGTTAGGACCATTGGAAAATCCTCAAGGGAAGGTAGGTAAGGGACCTTGTCCCCTAC AACTTATAGCCCTTGTTGAATGCAGTGATCCTGACTGTGGAGTCGCGACTCGCGCCTTCTGGGCAGGCCC CCAGGCCCCTCTTCGCTCCTTGGGTCCAGACAGCTTGCTGACTGGACTTGACAGGGTGAGGATGTTTGGG TTTGGTAGGGTTCTAGCGAGTCTCGGACGTTGGCGAAATGGTTCTCAACGACCCGTCTTGAAACACGGAC CAAGGAGTCTAACATGTGTGCGAGTATTTGGGTGAAAAACCCGGATGCATAATGAAAGTGACCACAGGGG AGAAGGGTTTGGTCCCTCCGTATGGTGGGGTCGGCTCCGCATCCTCGACCGATCCGATTGCCCTCCGTGG CGACGGGTTTGAGTTTGAGCATATCTGTTAGGACCCGAAAGATGGTGAACTATGCCTGAGTAGGATGAAG CCAGAGGAAACTCTGGTGGAGGTCCGTAGCGATTCTGACGTGCAAATCGATCGTCGAACTTGGGTATAGG GGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCCGCCGAAGTTTCCCTCAGGATAGCAGAAACGCG TTAGACAGTATTATGAGGTAAGGCGAATGATTAGAGGCCTTGGGGGCGGAATGCCCTTAACCTATTCTCA AACTTTAAATATGTAAGAAGTCCCTGCCACTTGATTGGGCTTGGACACGTCGTATGAGCGTTTCTAGTGG GCCATTTTTGGTAAGCAGAACTGGCGATGTGGGATGAACCAGACGGGAGGTTAAGGTGCCGGAATGTACG CTCATGTAGACACCACAAAAGGTGTTGGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCC GCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACT ACCCAAACCTCCCCGCCATGGGTTAATGCGATGCCCTGGCGAGTAGGCAGGCGTGGGGGTTGTGAAGAAG CTTGGGCCGTGAGGCCGAGTGAAACAGCCCCTAGTGTAGATCTTGGTGGTAGTAGCAAATATTCAAATGA GAACTTTGAAGACTGAAGTGGGGAAGGGTTCCGAGTGAACAGCAGTTGGACTCGGGTGAGCCGATCCTAA GAGATAGGGAACTTCCGTTTTAAAGTGGGCAATCCGTCCTTGTCCCCACCTCGGTGGGGTCTTGGCCCGG AGCCCCGTCTATCGAAAGGGAAGCTGGTTAACATTCCAGCGCCGGAATGCGGGATAGTAACGGCAACGTA AGCAAACTTGGAGACGCCGGAGTGGGCCCCGGGGGGAGTTTTCTCCTCTCCTTAACCGTTTAGGACCGTG GAATCGCTTTACGCGGAGAGACGGTTTAATGACGGCAAGAGTAACGCGCTTCTGCGTTATCCGGTGCGCC CTCCACGGCCCGTGAAAATCCAAGGGCGTGCATCATCCTCGCGTCCGTTCGTACCCATAACCGCAGCAGG TCTCCTAGGTTAACAGCCTCTAGTTGATGGAATAATGTAGGTAAGGGAAGTCGGCAAAATAGATTCGAAA CTTTGGGATAAGAATTGGCTCTTTGGGTAGGGTACGTCAGGCTATGTGGGAGATGTATGTGGCCGACCAG GACGGACTGATGGGACCTTCGGGTCACGTCGGTCTATCCCGGATGGCTGTATACGGGCACCCGTAGCTTT GCCCTGGTCCTCACGGTCCGGGACATATCTGGCGTACGCCGAACTACCAACAAAGAACTGGTACGAACAA GGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGTCCGAAAGGATGTTGACGCAATGTGATTT CTGCCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTAT GACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCC CACTGTCCCTATCTACTATCCAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAG AAGACCCTGTTGAGCTTGACTCTAGTTTGACTTTGTGAGACGGCACTAGGGGTGTAGAATAAGTGGGAGG TGCCCTCGGGCCCGACAGTGAAATACCACTACCTTAGTCGCCTTCTTACTTATTTCGTTAGGCGGAACCT GGCCTTCACGGCCTGTTTCTAGCGTTAAGGTGACCCCTTCCGGGTTGCTGATCCGCGCGAAAGACATTGT CAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGGCTCATC GAGAACGGAAATCTCGAGTAGAATAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAA ACCATGAAAGTGTGGCCTATCGATCCTTTTGACCCTGAGAATTTCAGGCAAGAGGTGTCAGAAAAGTTAC CACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGC TCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCT GGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAATCGCCGTCGCAATAGTAATTCAAT TTAGTACGAGAGGAACCATTGATTCCGGTATTTGGTATTTGCCC >gi|913748580|ref|NG_042413.1| Pleospora herbarum OSC 100420 28S rRNA, partial sequence; from TYPE material TGTAATTTGCAGAGGGCGCTTTGGCTTTGGCAGCGGTCCAAGTTCCTTGGAACAGGACGTCACAGAGGGT GAGAATCCCGTACGTGGTCGCTAGCTATCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAAT GCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAG AGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAACAGCACGTGAAATTGTTGAAAGGGAAGCG CTTGCAGCCAGACTTGCTTGCAGTTGCTCATCCGGGCTTTTGCCCGGTGCACTCTTCTGTAGGCAGGCCA GCATCAGTTTGGGCGGTGGGATAAAGGTCTCTGTCACGTACCTCTCTTCGGGGAGGCCTTATAGGGGAGA CGACATACCACCAGCCTAGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCC CGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGTAAT GAAAGTGAACGGAGGTGGGAACCCGCAAGGGTGCACCATCGACCGATCCTGAAGTTTTCGGAAGGATTTG AGTAAGAGCATGGCTGTTGGGACCCGAAAGATGGTGAACTATGCTTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACT AATCGAACTATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTAT GAGGTAAAGCGAATGATTA >gi|913748579|ref|NG_042412.1| Dothiorella iberica CBS 115041 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAG CTCAAATTTGAAAGCTGGCCCCTTTGGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGTCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGTGATGGGTTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748578|ref|NG_042411.1| Dothiorella sarmentorum IMI 63581b 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACTGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAG CTCAAATTTGAAAGCTGGCCCCTTTGGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGTCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGTGATGGGTTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748577|ref|NG_042410.1| Diplodia corticola CBS 112549 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAACAG CTCAAATTTGAAAGCTGGCCCTTTCAGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGCCTAAGTCCCCTGGAACGGGGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGGGCTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTCCGCAGTTGCTCAGCCG GTCTCCTGACCGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTCGGG AATGTGGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCAAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748576|ref|NG_042409.1| Neofusicoccum parvum CMW 9081 28S rRNA, partial sequence; from TYPE material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAATAG CTCAAATTTGAAAGCTGGCCCCTTCGGGGTCCGCGTTGTAATTTGTAGAGGATGATTCGGCGAGGGCTCC CGTCTAAGTCCCTTGGAACAGGGCGTCATAGAGGGTGAGAATCCCGTATGTGATGGGCTGCCTTAGCCAT GTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGTCCGCAGTTGCTCAGCTT GTCTCCTGACAGGCGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGGATAAAGACCTGGGG AATGTAGCTCCTCTCGGGGAGTGTTATAGCCCTGGGTGCAATGCGGCCAGCCTGGACTGAGGATCTCGCT TCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACC >gi|913748575|ref|NG_042408.1| Sterigmatomyces hyphaenes CBS 7811 28S rRNA, partial sequence; from TYPE material AACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAGAGCTCAACTTTGTAATCTGGCTGTTTC ACAGTCCGAGTTGTAGTCTAAAGAAGCATGATCCGCGCCGGCCCTTGGGCATGTCTGTTGGAACGCAGTG TCAAAGAGGGTGATAATCCCGTACATACCAAGGACGACCGTGTGCATTGTGGTCTGCTCTCTAAGAGTCG AGTTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAATTCCATCTAAAGCTAAATATCGACGAGAGACCGA TAGCGAACAAGTACAGTAATGGAAAGATGAAAAGTAGCCTGCAGAGGCAATGAAACAATACGTGAAACCG TTTGTAGGGAAGCGATGGAACCTTTTCACGCTGCAGGGGCTCAGCCTTTCTTCGGATTGGTGTATTCCCC TGTTTTGCGGACCAGCATCAGTTTGCTTGGCAGTATAAGGGTGTTTGGAACGTGGCTCCCACGGGAGTGT TATAGCCTTTCACTGGATGCTGCCTCGCAGACTGAGGACTGCAGTGCGCCTTCATGGCATAGTCTTCGGG CTACGAGCACTTAGGATGCTGGGCGAATGGGTTTCAACGACCCGTCTTGAAACACGGACCAAGGAGTCTA ACATGCCTGCGAGTGTTTGAGTGTCAAACTCGAGCGCGTAATGAAAGTGAACGAAGGTGGGATGTGTAAA AACTGCACCATCGACCGGTCTTGAAGTTTACGGATGGATCTGAGTAAGAGCATGTATGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGTCAGGTGAAAACCTGATGGAGGCTCGTAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGAAGCTCATATTAGTTCGATGAGGTAGAGCGAATGATTAGAGGTCTT GGGGATGTAACATCCTTAACCTATTCTCAAACTTCCAATATGTCGGATGCCGTTGTCGCTTAATTGGACG ACTGGCTTTTGAATAAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCG AACGTGGAGTTAAGGTGCCGGAGTGGACGCTCATCAGACACCACAAAAAGTGTTGATTCATCTAGACAGT TGGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGATCGTGTAACAACGCACCAACCGAATGAATCAGCC TTGAAAATGGATGGCGCTTAAGCGTCCCACCCATACTCCACCGTTGGCGCTAGACCATGCGTCAACGAGT AGGCAGGCGTAGAGGTTTTGTGTTGAAGCCTTGGACGTAA >gi|913748573|ref|NG_042407.1| Parmelia serrana MAF 9756 28S rRNA, partial sequence; from TYPE material GGGATTGCCTCAGTAACGGCGAGTGAAGCGGCATCAGCTCAAATTTGAAATCTGGCTCCTTCGGGGTCCG AGTTGTAATTTGTAGAGAGTGCTTCGGGGAAGAGTGCGGTCTAAGTCCGTTGGAACACGGCGTCATAGAG GGTGAGAATCCCGTATGCGACCGCGGCTCGAGCCCGTGTGAAGCCTCTTCGACGAGTCGAGTTGTTTGGG AATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATACTGGCTGGAGACCGATAGCGCACAAG TAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAA GCGCTGGCAACCAGACCTGTCCGTAGGTGATCAGCCGCTGTTCTCAGTGGTGCACTCGCTCTGCGATCAG GCCAGCATCGGTTCTGGCGGTCGGATAAAGGCCTTGGGAATGTAGCTTCTCTTCGGGGGAGTCTTATAGC CCTCGGTGCAATGCGGCCAGTCGGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTCA GCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTTAAACCCATGCG CGGAATGAAAGTGAACGGAGGTGAGACCCCTTAAGGGCGCATCATCGACCGATCCAGATGTCTTCGGATG GATTTGAGTATGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGAACCA >gi|913748572|ref|NG_042406.1| Protomyces inouyei 28S rRNA, partial sequence; from TYPE material TAAGCATATCAATAAGCGCAGGAAAAGAAACTAACTAGGATGCCTTCAGTAGCGGCGAGCGAAGCAGGCA TAGCTCAAATTTGTAATCTGGCTGTTTTACAGTCCGAGTTGTAATTTCTAGAGGCGAGTTCGGTGGCAGT CCTGGTTCAAGTCCGCTGGAACGCGGCGTCATGGAGGGTGAGAATCCCGTGAATGATCAGGTGTCTGTTG CTATGTGAACCGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCT AAAGCTAAATATTGGCCAGAGACCGATAGCGAACAAGTAGAGTGATCGAAAGATGAAAAGAACTTTGAAA AGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGATCAGACTTCCTGCGCAGACTATC CTTGCTTCTGCTTGGATCAATAGTCTGTGCGTGGAGGCCAGCATCAGTTTTGACGGCCGGATAAAGGTTT GGGGAAGGTGGCTCACCTCGGTGAGTGTTATAGCCCCAGATGCAATACGGCCAGTTGGGACTGAGGACCG CGGCTTTGCCTAGGATGCTGGCGTAATGGTCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CATCTGTGCGAGTGTTTGGGTGGAAAACCCGTGCGCGAAATGAAAGTGAACGTAGGTGGGATCCGCAAGG TGCACCATCGACCGATCCGGATTTTTTTGAAGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGC AAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATTTTATTACTAGGTGGTTAAGA GGGGCTCGAAAGAGTACTCTAGTATGGTAGGAGTCAGACATGACTTGTGCGACATCATCAAATTGCGGGG ACGTCCTAAAGGGTCTATCACCAAGCCAGGTCTGAAAAGATGTGGTGGCCAGGTTAATTGCCTCGGGTAT GGTAACAGTATAGACTATGAAGCGTAAGCTGAAATGGATAATCCGCAGCCAAGTCCTAATGCTATTTGAT AGCGATGGATGCAGTTCACAGACTAAATGGTGATGGGTGGCTCTCTGAGTTGCTTAAGATATAGTCGGGC CTTCCTCGAAAGGGGACAAACGGATGAAGCAAGTGTGTCAGCCTACCTGACCTCTTGCCCGAGCCGTTTG GATGCACTCCTAATGAATGCATTGGATACAAGCTAGTANCTGGTTCCTGCCGAAGTTTCCCTCAGGATAG CAGAAACTCAAATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACC TATTCTCAAACTTTAAATATGTAAGAAGACGTGCGTTACTTGGTTGAACGTCGTCATTCGAATGAGAGTT TCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGG AATGCACGCTCATCAGACACCAGAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTC GGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAA GCGTGCTACCCATACCTCGCCGTCTGGGTTAATGTGATGCCCAGACGAGTAGGCAGGCGTGGAGGTTCGT GACGAAGCCTTGGGCGTGAGCCCGGGTCGAACAGCCTCTAGTGCAGATTTGGGGTGGTAGTAA >gi|913748571|ref|NG_042405.1| Trichoglossum hirsutum OSC 100017 28S rRNA, partial sequence; from verified material TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGTGGCAA CAGCTCAAATTTGAAATCTAGTCTCTTTCGGGGCTCGAGTTGTAATTTGTAGAGGATGCCTTCGGGTTTG GCCCTGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTATGTGGCTGGTGGTCTAT ACCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAGTTTCAT CTAAAGCTAAATACTGGCGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGG AAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTTGCCCTCAGTTGAT CAACCTAGTGTTCATCACTGGTGCACTCTGCTGAGGTCAGGCCAGCATCGGTTTGGGCGGTTGGAGAAAG GCCGTGGGAATGTGACTTCCTTCGGGGAGTGTTATAGCCCATGGTGTCATGCGACCAGCCTGGACTGAGG ACCGCGCCCTTTAGTGGCTAGGATGCTGGCATAATGGTCGTAAGCGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCACACGCGTAATGAAAGTGAACGGAGGTGGGAA CCCTCAAGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGG GACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCG GTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATTGCTATTAG GTGGTTAAGAGGCGGATAAAAGGTCCGTCTAGTCCTTGTTCACAGGGCGACACTGTCAAATTGCGGGGAC ACCCTTAGAGCTCAAACAACCGCAGCCCAACCGAAAAGGTGGGTGCGCACCAGGGTAATGACCTCGGGGA TGGTAATATAGTTTGAGATTGGGCAATCTGCAGCAAAGTCCTACAGGTCTTTTTTTTTAAATGGCCCAAG GATGAAGTTCACAGACTANATGGCAGTGGGTGAGAGGACACACTACTATGTCTCTTGCTTAAGGTATAGT CGAGCCACCGGGAGACCGGGCGGTTGGGATAAAGCACTTTGGGAGTGAGCCTCTGCACTTGCTGCAGGTC CTTCTGTGCCCGAGCCCACTGGGGAGCATCAAGCTCCTGGGGTATAACAATGCTAGTAGCTGGTTCCTGC CGAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGG GGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAGTTGAACGTG GACATTCGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAA CGTGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAG GACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCT GAAAATGGATGGCGCTCAAGCGTGCTACCCATACCTCACCGCCAGGGTAGAAACGATGCCCTGGCGAGTA GGCAGGCGTGGAGGTCAGTG >gi|913748570|ref|NG_042404.1| Bandoniozyma glucofermentans NRRL Y-48076 28S rRNA, partial sequence; from TYPE material ATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGATGAGCT CAAATTTGAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCG TGTCCAAGTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTC TGTGATACGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAA GCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGA GAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGACTGTTGGGCTCAGCAG GTTCTGCCTGTGTATTCCCCTCAGTCGGGTCAACATCAGTTTTGACCGGTGGATAAGGGCAGCGGGAATG TGGCACCCTCGGGTGTGTTATAGCCTGTCGTCGCATACATCGGTTGAGACTGAGGAACGCAGCTCGCCCT TGAGGCCGGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAAT >gi|913748569|ref|NG_042403.1| Derxomyces hubeiensis CBS 9747 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTAGTAGCGGCGAGCGAAGTGGGAAGAGCTCAAATTT GAAATCTGGCGTCTTTCAGGCGTCCGAGTTGTAATCTATAGAAGCGTTTTCTGTGCTGGACCGTGTCCAA GTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACTACCAGTGCTCTGTGATA CGTTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCTATTGGTTTCAGCCGGTTCTGC CGGTGTACTACCTTTAGACGGGTCAACATCAGTTTTAGACGGTAGAAAAGAGCAGTCTGAATGTATCACC TCCGGGTGTGTTATAGCTTTCTGTTGCATATACTGTCTGAGACTGAGGAATGCAGCTCGCCTTTATGGCC GGGGTTCGCCCACGTTCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748568|ref|NG_042402.1| Amanita liquii HKAS 36611 28S rRNA, partial sequence; from TYPE material ATTCCCCTAGTAACTGCGAGTGAACGGGAAAAGCTCAAATTTGAAATCTGGCAGTCTTTTTTTTCTTCTT TGGCTGTCCGAGTTGTAATCTAGAGAAGTGCTTACCTGCGCTGGACCATGTATAAGTCTCCTGGAATGGA GCGTCGCAGAGGGTGAGAATCCCGTCTTTGACATGGACTGCCAGTGTGTTGTGGTGTGCTCTCAAAGAGT CGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAACTCCATCTAAAGCTAAATATTGGCGAGAGACC GATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGGACTTTGGAAAGAGAGTTAAACAGTATGTGAAAT TGTTGAAAGGGAAACGCTTGAAGTCAGTTATGTCGGCTGGGGATCAACCTAGCTGTCTTTGCTGGGTGAA TTTCCTAGTCTGGCAGGCCAACATCAGTCTTGACTGCTGGAAAAGAGCGGGGGGAATGTGGCACCTTTGG GTGTGTTATAGCCCTTTGTCATATGTGGCAGTCGGGACTGAGGGATGCAGCGTGCCGTGAGGCCGGGTTT CGACCATGTTCACGCTTAGGATGTTGGCTTTTAATGGCTTCAATCGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCTTGTGCACAATGAAAGTGAAAGTTGAGATCCC TGTCGTGGGGAGCATCGACGCCCGGACTTGAGCTTTTAGCGATGGATCCGCGGTAGAGCATGCATGTTGG GACCCGAAAGATGGTGAACTATGCCTGAATAGGGCAAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCG ATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCT GGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCATTATCAGATTTATGTGGTAAAGCGAATGATT AGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAA >gi|913748567|ref|NG_042401.1| Amanita griseofolia HKAS 38159 28S rRNA, partial sequence; from TYPE material ATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTGAAATCTGGCAGTCTTTTTTTTCTTCT TTGGCTGTCCGAGTTGTAATCTAGAGAAGCGCTTACCTGCGTTGGACCATGTACAAGTCTCCTGGAACGG AGCGTCGCAGAGGGTGAGAATCCCGTCTTTGACATGGACCGCCAGCGTGTTGTGGTGCGCTCTCAAAGAG TCGAGTTGTTTGGGAATGCAGCTCTAAACGGGTGGTAAACTCCATCTAAAGCTAAATATTGGCGAGAGAC CGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGGACTTTGGAAAGAGAGTTAAACAGTATGTGAAA TTGTTGAAAGGGAAACGCTTGGAGTCAGTCGTGTCGGCGAGGGATCAGCCCAGCCTTTGTCGCTGGGTGA ATTTCCTGGTCTGACAGGCCAACATCAGTCTCGACTGCCAGAAAAGAACGGAGGGAACGTGGCACCTTCG GGTGTGTTATAGCCCTTTGTCGCGTGTGGCGGTCGGGACTGAGGGACGCAGCGTGCCGCGAGGCCGGGTT TCGACCACGTTCAGCTTAGGATGTGGCTTTTAACGGCTTCAATCGACCGTCTTGAAACCGGACCAGGAGT CTACATGCTGCGATGTTGGGTGGAAACCCTTGCGCGCAATGAAAGTGAAAGTTGAGATCCCTGTCGCGGG GAGCATCGACGCCCGGACTTGAGCTTTTAGCCACGGACCCGCGGTGGAGCATGCATGTTGGGACCCGAAA GATGGTGAACTATGCCTGAATAGGGCAAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACG TGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCGTCTAGTAGCTGGTTCCTGC CGAAGTTTCCCTCAGGATAGCAGAAGCTCCTCGTCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTT GGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATA >gi|913748566|ref|NG_042400.1| Lasiosphaeria rugulosa ATCC MYA-2578 28S rRNA, partial sequence; from TYPE material CCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAG TGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCCCGGCCCGAGTTGTAATTTGTAGAGGAAGCTTCA GGTGAGGTCCCTGCTGAGTCCCCTGGAACGGGGCGCCATAGAGGGTGAGAGCCCCGTATAGCAGGATGCC GACCCTGTGTGAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATTTC TTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTT GAAAAGAGGGTTAAATAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGTGATCAGACTTGCGCCCGGCGG ATCATCCGGCGTTCTCGCCGGTGCACTCTGCCAGGCTCAGGCCAGCATCGGTTCTCGCGGGGGGACAAAG GTTCGGGGAACGTGGCTCCTTCGGGAGTGTTATAGCCCCGGGCGTAATGCCCTCGCGGGGACCGAGGACC GCGCATCTGCAAGGATGCTGGCATAATGGTCATTAGCGACCCGTCTTGAAACACGGACCAAGGAGTCAAG GTTTTGCGCGAGTGTTTGGGTGTAAAACCCGCACGCGTAATGAAAGTGAACGTAGGTGAGAGCTTCGGCG CATCATCGACCGATCCTGATGTATTCGGATGGATTTGAGTAAGAGCGTTAAGCCTTGGACCCGAAAGATG GTGAACTATGCTTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCA AATCGATCGTCAAATCTGAGCATGGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCCGAA GTTTCCCTCAGGATAGCAGTGTTGTTCTTCAGTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGC GCTTTTTAGCCTTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTAGTTGAACGTGGG CATTCGAATGTACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACG CGGGGTTAAGGTGCCAGAGTGGACGCTCATCAGACACCACAAAAGGCGTTAGTACATCTTGACAGCAGGA CGGTGGCCATGGAAGTCGGAATCCGCTAAGGACTGTGTAACAACTCACCTGCCGAATGTACTAGCCCTGA AAATGGATGGCGCTCAAGCGTCCCACCCATACCCCGCCCTCAGGGTAGAAACGATGCCCTGAGGAGTAGG CGGCCGTGGAGGTCAGTGACGAAGCCTAGGGCGCGAGCCCGGGTCGAACG >gi|913748565|ref|NG_042399.1| Taphrina carpini PYCC 5558 28S rRNA, partial sequence; from TYPE material AAACTAACTAGGATGCCTTCAGTAACGGCGAGCGAAGCAGGCATAGCTCAAATTTGTAATCTGGCGCCTT TGGCGTCCGAGTTGTATTTTCTAGAAGCGAGTTCGGCGACAGCTCCTACCCAAGTCCGTTGGAACGCGGC GTCATGGAGGGTGAGAATCCCGTGAATGGTAGGATGTCTGCTGCTATGTGAACCGCCTTCGAAGAGTCGA GTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGAT AGCGAACAAGTAGAGTGATCGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGT TGAAAGGGAAGCGCTTGAGATCAGACTTCCTGTCTGGACTGTCCTTGCTTTTGCTTGGGTCAACAGTCCA GGCGTGGAGGCCAGCATCAGTTTTGACGGCCGGATAAAGGCCCTGGGAAGGTAGCTCCCCTCGGGGAGTG TTATAGCCCAGGGTGTAATACGGCCAGTTGGGACTGAGGACCGCGGCTCTGCCTAGGATGCTGGCGTAAT GGTCTTAAGCGAC >gi|913748564|ref|NG_042398.1| Torrubiella wallacei CBS 101237 28S rRNA, partial sequence; from TYPE material TATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTC AAATTTGAAATCTGGCCCCTAGGGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGGCGAGGCGCCTTCCG AGTTCCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTCTGGTCGGATGCCAAGCCTATGTAAAGCT CCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATAT TGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAA AGTACGTGAAATTGTTGAAAGGGAAGCGCCTATGACCAGACTTGGGCCCGGTGAATCATCCAGCGTTCTC GCTGGTGCACTTTGCCGGGCACAGGCCAGCATCAGTTTGGCGCGGGGGATAAAGGTTTCGGGAACGTGGC TCCCTCGGGAGTGTTATAGCCCGTTGCGTAATACCCTGCGCCGGACTGAGGTACGCGCATTGCAAGGATG CTGGCGTAATGGTCATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCTTCGTATGCGAGTGTTC GGGTGTAAAACCCTACGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTG ATGTTCTCGGATGGATTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGAAGGTGAACTATGCCTGTATA GGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCGAATCGATCGTCAAATATG GGCATGGGGGCGAAAGACTAATCGAACCTTCTAGTAGCTGGTTTC >gi|913748562|ref|NG_042396.1| Polytolypa hystricis UAMH 7299 28S rRNA, partial sequence; from TYPE material GAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCTCCT TCGGGGCCCGAGTTGTAATTTGCAGAGGATGCTTCGGGGGCGGTTGCGGTCTAAGTTCCCTGGAAAGGGG CATCGTAGAGGGTGAGAATCCCGTCTTCGGCCGGCTAACCGCGCCCGTGTGAAGCTCCTTCGACGAGTCG AGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGTGGGAGACCGA TAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGCATGTGAAATTG TTGAAAGGGAAGCGCTTGCAGCCAGATTCGGCCGCGGAGGCTCAGCGGGCATTCTTGCCTGTGCACTCCC CCGCGGTCCGGGCCAGCATCAGTTTAGGCGGCCGGTCAAAGGCCCCCGGAATGTGTCGCCCTTCGGGACG TCTTATAGCCGGGGGTGCAATGCGGTCAGCCCGGACTGAGGAACGCGCTTCGGCACGGATGCTGGCATAA TGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCCACGCGAGTGTTCGGGTGTCAA ACCCGTCCGCGCAGTGAAAGCGAACGGAGGTGGGAGCCCTTAAGGGTGCACCATCGACCGATCCTGAAGT CTTCGGATGGATTTGAGTAAGAGCGTGACTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGT GAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTA TAGGGGCGAAAGACTAATCGAACCATCTGGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAG CGTTTTCAGTTTTATGAGGTAAAGCGAATGATTA >gi|913748561|ref|NG_042395.1| Meira argovae CBS 110053 28S rRNA, partial sequence; from TYPE material TAACAAGGATTCCCTTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGAAAGCTGGCAGCAATGTC CGCGTTGTAATCTCGAGAAGTGTTTTCCGTGCTGGACCATAGATATGTTCCTTGGAATAGGATGTCAAAG AGGGTGAGAATCCCGTACATGCTATGGACGCCCAGTGCTTTGTGATACACTTTCGAAGAGTCGAGTTGTT TGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGGGAGAGACCGATAGCAAA CAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTCAAAAG GGAAGCGCTTCAAGTCAGATATGGCTTTGAATGTTCAGCCTTTAGGTGTATTCATTTTTTGTCAGGCCAG CATCGATTTTGAACGTCGGATAAGGGTAGAAGGAATGTAGCATACTTTCGGGTATGTGTTATAGCCTTTT ACTGGATACGACGATCGGGATCGAGGTTCGCAGCACACCCTTTTTTGGGCAGGTCTTCGGACACTTTTGT GCTTAGGATGCTGGCGTAATGGCTTGAAGCGACCCGTCTTGA >gi|913748560|ref|NG_042394.1| Meira geulakonigii CBS 110052 28S rRNA, partial sequence; from TYPE material TAACAAGGATTCCCTTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGAAAGCTGGCAGCAATGTC CGCGTTGTAATCTCGAGAAGTGTTTTCCGTGCTGGACCATAGATATGTTCCTTGGAATAGGATGTCATAG AGGGTGAGAACCCCGTACATGCTATGGACGCCCAGTGCTTTGTGATACACTTTCGAAGAGTCGAGTTGTT TGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGGGAGAGACCGATAGCAAA CAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTCAAAAG GGAAGCGCTTCAAGTCAGATATGGCTTTGAATGTTCAGCCTTTAGGTGTATTCATTTTTTGTCAGGCCAG CATCGATTTTGGACGTCGGATAAGGGTAGAAGGAACGTGGCATACTTTCGGGTATGTGTTATAGCCTTTT ACTGGATACGACGATCGGGATCGAGGTTCGCAGCACACCCTTTTTGGGCAGGTCTTCGGACACTTTTGTG CTTAGGATGCTGGCGTAATGGCTTGAAGCGACCCGTCTTGA >gi|913748559|ref|NG_042393.1| Bullera pseudovariabilis CBS 9609 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCAGCAATGCCCGAGTTGTAATCTATAGAGTCGTTTTCGGTGCCGGACCGCGTCCAAGTCCC TTGGAACAGGGTATCAAAGAGGGTGAGAATCCCGTGCTTGACGCGACGACCGGGGCTGTGTGATACGTCT TCTACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAACGGGTGGTAAATTCCATCTAAAGCTAAATATTGG CGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGT ACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTTCATTGGTTTCAGCGGGTTCTGCCCGTG TATTACCTTTGAACGGGTCAACATCGGTTAGATTGGGTGCAGAAAGGCGTTGGGAAGGTAGCACCCTCGG GTGTGTTATAGCCCGGCGTCATATACACTCGACCTGACCGAGGCTTGCGGTGTGCCTCTTTTGAGGCGGT CTCTTTGGACCCCCACACCTGGGATGTTGGCAAAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748558|ref|NG_042392.1| Auriculibuller fuscus PYCC 5690 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTGCTCAGTGCGTCCGAGTTGTAATCTATAGAGACGTTTTCCGTGCCGGACCGTGTCCAA GTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTCTGTGATA CGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGACTGAGAGGCTCAGCCGGTTCTGC CGGTCTATTCCCCTCAGTCGGGTCAACATCAGTTTTGTCCGGTGGATAAGGGCAGCAGGAAGGTGGCACC CTCGGGTGTGTTATAGCCTGTTGTCGCATACATCGGATGAGACTGAGGAATGCAGCTCGCCTTTATGGCC GGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748557|ref|NG_042391.1| Kwoniella mangrovensis CBS 8507 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTCCGGGCGTCCGAGTTGTAATCTATAGAAGCGTTTTCCGCGCCGGACCGTGTATAA GTCTCCTGGAACGGAGTATCAAAGAGGGTGACAATCCCGTGCTTTACACGACGACCGGTGCTATGTGATA CGTTCTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAACTCCATCTAAAGCTAAAT ATTGGTGGGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTATGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCATTGGGTTCAGCCGGTCCTGC CGGTCTACTCCCTTTGGACGGGTCAACATCAGTTCTGACCGGCGGATAATGGCACGAGGAACGTGGCACC CTCCGGGGTGTGTTATAGCCTCGCGTCGCATACGCTGGTCGGGACTGAGGAACGCAGCTCGCCTTCATGG CCGGGGTACGCCCACGTACGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748556|ref|NG_042390.1| Bandoniozyma tunnelae CBS 8024 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTTCGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCGTGTCTAA GTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTCTGTGATA CGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGACTGTTGGGCTCAGCCGGTTCTGC CGGTGTATTCCCTTCAGTCGGGTCAACATCAGTTTTAATCGGTGGATAAGGGCAGCAGGAACGTAGCACC TTCGGGTGTGTTATAGCCTGTCGTCGCATACATCGGTCGAGACTGAGGAACGCAGCTCGCCTTTATGGCC GGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGCTTTAAACGACCCGTCTTGAAACACG >gi|913748555|ref|NG_042389.1| Bandoniozyma noutii CBS 8364 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCGTGTCCAA GTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGATGACCGGTGCTCTGTGATA CGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGACTGTTGGGCTCAGCCAGCTCTGC TGGTGTATTCCCTTCAGTCGGGTCAACATCAGTTTTGACCGGTGGATAATGGCAGCAGGAATGTGGCACC CTCGGGTGTGTTATAGCCTGTCGTCGCATACATCGGTTGAGACTGAGGAACGCAGCTCGCCTTTATGGCC GGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748552|ref|NG_042388.1| Bulleribasidium oberjochense IGC 5741 28S rRNA, partial sequence; from TYPE material AGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTTGT AATCTGGCAGCAATGCCCGAGTTGTAATCTATAGAGTCGTTTTCGGTGCCGGACCGCGTCCAAGTCCCTT GGAACAGGGTATCAAAGAGGGTGAGAATCCCGTGCTTGACGCGACGACCGGGGCTGTGTGATACGTCTTC TACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAACGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCG AGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTAC GTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTTCATTGGTTTCAGCGGGTTCTGCCCGTGTA TTACCTTTGAACGGGTCAACATCGGTTAGATTGGGTGCAGAAAGGCGTTGGGAAGGTAGCACCCTCGGGT GTGTTATAGCCCGGCGTCATATACACTCGACCTGACCGAGGCTTGCGGTGTGCCTCGCAAGAGGCGGTCT CTTTGGACCCCCACACCTGGGATGTTGGCAAAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGG AGTCTAACATGTGTGCGAGTGTTTGGGTGTCAAACCCCTACGCGTAATGAAAGTGAACGCAGGAACGAAC CC >gi|913748550|ref|NG_042387.1| Bulleromyces albus CBS 500 28S rRNA, partial sequence; from TYPE material ATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGCGAACAGGGAAGAGCTCAAATT TGAAATCTGGCGTCCTCCGGGCGTCCGAGTTGTAATCTATAGAGACGTTTTCCGTGCCGGACCGTGTCCA AGTTCCTTGGAACAGGATATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTCTGTGAT ACGTTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTAAAAGGGAAACGATTGAAGTCAGTCGTGTCTGGGAGGCTCAGCCGGTTCTG CCGGTGTATTCCTCTCAGACGGGTCAACATCAGTTTTGTCCGACGGATAATGGCGGCGGGAAAGTAGCAC CTCCGGGTGTGTTATAGCCCGCTGTCGCATACGCCGGATGAGACTGAGGCATGCAGCTCGCCTTTATGGC AGGGGTTCGCCCACTTTCGAGCTTAGGATGTTGACGTAATGGCTTTAAACGACCCGTCTTGAAACACGGA CCAAGGAGTCTAACATATCTGCGAGTGTTTGGGTGTCAAACCCGACGCGTAATGAAAGTGAATGTAGGAG GGATCCGCAAGGAGCACCTTCGACCGATCTGGATCTTCTGTGATGGATTTGAGTAAGAGCATAT >gi|913748549|ref|NG_042386.1| Papiliotrema bandonii IGC 5743 28S rRNA, partial sequence; from TYPE material ATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATT TGAAATCTGGCGTGCTCAGCGCGTCCGAGTTGTAATCTATAGAGGCGTTTTCCGTGCCGGACCGTGTCCA AGTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACGACCGGTGCTCTGTGAT ACGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTAAAAGGGAAACGATTGAAGTCAGTCGTGACCGAGAGGCTCAGCCGGCTCTG CCGGTGTATTCCCCTCGGTCGGGTCAACATCAGTTTTGTCCGGTGGATAAGGACGTCGGGAACGTGGCAC CCTCGGGTGTGTTATAGCCCGGCGTCGCATACATCGGGCGAGACTGAGGAATGCAGCTCGCCTTCAATGG CCAGGGTTCGCCCATGTCCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACGG ACCAAGGAGTCTAACATATCTGCGAGTG >gi|913748548|ref|NG_042385.1| Bullera hannae CBS 8286 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAACCGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTTCGGGCGTCCGAGTTGTAATCTATAGAGATGTTTTCCGTGCCGGACCGTGTCCAA GTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGATGACCGGTGCTCTGTGATA CGTCTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTGAGTTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCGGGGGGTTCAGCCTGCTTCTG CTGGTGTATTCCCCCTTGGATGGGTCAACATCAGTTTGGTCCGGCGGATAAGGGTGGTGGGAAGGTAGCA CCTTAGGGTGTGTTATAGCCCATTACCGCATACGCTGGTCCAGACTGAGGACTGCAGCTCGCCTTTATGG CAGGGGTTCGCCCACTTCCGAGCTTAGGATGTTGACATATGGCTTTAAACGACCCGTCTTGAAACA >gi|913748545|ref|NG_042382.1| Coniochaeta mutabilis CBS 157.44 28S rRNA, partial sequence; from TYPE material AGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAWCGGCGAGTGAAGCGGCAACAGCTCAAATTTGA AATCTGGCTTCGGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGGTGAGGTGCCTTCTGAGTTCCCTGGA ACGGGACGCCAGAGAGGGTGAGAGCCCCGTATAGTCGGCCACCGATCCTCTGTAAAGCTCCTTCGACGAG TCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATCTCTTCTAAAGCTAAATATTGGCCAGAGAC CGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAATAGCACGTGAAA TTGTTGAAAGGGAAGCGCTTGTGACCAGACTTGTGCCGGGCTGATCATCCAGTGTTCTCACTGGTGCACT CGACCCGGCTCAGGCCAGCGTCGGTTCTCGTAGGGGGATAAAAGCTTCGGGAACGTGGCACCTTCGGGTG TGTTATAGCCCGTTGCTTAATACCCTTGTGGGGACCGAGGTTCGCGCTCTGCAAGGACGCTGGCATAATG GTCATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGAG >gi|913748544|ref|NG_042381.1| Simplicillium lamellicola CBS 116.25 28S rRNA, partial sequence; from TYPE material AAATTTGAAATCTGGCTCCTAGAGTCCGAATTGTAATTTGCAGAGGATGCTTTTGATGCGGTGCCTTCCG AGTTCCCTGGAACGGGACGCCATAGAGGGTGAGAGCCCCGTCTGGTCGGATGCCAAATCTCTGTAAAGCT CCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTATATGTCTTCTAAAGCTAAATAT TGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAA AGTACGTGAAATTGTTGAAAGGGAAGCGCCTATGACCAGACTTGGGCCCGGTGAATCATCCAGCGTTCTC GCTGGTGCACTTTGCCGGGCACAGGCCAGCATCAGTTTGCCTTGGGGGAAAAAGGCTTTGGGAATGTAGC TCCCTCGGGAGTGTTATAGACCATTGCACAATACCCTGGGGCGGACTGAGGTTCGCGCATCTGCAAGGAT GCTGGCGTAATGGTCATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCTTCGTATGCGAGTGTT CGGGTGTAAAACCCCTACGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCC TGATGTTCTCGGATGGATTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGAAGGTGAACTATTCCTGTA TAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCACGGTTCTGACGTGCGAATCGATCGTCAA >gi|913748543|ref|NG_042380.1| Lecanicillium fusisporum CBS 164.70 28S rRNA, partial sequence; from TYPE material AAAAGAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGTC CCCAGGGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGGCAAGGTGCCTTCCGAGTTCCCTGGAACGGGA CGCCATAGAGGGTGAGAGCCCCGTCTGGTCGGATACCGCGCCTCTGTAAAGCTCCTTCGACGAGTCGAGT AGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAG CGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAAAGTACGTGAAATTGTTG AAAGGGAAGCGCCTATGACCAGACTTGGGCCCGGTGAATCATCCAGCGTTCTCGCTGGTGCACTTTGCCG GGCACAGGCCAGCATCAGTTTGGCGCGGGGGATAAAGGCTTTGGGAATGTGGCTCCCTCGGGAGTGTTAT AGCCCATTGCGCAATACCCTGCGCCGGACTGAGGTACGCGCATTTGCAAGGATGCTGGCGTAATGGTCAT CAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCTTCGTATGCGAGTGTTCGGGTGTCAAACCCCTA CGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGA TTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGAAGGTGAACTATGCCTGTATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCGAATCGATCGTCAAATATGGGCATGGGGGCGAAA GACTAATCGAAC >gi|913748542|ref|NG_042379.1| Torrubiella alba CBS 726.73a 28S rRNA, partial sequence; from TYPE material GAAAAGAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGC CCCCAGGGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGGCAAGGTGCCTTCCGAGTTCCCTGGAACGGG ACGCCATAGAGGGTGAGAGCCCCGTCTGGTCGGACACCGCGCCTCTGTAAAGCTCCTTCGACGAGTCGAG TAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATATTGGCCAGAGACCGATA GCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAAAGTACGTGAAATTGTT GAAAGGGAAGCGCCTATGACCAGACTTGGGCCCGGTGAATCATCCAGCGTTCTCGCTGGTGCACTTTGCC GGGCACAGGCCAGCATCAGTTTGGCGCGGGGGACAAAGGCGTTGGGAATGTGGCTCCCCCGGGAGTGTTA TAGCCCATCGCGCAATACCCTGCGCCGGACTGAGGTACGCGCATCGCAAGGATGCTGGCGTAATGGTCAT CAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCTTCGTATGCGAGTGTTCGGGTGTCAAACCCCTA CGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGA TTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGAAGGTGAACTATGCCTGTATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCGAATCGATCGTCAAATATGGGCATGGGGGC >gi|913748541|ref|NG_042378.1| Lecanicillium antillanum CBS 350.85 28S rRNA, partial sequence; from TYPE material ATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGTCCCCAGGGCCCGAGTTG TAATTTGTAGAGGATGCTTTTGGCGAGGTGCCTTCCGAGTTCCCTGGAACGGGACGCCATAGAGGGTGAG AGCCCCGTCTGGTCGGACACCAAGCCTCTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGC TCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGA TCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCCTAT GACCAGACTTGGGCCCGGTGAATCATCCAGCGTTCTCGCTGGTGCACTTTGCCGGGCACAGGCCAGCATC AGTTTGGCGCGGGGGATAAAGACTTTGGGAATGTGGCTCCCTCGGGAGTGTTATAGCCCATCGTGCAATA CCCTGCGCCGGACTGAGGTACGCGCATTGCAAGGATGCTGGCGTAATGGTCATCAGCGACCCGTCTTGAA ACACGGACCAAGGAGTCGTCTTCGTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGTGAA CGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCATAC GGGGCCGGACCCGAAAGAAGGTGAACTATGCCTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCT CGCAGCGGTTCTGACGTGCGAATCGATCGTCAAATATGGGCATGGGGGCGAAA >gi|913748540|ref|NG_042377.1| Sympodiomycopsis paphiopedili CBS 7429 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GAAAGCTGGTACCTTCGGTGCCCGCGTTGTAATCTCGAGAAGTGTTTTCCGTGCTGGACCATGTACAAGT TCCTTGGAATAGGACGTCATAGAGGGTGAAAATCCCGTACTTGACATGGATGCCCAGTGCTTTGTGATAC ACTCTCCACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATA TTGGGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAA CAGTACGTGAAATTGTCGAAAGGGAAGCGCTTAAAGTTAGACATGCCTATTGGGATTCAGCCTTGCTTTT GCTTGGTGTATTTCCCGGTGAGCAGGCCAGCATCAGTTTCGGCTGTCGGATAAGGGTTAGAGGAATGTGG CCCCTCGGGGTGTTATAGCCTTTAACTGGATACGGCGGCTGGGACTGAGGAACGCAGCGTGCCTTTATGG CGGGCCTTCGGGCACCTTCACGCTTAGGATGCTGGCGTAATGGCTTTAAGCGACCCGTCTTGAAACACG >gi|913748539|ref|NG_042376.1| Curvibasidium cygneicollum CBS 4551 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCGAGAAGTGTTTTCCGCGCCGGACTGCATACAAGT CTGTTGGAATACAGCGTCATAGTGGTGAGAACCCCGTAACTGATGCAGATGCCCGGTGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGATTGAAGTCAGACTTGTTATCTGGAGTTCAGCCTTTCGGTGTA CTCTCCAGTTTACAGGCCAGCATCAGTTTTCGGGGCGGGAAAATCGTAATTTGAAGGTAGCAGCCTAGCT GTGTTATAGCTTTTTACTGGATTCCGCTTTGGGGACTGAGGAACGCAGTGTGCTTTTAGCAATACCCTCG GGTATTTCACACTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748537|ref|NG_042374.1| Occultifur externus IGC 4817 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GAAATCTGGCACCTTCGGTGTCCGAATTGTAGTCTCTAGAAGTGTTTTCCGTGCTGGCCCATGTGTGAGT CTGTTGGAACACAGCGTCATAGAGGGTGACAACCCCGTTCATAACATGGACCCCAGTGCTTTGTGATACA CTCTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCAAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGCTAAAAGGGAAACGATTGAAGTCAGACGTGCGTGGTGCGGTTCAGCTCTGGTTCGCC AGAGTGTATTCCGTGCCTTTGCAGGCCAACATCGGTTTCACGAGGCGGATAAAGGTTTGAGAAATGTGGC ACCTTCGGGTGTGTTATAGTCTCTTGCTGAATACGCCTCGAGGGACCGAGGAACGCAGCGCGCCGCAAGG CAAAGCCTCTGGGCTTTTCGCGCTTAGGATGTTGGTGAAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748536|ref|NG_042373.1| Leucosporidium fellii CBS 7287 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCGAGAAGTATTTTCCGCGCCGGACCGCATACAAGT CTGTTGGAATACAGCGTCATAGTGGTGAGAACCCGTAACTGATGCGGATGCCCGGTGCTTTGTGATATAC TTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATATT GGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACAG TACGTGAAATTGTTGGAAGGGAAACACTTGACGTCAGACTTGCGCTTCGGAGTTCAGCCGCAAGGTGTAT TCTTCGATTTGCAGGCCAGCATCAGTTTTCGGGGGTGGAAAATCGTGATTTGAAGGTAGCAGTTTCGGCT GTGTTATAGCTTTTCACTGGATTCATCCTTGGGGACTGAGGAACGCAGTACGCTTTTTGCAAGGCTCTCG AGCTTTTCGTACTTAGGATGCTGGTGGAATGGCGTTAAATGACCCGTCTTGAAACACG >gi|913748535|ref|NG_042372.1| Kriegeria eriophori CBS 8387 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCACTTTCAGTGTCCGAGTTGTAATCTCGAGAAGTGTTTTCCGTGTCGGACCGCATATAAGT CTGTTGGAATACAGCGTCATAGTGGTGAGAACCCCGTAACTGATGCGGATGCCCGGTGCTTTGTGATACA CTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT TGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAACA GTACGTGAAATTGTTGGAAGGGAAACGCTTGAAGTCAGACTTGCTATTTGGAATTCAGCCGCAAGGTGTA TTTTTCAATTTGCAGGCCAGCATCAGTTTTTGGGGGTGGAAAAGGGTAGAGAGAAGGTAGCAGTTTAGGC TGTGTTATAGCTCTTTGCTGGATTCATCTTTAGGGACTGAGGAACGCAGTACGCTTTTTGCAAGGCTTTA GAGCTTTTCGTACTTAGGATGCTGGTGGAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748531|ref|NG_042368.1| Bensingtonia naganoensis CBS 7286 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GTAATCTGGCTGCTTTGCAGTCCGAGTTGTAGTCTAGAGAAGTATGATCCGCGTCGGACCTTACAGATGT CTGTTGGAATGCAGTGTCAAAGAGGGTGAGAATCCCGTACATAGTAAGGACGCCCGTATGCATTGTGGTC TACTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAAT AACGGGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAA ACAGTATGTGAAATTGCTGGAAGGGAAACGATTGAAGTTAGACTTGCGCGGTGTTGATTCAGCCTGGCTT CGGCCTGGTGTACTTCTTCATCATTGCAGGCCAGCATCAGTTTGCTTCACTGTAAAAGGGTGTTGGGAAC GTGGCTTCTTCGGAAGTGTTATAGCCTTTCACTGGATGCAGAGTCGTGGACTGAGGACCGCAGCGCGCCT TTACGGCAGTTCTTCGGGTTCAAAGCGCTTAGGATGCTGGTAGAATAGCTTTAAACGACCCGTCTTGAAA CACG >gi|913748526|ref|NG_042363.1| Bensingtonia ciliata CBS 7514 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTT GTAATCTGGCTGTTTTACAGTCCGAGTTGTAGTCTAGAGAAGCGTAATCCGCGCCGGACCTTACAGATGT CTGTTGGAATGCAGTGTCAAAGAGGGTGAGAATCCCGTACATAGTAAGGACGCCCGTGTGCTTTGTGATT TGCTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATCGGGTGGTAAATTCCATCTAAAGCTAAAT AACGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAA ACAGTATGTGAAATTGCTGGAAAGGAAACGATTGAAGTTAGACTTGCGCAGCGGGAATTCAGCCTTGCTT CGGCCTGGTGTATTTTTCCGTTATTGCAGGCCAGCATCAGTTTGTAGCACTGTAAAAGGGTGATTGGAAC GTGGCTTCCTCGGAAGTGTTATAGCCTTTCACTGGATGCAGAGTTGTGGACTGAGGAACGCAGCGTGCCG CAAGGCAAAGTCTTTAGACTTAAAGCGCTTAGGATGCTGGTGGAATAGCTTTAAACGACCCGTCTTGAAA CACG >gi|913748525|ref|NG_042362.1| Hannaella sinensis CBS 7238 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAACCGGGAAGAGCTCAAATTT AAAATCTGGCGTCTTTCAGGCGTCCGAGTTGTAATCTACAGAAGTGTTTTCCGTGCCGGACCGTGTCCAA GTCCCTTGGAATAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACGACAACCGGTGCTCTGTGATA CATTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAAT ATAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCTGTTGGTTTCAGCCTTTACCGG TGTATTACCAGCAGACGGGTCAACATCAGTTTTGGACGGTGGAAAAAGACAGGGAGAACGTGGCACCCTC GGGTGTGTTATAGCTCTCTGTTGCATACACTGTCTGAGACTGAGGAATGCAGCTTGCCTTTATGGCCGGG GTTCGCCCACGTACAAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748524|ref|NG_042361.1| Phaffia rhodozyma CBS 5905 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGATGAGCTCAAATTT GAAATCTGGCAGCCTCCGGTTGTCCGAGTTGTAAACTAGAGAAGCGTTTTCCGTGCCGGCCTGTGTACAA GTCCCTTGGAATAGGGCGTCATAGAGGGTGAGAATCCCGTCCTTGACACAGACCACCGGTGCTATGTGAT ACGCTCTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAGGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCATGCGTGCTCGGACTCAGCTGGGTTC GTCCCAGTCTATTTCCGGGTGCCGCAGGTCAGCATCAGTTTCGGGCGGTGGAAAACGGGCGGGGGAAGGT GGCATCTCCGGATGTGTTATAGCCCCCGTTTGGATGCATCGCGTGGGACTGAGGAACGCAGCGCGCCCTT CACGGGGTCGGTCTCCGGACACGAACGCGCTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGA AACACG >gi|913748523|ref|NG_042360.1| Tremella brasiliensis CBS 6966 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACCAACAGGGATTCCCTTAGTAACGGCGAGCGAACAGGGAAGAGCTCAAATTT GAAATCTGGCGTCCTCAGGGCGTCCGAGTTGTAATCTGCAGAGGCGTCTTCCGCGCCGGTCCGCGTCCAA GTCCCTTGGAACAGGGTATCAAAGAGGGTGACAATCCCGTGCTTGACGCGACCGCCGGTGCTATGTGATA CGTCCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAACGGGTGGTAAATTCCATCTAAGGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCCGAGGGGTTCAGCCGGTCCCGC CGGTGCACTCCCCTCGGACGGGTCAACATCGGTTCCGACCGACGGATAAGGGAGGGGGGAACGTGGCACT TCGGGTGTGTTATAGCCCCCCGTCGCATACGTCGGACGGGACCGAGGAACGCAGCTCGCCCTCACGGGCC GGGGTTCGCCCACGTCCGAGCTTAGGATGTTGACAAAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748522|ref|NG_042359.1| Sterigmatomyces halophilus CBS 4609 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAACATT GTAATCTGGCTGTCGCAGTCCGAGTTGTAGTCTATAGAAGCATGATCCGCGCCGGCCCTTGGGCATGTCT GTTGGAACGCAGTGTCAAAGAGGGTGAAAATCCCGTACATACCAAGGACGACCGTGTGCATTGTGGTCTG CTCTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAATTCCATCTAAAGCTAAATAT CGACGAGAGACCGATAGCGAACAAGTACAGTAATGGAAAGATGAAAAGTAGCCTGCAGAGGCAATGAAAC AATACGTGAAACCGTTTGTAGGGAAGCGATGGAACCTTTTCACGCTGCGAGGGTTCAGCTTGGCTTCGGC TTAGTGTATTCCCTCGTTTTGCGGACCAGCATCAGTTTGCTTCGCAGTATAAGGGTGATTGGAACGTGGC TTCTCCGGAAGTGTTATAGCCTTTCACTGGATGCTGTGTCGCAGACTGAGGACTGCAGTGCGCCGTAAGG CAGGCCTTCGGGCACGAGCACTTAGGATGCTGGGCGAATGGGTTTCAACGACCCGTCTTGAAACACG >gi|913748519|ref|NG_042358.1| Sterigmatomyces elviae CBS 5922 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAGAGCTCAACTTT GTAATCTGGCTGCTTCGCAGTCCGAGTTGTAGTCTAAAGAAGCATGATCCGCGCCGGACCTTGGGCATGT CTGTTGGAAAGCAGTGTCAAAGAGGGTGATAATCCCGTACATACCAAGGACGACCGTGTGCATTGTGGTC TGCTCTCTAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAATTCCATCTAAAGCTAAAT ATCGACGAGAGACCGATAGCGAACAAGTACAGTAATGGAAAGATGAAAAGTAGCCTGCAGAGGCAATGAA ACAATACGTGAAACCGTTTGTAGGGAAGCGATGGAACCTTTTCACGCTGCGAGGGTTCAGCCTTTCTTCG GATTGGTGTATTCCCTCGTTTTGCGGACCAGCATCAGTTTGCTTGGCAGTATAAGGGTGTTTGGAACGTG GCTCCCACGGGAGTGTTATAGCCTTTCACTGGATGCTGCCTCGCAGACTGAGGACTGCAGTGCGCCATTA TGGCATAGTCTTCGGGCTACGAGCACTTAGGATGCTGGGCGAATGGGTTTCAACGACCCGTCTTGAAACA CG >gi|913748517|ref|NG_042357.1| Kurtzmanomyces tardus CBS 7421 28S rRNA, partial sequence; from TYPE material TAAGGGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAACTTT AAAATCTGGCCCTTTCAGGGTCCGAGTTGTAGTCTCGAGAAGCCACGTCCGCGCCGGACCTTGGACAAGT CGGTTGGAATACCGCGTCAACGAGGGTGACAATCCCGTTTATACCAAGGACGCCCGTGTGCATTGTGATG GGCTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATCGGGTGGTAAATTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAA ACAGTATGTGAAATTGCTGGAAGGGAAACGATTGAGGTTAGACTTGCTGGCACGGCACTCAGCCCTCACG GGTGTATTTGCCGTGCGTTTGCAGGCCAGCATCGGTTTGCAGTCGGGTAAAAGGGTGCAGGGAACGTAGC AACCTCGGTTGTGTTATAGACCTGCACTGGATGCCCGATCGCAGACCGAGGTCAGCAGGGCGCCGCAAGG CAATGCCTCTTGGCATCGAGCCCTTAGGATGCTGGTAGAATAGCCTTAACCGACCCGTCTTGAAACACG >gi|913748516|ref|NG_042356.1| Kurtzmanomyces nectairei CBS 6405 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACCAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAATAGCTCAACTTT GTAATCTGGCCCTTTCAGGGTCCGAGTTGTAGTCTCGAGAAGTCATGTCCGCGCCGGACCTTGGACAAGT CGGTTGGAATACCGCGTCAACGAGGGTGACAATCCCGTTTATGCCAAGGACGCCCGTGTGCATTGTGATG GGCTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAATCGGGTGGTAAATTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAA ACAGTATGTGAAATTGCTGGAAGGGAAACGATTGAGGTTAGACTTGCTGGCGCGGCACTCAGCCCTCACG GGTGTACTTGCTGCGCGTTGCAGGCCAGCATCGGTTTGGTTTCCGGTAAAAGGGCGCCAGGAACGTAGCA ACCTCGGTTGTGTTATAGACTGGCGCTGGATGCCTGGATCCCAGACCGAGGAACGCAGGGCGCCTTTTAG GCACTGGCTCCGGTCAGCGAGCCCTTAGGATGCTGGTAGAATAGCCTTAACGACCCGTCTTGAAACACG >gi|913748515|ref|NG_042355.1| Kurtzmanomyces insolitus CBS 8377 28S rRNA, partial sequence; from TYPE material TAAGGGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAATTTT AAAATCTGGCCCTTTCAGGGTCCGAGTTGTAGTCTAGAGAAACCACGTCCGCGCCGGACCTTGGACAAGT CGGTTGGAATACCGCGCCAGTGAGGGTGACAGCCCCTTTATTGCCAAGGACGACCGTGTGCATTGTGTCG GGTTTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATCGGGTGGTAAATTCTATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAA ACAGTATGTGAAATTGCTGGAAGGGAAACGATTGAGGTTAGACTTGCTGGCACGACACTCAGCCCTCACG GGTGTATTTGTTGTGCATTGGCAGGCCAGCATCGGTTTGCAGTCGGGTAAAAGGGTGCAGGGAACGTAGC AACCTCGCTGTTGTGTTATAGACCTGCACTGGATGCCCGATCGCAGACCGAGGTCAGCAGGGCGGCGCAA GGCAATGCCTCTTGGCATCGAGCCCTTAGGATGCTGGTAGATAGCCTTAACCGACCCGTCTTGAAACACG >gi|913748514|ref|NG_042354.1| Chionosphaera apobasidialis CBS 7430 28S rRNA, partial sequence; from TYPE material TAAGGGCAGGAAAAGAAACTAACCAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACTGCTCAGCTTT AAAATCTGGCTCTTTCAGAGTCCGAGTTGTGAGCTTGAAGCGTTGCGTCCCCGACGGACCTTGGGTATAT CAGCTGGAAAGCTGTCTCAGAGAGGGTGACAAGCCCGTTCATACCAAGGACGCCCGTTGGAGTCTGGCGC AGCTGCTATAGAGTCGAGTTGTTTGGGAATGCAGCTCTAATTGGGTGGTAAACTCCATCTAAAGCTAAAT ATTGGCGGAAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAATGAA ACAGTATGTGAAATTGCTGGAAGGGAAACGATTGAGGTTAGACGTGCTTGGCGTGCCTTCAGCCCTTACG GGTGTACTGGCGCGCCGCAGCAGGCCAGCATCGGTTTGTTGCGTCGGGTAAAAGGGTGGCAGGGACGTGG CTGTCTTCGGACAGTGTTATAACCTGCCACTGGATGCCCGGCGTCAGACCGAGGATCGCAGGGCGCCTTC ACAGGTCGCGTCCCCGGACGCTAAGCCCTTAGGATGCTGGTAGAATGCTTTAAACGACCCGTCTTGAAAC AC >gi|913748513|ref|NG_042353.1| Cryptococcus adeliensis CBS 8351 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT GAAATCTGGTAGCCTTCGGTTGCCCGAGTTGTAATCTAGAGAAGTGTTTTCCGTGCCGGCCCATGTACAA GTCCCTTGGAACAGGGCGTCATAGAGGGTGAGAATCCCGTCCTTGACATGGACCCCCGGTGCTTTGTGAT ACACTTTCAACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAATTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCATGCTCTTAGGATTCAGCCGTTCTGC GGTGTATTTCCTTTGAGTGGGGTCAACATCAGTTTTGATCGATGGATAAAGGCACGAGGAAGGTAGCACT CTCGGGTGAACTTATAGCCTCGCGTCATATACATTGATTGGGACTGAGGAACGCAGCATGCCTTTATGGC CGGGATTCGTCCACGTACATGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748512|ref|NG_042352.1| Guehomyces pullulans CBS 2532 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGATGAGCTCAAATTT AAAATCTGGCGGTCTCAGATCGTCCGAGTTGTAGTCTAGAGAAGCGTTTTCCGTGCTGGCCTGTGTACAA GTCCGTTGGAACACGGCGTCATAGAGGGTGAGAATCCCGTCCTTGACACAGATCTCCAGTGCTTTGTGAT GCGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAA TATTGGCGAGAAACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCATGCTTTCCGAGACTCAGCCGGTTCT GCCGGTGTACTTCTCGGTTTGCAGGCCAGCATCAGTTTTGGGCGGTGGAAAAGGTTGGCGGGAATGTGGC ATCCTCGGATGTGTTATAGCCCGCTTTCGAATACATCGCCCGGGACTGAGGAACGCAGCACGCCTCTTGT AGGTCGGTCTTCGGACACGTCCGTGCTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGAAACA CG >gi|913748510|ref|NG_042351.1| Hannaella oryzae CBS 7194 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAACCGGGAAGAGCTCAAATTT AAAATCTGGCGTGCTTCGTGCGTCCGAGTTGTAATCTACAGAAGTGTTTTCCGTGCTGGACCGTGTCAAG TCCCTTGGAATAGGGTATCAAAGAGGGTGATAATCCCGTACTTGACACGACAACCAGTGCTCTGTGATAC ACTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATA TAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAA CAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCATGTCTATTGGTTTCAGCTAGCTCTGCT AGTGTATTACCTTTAGACGGGTCAACATCAGTTTTAGACGGTGGAAAAAGGCATGAGGAAAGTAGCATCT CCGGATGTGTTATAGCCTCGTGTTGCATACACTGTTCGAGACTGAGGAATGCAGCTCGCCTTTATGGCCG GGGTTCGCCCACGTTCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748509|ref|NG_042350.1| Dioszegia hungarica CBS 4214 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCTTAGTAGCGGCGAGCGAAGCGGGAAGAGCTCAAATTT GTAATCTGGCGTCTTTCAGGCGTCCGAGTTGTAATCTATAGAAGTGTTTTCTATGCCGGACCGTGTCTAA GTCCCTTGGAATAGGGTATCAAAGAGGGTGACAATCCCGTGCTTGACATGACTCCCGGTGTTCTGTGATA CATTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAAT ATTGGTGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCATGTCTGTTGGTTTCAGCTTGCTCTGC AAGTGTATTACCTTCAGACGGGTCAACATCAGTTTTGGTGCGGTGGATAAGAACGGATTGAAGGTGGCAC CCTCGGGTGTGTTATAGCTTTCTGTTGCATACACTGCCTGAGACTGAGGACTGCAGCTCGCCCTCACGGG CCGGCCTTCGGGCACGTTCGAGCTTAGGATGTTGGCATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748508|ref|NG_042349.1| Sterigmatosporidium polymorphum CBS 8088 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGCGAACAGGGAAGAGCTCAAATTT GTAATCTGGCGTCCTTCGGGCGTCCGAGTTGTAATCTATAGAAGTGTTTTCCGTGCTGGACCATGTCCAA GTCCCTTGGAACAGGGCATCAGAGAGGGTGATAATCCCGTCCTTGACATGACAACCAGTGCTCTGTGATA CACTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTGAGTTCCATCTAAAGCTAAAT ATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTAAAAGGGAAACGATTGAAGTCAGTCGTGTCCATGGGGTTCAGCCAGTTCTGC TGGTGTATTCCCCTTGGACGGGTCAACATCAGTTTGGACCGGCGGAAAATGGCGGGAGGAATGTAGCAGC TCCGGTTGTGTTATAGCCTCTTGTCGTATACGTTGGTCTGGACTGAGGAATGCAGCTTGCCTTTATGGCC GGGGTTCGCCCACGTTCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748507|ref|NG_042348.1| Mrakiella aquatica CBS 5443 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGATGAGCTCAAATTT AAAATCTTGCAGCCTCAGGTTGTACGAGTTGTAGTCTAGAGAATCGTTTTCCGCGTTGGCCTGTGTACAA GTCCCTTGGAACAGGGCGTCATAGAGGGTGAGAATCCCGTCCTTGACACAGATTACCAATGCTTTGTGAT GCGATCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTAAAAGGGAAACGATTGAAGTCAGTCATGCTCTCCGAGACTCAGCCGATTCT GTCGGTGTACTTCTCGGTTGGCAGGCCAGCATCAGTTTTGATCTGTGGAAAAGGTTGGAGAGAATGTGGC ATCCTCGGATGTGTTATAGCTCTCCTTCGAATACATAGAGCGGGACTGAGGAACGCAGCGTGCCCTTTAT TGGGTTGGCCTTCGGGTACATACACGCTTAGGATGCTGGCATAATGGCTTTAAACGACCGTCTTGAAACA CG >gi|913748506|ref|NG_042347.1| Cystofilobasidium capitatum CBS 6358 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTT AAAATCTGGCAGTCTACGATTGTCCGAATTGTAATCTCGAGAAGTGTTTTCCGCGTTGGCCTGTGCACAA GTCCCTTGGAACAGGGCGTCATAGAGGGTGAGAATCCCGTCCTTGGCACAGATACCCAATGCTTTGTGAT ACACTCTCAATGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGAGGTAAATTCCTTCTAAAGCTAAA TACTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTCA AACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGCCTGCCTAGATTCAGCCTTCTGG TGTATTTCTAGGTCGGCAGGTCAGCATCAGTTTGGGAGGGTTAACAAGGGGATTAGGAATGTGGCAACCT CGGTTGTGTTATAGCCTAGTTTCGTATTGATCTTGCTGGACTGAGGAACGCAGTGCGCCCGCAAGGGTAG GTCTTCGGACACTTTCGCACTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748505|ref|NG_042346.1| Mrakia frigida CBS 5270 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGATGAGCTCAAATTT AAAATCTGGCGGCCTCAGGTCGTCCGAGTTGTAGTCTAGAGAATCGTTTTCCGCGTTGGCCTGTGTACAA GTCCCTTGGAACAGGGCGTCATAGAGGGTGAGAATCCCGTCCTTGACACAGACTACCAATGCTTTGTGAT GCGATCTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAA TATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTA AACAGTACGTGAAATTGTTAAAAGGGAAACGATTGAAGTCAGTCATGCTTTCCGAGACTCAGCCGATTCT GTCGGTGTACTTCTCGGTTGGCAGGCCAGCATCAGTTTCGATCTGTGGAAAAGGTTGGAGGGAACGTGGC ATCCTCGGATGTGTTATAGCCCTTCTTCGAATACATAGAGCGGGACTGAGGAACGCAGCGCGCCTTTTAT TAGGTTGGCCCTCGGGTACATACGCGCTTAGGATGCTGGCATAATGGCTTTAAACGACCCGTCTTGAAAC ACG >gi|913748497|ref|NG_042338.1| Minutisphaera japonica HHUF 30098 28S rRNA, partial sequence; from TYPE material TAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGTCCTTTCAGGGCCCGAGTTGTAATTTGG AGAGGATGCTTCGGCTGCGGCCCTGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAACCCCG TACGTGGCTGGGTGCCTACGCCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAA ACGGGAGGTAGATTTCTTCTAAAGCTAAATACCGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAA AGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCA GACTTGGACGTAGTTGCTTAGCTGGGCTTCTGCCCGGTGCACTCTTCTGCGCCCAGGCCAGCATCAGTTC AGGCGGCCGGATAAAGGCCTTGGGAATGTAGCTCCTCTCGGGGAGTGTTAAAGCCCTTGGTGCAATGCGG CCTGCCTGGACTGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAA CACGGACCAAGGAGTATAACATCTATGCGAGTGTTTGGGTGGAAAACCCATGCGCGTAATGAAAGTGAAC GGAGGTGGGAGCCCTAGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATA GCCGTTATGACCCGAAAGATGGTGAACTATTCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAAGC TCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATC TAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGATTTCAGTTTTATGAGGTAAAGCGA ATGATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTG TTACTTAGTTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG ATGCGGGATGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTA GTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTG CCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAGGGTAGAAA CGATGCCCTGGCGAGTAGGCAGGCGTGGAGGC >gi|913748496|ref|NG_042337.1| Wickerhamomyces siamensis DMKU RK359 28S rRNA, partial sequence; from TYPE material AAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTAGCACCTT CGGTGTTCGAGTTGTAATTTGAAGATGGTAACCTTGGGTTTGGCTCTTGTCTATGTTCCTTGGAACAGGA CGTCATAGAGGGTGAGAATCCCGTCTGATGAGATGCCCATTCCCTTGTAAGGTGCTATCGAAGAGTCGAG TTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATA GCGAACAAGTACAGTGATGGAAAGATGAAAAGAACTTTGAAAAGAGAGTGAAAAAGTACGTGAAATTGTT GAAAGGGAAGGGCATTAGATCAGACTTGGTGTTTTACGATTATCTTCTCTTCTTGAGTTGTGCACTCGTA TTTCACTGGGCCAGCATCGATTCGGATGGTAAGATAATAGCAGTTAAATGTGGCTCCCCTCGGGGAGTGT TATAGTTTCTGTTGATATTGCCTGTCTGGATCGAGGGCTGCGTCTTTTGACTAGGATGCTGGCGTAATGA TCTAATGCCGC >gi|913748495|ref|NG_042336.1| Entoloma hypogaeum TNS F-46869 28S rRNA, partial sequence; from TYPE material AAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGTA GTCTTTGGCTATCCGAATTGTAATCTAGAGAAGCGTTATCCGTGCTGGACCATGTATAAGTCTCCTGGAA CGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACATGGACTCCCAGGGCTTTGTGATGCGCTCTCAAA GAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGA GACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTG AAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCACATTGGTCAGGGATCAGCCTTGCTTTTTGCTTGGTG TACTTCCTGGTTAATGGGTCAGCATCAATTTTGACCAATGGAAAAAGATTAAGGGAATGTGGCATCTTCG GATGTGTTATAGCCTTTGGTCGCATACATTGGTTGGGATTGAGGAACTCAGCATGCCGCAAGGCCGGGTT TTTAACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACGGACCAAG GAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCAAGCGCGTAATGAAAGTGAAAGTTGGGATCCC TGTCGTGGGGAGCACCGATGCCCGGACCAGACCTTCTGTGACGGATCCGCGGTTGAGCATGTATGTTGGG ACCCGAAAGATGGTGAACTATGCCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGA TTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTG GTTCCTGCCGAAGTTTCCCTCAGGAT >gi|913748494|ref|NG_042335.1| Entoloma prismaticum TNS F-46866 28S rRNA, partial sequence; from TYPE material GAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGT AGTCTTTGGCTGCCCGAGTTGTAATCTAGAGAAGCATTTTCCGCGCTGGACCGTGTACAAGTCTCCTGGA ATGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTTTGTGATATGCTCTCC AAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCG AGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTAC GTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCACGTTGACCAGAAATCAACCTTGCTCCTTTTGCT TGGTGTACTTTCCTGGTCGATGGGTCAGCATCAGTTTCGACCAGTGGAAAAAGGCCAAAGGAATGTGGCA TCTTTGGATGTGTTATAGCCTTTGGTTGCATACATTGGTTTGGGATTGAGGGACTCAGCACGCCGCAAGG CCGGATAAAATCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTCAATCGACCCGTCTTGAAACACGGA CCAAGGAGTCTAACATACCTGCGAGTGTTTGGGTGGAAAACCCAAGCGCGCAATGAAAGTGAAAGTTGGG ATCTCTGTCGTGGGGAGCACCGACGCCCGGGCCAGACCTTCTGTGACGGTTCCGCGGTAGAGCATGTATG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGT AGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGAA >gi|913748493|ref|NG_042334.1| Adisciso tricellulare NBRC 32705 28S rRNA, partial sequence; from TYPE material CTCAAATTTGAAATCTGGCCCTTGGGTCCGAGTTGTAATTTGTAGAGGATGTTTTTGGTGCGGTATCTTC CGAGTTCCTTGGAACAGGACGCCTTAGAGGGTGAGAGCCCCGTACGGTTGACTACCTAGCCTTTGTAAAA CTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAAT ACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAA ATAGCACGTGAAATTGTTGAAAGGGAAGGATTTATGACCAGACTTTTTCTAGGCGGATCATCCGGTGTTC TCACCGGTGCACTTCGCCTAGTTTAGGCCAGCATCGATTTTCGGTGGGGGATAAAAGCCTTAGGAATGTG GCTCCTCCGGGAGTGTTATAGCCTATTGTATAATACCCTACTGGGGATCGAGGTACGCGCTTCTGCAAGG ATGCTGGCGTAATGGTTATCAATCACCCGTCTTGAAACACGGACCAAGGAGTCGAACATTTGTGCAAGTG TTTGGGTGTTAAACCCTCACGCGTAATGAAAGTGAACGGAGGTGAGAGCCCTTACGGGTGCATCATCGAC CGATCCTGATGTTTTCGGATGGATTTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACTATG CGTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGT CAAATCTGCGCATGGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCA GGATAGCAGTGTTGTCTTCAGTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTTTTTAGCC TTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTAATTGAACGTGGGCATTCGAATGT ACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGG TGCCGGAGTGGACGCTCATCAGACACCACAAAAGGTGTTAGTACATCTTGACAGCAGGACGGTGGCCATG GAAGTCGGAATCCG >gi|913748492|ref|NG_042333.1| Prosthemium intermedium HHUF 30063 28S rRNA, partial sequence; from TYPE material TAGCTCAAATTTGAAATCTGGCCCTTTTAGGGTCCGAGTTGTAATTTGCAGAGGGCGCTTTGGAGTTGGC TGCAGCCTAAGTTCCTTGGAACAGGTCATCATAGAGGGTGAGAATCCCGTATGTGGTTGCATGCCTTCGC CGTGTAAAGCCCCTTCGATGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTA AAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAA GAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACGTGCCCGCAGTTGCTCAT CCGGGGTTCTCCCCGGTGCACTCTTCTGTGGGCAGGCCAGCATCAGTTCGGGCGGTTGGAGAAAGACCTG TGTCATGTAGCTGTTCTCGGGCAGTGTTATAGGGCAGGTGGAATGCAACCAGCTCGAACTGAGGTCCGCG CATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCCTCGGGGT GCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGC AAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTGGGGGT TGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTTCTTAATTGAACGTGGAC ATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC GGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGAC GGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAA AATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGG >gi|913748491|ref|NG_042332.1| Triplosphaeria maxima HHUF 29390 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCCTCGGGGCCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCCCCGGCCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGAGAATCCCGTACGTG GCCGACCGCCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCATCCGGGCTCCTGCCCGGTGCACTCTTCTGCTGGCAGGCCAGCATCAGTTTGGGCGG CCGGATAAAGGTCCCGGGAACGTAGCTCCCCTCGGGGAGTGTTATAGCCCGGGGCGTCATGCGGCCAGCC TGGACTGAGGTCCGCGCGTCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGT GGGAACCCTCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAATCTAT GCCCTGGCGAGTAGGCAGGCGT >gi|913748490|ref|NG_042331.1| Triplosphaeria acuta HHUF 29387 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTCGGGGCCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCCCCGGCCTAAGTCCCTTGGAACAGGGCGTCACAGAGGGTGAGAATCCCGTACGTG GCCGACCGCCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCATCCGGGCTCCTGCCCGGTGCACTCTTCTGCTGGCAGGCCAGCATCAGTTTGGGCGG CCGGATAAAGGCCTCGGGAACGTAGCTCCCCTCGGGGAGTGTTATAGCCCGGGGCGTCATGCGGCCAGCC TGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGT GGGAACCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAATTTAC GCCCTGGCGAGTAGGCAGGCGT >gi|913748489|ref|NG_042330.1| Tetraplosphaeria yakushimensis HHUF 29652 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCCTCCGGGGCCCGAGTTGTAATTTGCAGAGG GCGCTTTGGCGTCGGCGCCGGCCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTACGT GGCAGGCCGCCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGG AGGTAAATTCCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATG AAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTT GCCTGTAGTTGCTCATCCGGGCCCCGGCCCGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTCTGGGCG GCCGGATAAAGGCCTCGGGAACGTAGCTCCCTCCGGGGAGTGTTATAGCCCGGGGCGCAATGCGGCCAGC CTGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGG ACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGAAATGAAAGTGAACGGAGG TGGGAACCCCTCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAG CTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCT CGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCT AGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAA TGATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGT TACTTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGA TGCGGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAG TTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGC CGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAAAT TATGCCCTGGCGAGTAGGCAGGCGT >gi|913748488|ref|NG_042329.1| Tetraplosphaeria sasicola HHUF 27566 28S rRNA, partial sequence; from TYPE material AGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCCTTGGGGCCCGAGTTGTAATTTGTAGAGGGCG CTTTGGCGTTGGCTCCTGCCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTACGTGGC AGGCCGCCTCCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGG TAAATTCCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAA AGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCC TGCAGTTGTTCATCCGGGCTCCCGCCCGGTGCACTCCTCTGCGGGCAGGCCAGCATCAGTTTGGGCGGCC GGATAAAGGTCCTGGGAACGTAGCTCTCTCCGGGGAGTGTTATAGCCCAGGGCGCAATGCGGCCAGCCCG GACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACC AAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTAAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGTGG GAACCCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGT TGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCA GCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGTA GCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGAT TAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACT TAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCG GGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCA TCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAA TGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAAATTATG CCCTGGCGAGTAGGCAGGCGT >gi|913748487|ref|NG_042328.1| Tetraplosphaeria nagasakiensis HHUF 29378 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCCTGCGGGGTCCGAGTTGTAATTTGCAGAGG GTGCTTTGGCGTCGGCGCCAGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGT GGCCGGCTGCCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGG AGGTAAATTCCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATG AAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTT GCCTGTAGTTGCTCATCCGGGCCCCGGCCCGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTTTGGGCG GCCGGACAAAGGCCCCGGGAACGTAGCTCTCTCCGGGGAGTGTTATAGCCCGGGGCGGAATGCGGCCAGC CCGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGG ACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGCAATGAAAGTGAACGCAGG TGGGACACCTCCCTCCGGGGGGGCTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGA GCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTG GAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAA CTATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAA AGCGAATGATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGT CCTTGTTACTTAATTGAACGTGGACAATTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAAC TGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGG TGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTC ACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGC AGGAATTATGCCCTGGCGAGTAGGCAGGCGT >gi|913748482|ref|NG_042327.1| Quadricrura septentrionalis HHUF 28782 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTTGGGGTCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCTCCGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGACCGTCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCATCCGGGCTCCTGCCCGGTGCACTCTTCTATTGGCAGGCCAGCATCAGTTTGGGCGG TCGGATAAAGGCCTCGGGAACGTAGCTCTCTTCGGGGAGTGTTATAGCCCGGGGTGTCATGCGACCAGCC TGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGT GGGAACCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAATTTAT GCCCTGGCGAGTAGGCAGGCGT >gi|913748480|ref|NG_042326.1| Quadricrura meridionalis HHUF 30024 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTTGGGGTCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCTCCGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGGCTGCCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCATCCGGGCTCCTGCCCGGTGCACTCTTCTATAGGCAGGCCAGCATCAGTTTGGGCGG CCGGATAAAGGCCTCGGGAACGTAGCTCTCTTCGGGGAGTGTTATAGCCCGGGGCGTCATGCGGCCAGCC TGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGT GGGAACCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAATTTAT GCCCTGGCGAGTAGGCAGGCGT >gi|913748479|ref|NG_042325.1| Quadricrura bicornis HHUF 30023 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCTTCGGGGCCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTTGGCTCCGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGGCTGCCTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCATCCGGGCTCCTGCCCGGTGCACTCTTCTATAGGCAGGCCAGCATCAGTTTGGGCGG CCGGATAAAGGCCTCGGGAACGTAGCTCTCTTCGGGGAGTGTTATAGCCCGGGGCGTCATGCGGCCAGCC TGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGT GGGAACCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAATTTAT GCCCTGGCGAGTAGGCAGGCGT >gi|913748478|ref|NG_042324.1| Pseudotetraploa longissima HHUF 28580 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCCTTGGGGCCCGAGTTGTAATTTGTAGAGGG TGCTTTGGCGTGGGCGCTGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGGCCGCCTTAGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTCCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCACCCGGGCTCTTGCCCGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTTTGGGCGG CCGGATAAAGGCCCCGGGAACGTAGCTCTCTTCGGGGAGTGTTATAGCCCGGGGTGTCATGCGGCCAGTC CGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGCAATGAAAGTGAACGGAGGT GGGAACCCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCT GTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCG CAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAG TAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATG ATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTA CTTAATTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATG CGGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTT CATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCG AATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGGATTTA TGCCCTGGCGAGTAGGCAGGCGT >gi|913748477|ref|NG_042323.1| Pseudotetraploa curviappendiculata HHUF 28582 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCCTCGGGGCCCGGAGTTGTAATTTGTAGAGG GTGCGTTTGGCGCTTGGCACCGAGCCTAAGTTCCTTGGAACAAGACGTCACAGAGGGTGAGAATCCCGTA CGTGGCCGGCTGCCTACGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAAT GGGAGGTAAATTCCTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAG ATGAAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGA CTTGCCTGTAGTTGCTCACCCGGGCTCTTGCCCGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTTTGG GCGGCCGGATAAAGGTCCCGGGAACGTAGCTCTCTTCGGGGAGTGTTATAGCCCGGGGCGCCATGCGGCC AGCCCGGACTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACA CGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGCAATGAAAGTGAACGG AGGTGGGAACCCCCCCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCAT AGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGG CTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTAT CTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCG AATGATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTT GTTACTTAATTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGC GATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGTACGCTCATCAGACACCACAAAAGGTGTT AGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAATAACTCACCT GCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACACCATACCCCGCCGCCAGGGCAGG ACTTATGCCCTGGCGAGTAGGCAGGCGT >gi|913748475|ref|NG_042322.1| Polyplosphaeria fusca HHUF 29399 28S rRNA, partial sequence; from TYPE material CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCTTCAGGGCCCGAGTTGTAATTTGTAGAGGG TGCATTGGTGTTGGCCCCGGCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTG GCCGGTCGCCTTCGCCTTGTAATGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGA GGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGA AAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTG CCTGTAGTTGCTCATCCGGGCTCTTGCCTGGTGCACTCTTCTACTGGCAGGCCAGCATCAGTTTGGGCGG CCGGACAAAGGCCCTAGGAACGTAGCTCCCCCCGGGGAGTGTTATAGCCTAGGGCGTCATGCGGCCAGCC TGGACTGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGA CCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGT GGGAACCCCTTGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTG TTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGC AGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGT AGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGA TTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTAC TTAATTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC GGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTC ATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGA ATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCCCGCCGCCAGGGCAGAATTTAC GCCCTGGCGAGTAGGCAGGCGT >gi|913748474|ref|NG_042321.1| Lindgomyces ingoldianus ATCC 200398 28S rRNA, partial sequence; from TYPE material TGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCTTCGGGGCCCGAGTTGTAATTTGTAGAGGGTGCT TTGGCGTTGGCCATGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGCCG CTGGCCTTCGCCATGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTA AATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAG CACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCTCG TAGTCGCTCATCTAGGCTTCTGCCTGGTGCACTCTTCTGCGGGCAGGCCAGCATCAGTTCAGGCGGTCGG ATAAAGGTCTTGGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCCGTGGCGCAATGCGACCAGCCTGGA CTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAA GGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGCAATGAAAGTGAACGGAGGTGGGA ACCCGCAAGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGG GACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCG GTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGTAGCT GGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAG AGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAA TTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGA TGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCT AGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGA ACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCACACATTATGCCC TGGCGAGTAGGCAGGCGTGGAG >gi|913748471|ref|NG_042320.1| Penicillium camemberti CBS 299.48 28S rRNA, partial sequence; from verified material GCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAAGAG CTCAAATTTGAAAGCTGGCTCCTTCGGGGTCCGCATTGTAATTTGCAGAGGATGCTTCGGGAGCGGTCCC CATCTAAGTGCCCTGGAACGGGACGTCATAGAGGGTGAGAATCCCGTATGGGATGGGGTGTCCGCGCCCG TGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAA GCTAAATATTGGCCGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGA GAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTCGCTCGCGGGGTTCAGCCG GCATTCGTGCCGGTGTATTTCCCCGCGGGCGGGCCAGCGTCGGTTTGGGCGGTCGGTCAAAGGCCCTCGG AAGGTAACGCCCCTAGGGGCGTCTTATAGCCGAGGGTGCAATGCGACCTGCCTAGACCGAGGAACGCGCT TCGGCTCGGACGCTGGCATAATGGTCGTAAGCGACCCGTCTTGAAACACGGACC >gi|913748467|ref|NG_042318.1| Versicolorisporium triseptatum HHUF 28815 28S rRNA, partial sequence; from TYPE material TGCCCTAGTACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCTTTCAGGGCCCGAGTTGT AATTTGTAGAGGGTGCTTTGGCGTTGGCAGCGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAG AATCCCGTACGTGGCCGCCGGACTCCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCA GCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGT GATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTT GCAGCCAGACTTGCCCGCAGTTGCTCACCCTAGCCAACGGCTCGGGGCACTCTTCTGCGGGCAGGCCAGC ATCAGTTCAGGCGGCCGGACAAAGACCTCTATCACGTATCTTCCTTCGGGATGACCTTATAGGGGAGGTG TAATGCGGCCAGCCTGGATTGAGGTCCGCGCATCAGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCG TCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGCAATGA AAGTGAACGGAGGTGGGAACCCCTCGGGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAG TAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTC TGTTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAA TCGAACTATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGA GGTAAAGCGAATGATTAGAGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAA GAAGTCCTTGTTACTTAATTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGC AGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACA AAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCC AGGGCAGAAATTACGCCCTGGCGAGTAGGCAGGCGTGGAGGCTCGGACGAAGCCT >gi|913748466|ref|NG_042317.1| Hannaella kunmingensis JCM 11006 28S rRNA, partial sequence; from TYPE material TAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAGCGGCGAGCGAACCGGGAAGAGCTCAAATTT AAAATCTGGCGTCTTTCAGGCGTCCGAGTTGTAATCTACAGAAGTGTTTTCCGTGCTGAACTGTGTCCAA GTCCCTTGGAATAGGGTATCAAAGAGGGTGACAATCCCGTACTTGACACAACAATCAGTGCTCTGTGATA CATTTTCTACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAAT ATAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAA ACAGTACGTGAAATTGTTGAAAGGGAAACGATTGAAGTCAGTCGTGTCTGTTGGTTTCAGCCGGTTCTGC CGGTGTATTACCAACAGACGGGTCAACATCAGTTTTGGGCGGTGGAAAAAGGTGGAGAGAACGTAGCACC TTCGGGTGTGTTATAGCTCTCTATTGCATACACTGCCCGAGACTGAGGAATGCAGCTCGCCTTTATGGCC GGGGTTCGCCCACGTTCGAGCTTAGGATGTTGACATAATGGCTTTAAACGACCCGTCTTGAAACACG >gi|913748459|ref|NG_042311.1| Bannoa hahajimensis JCM 10336 28S rRNA, partial sequence; from TYPE material TAGACCTCAAATCAGTCAGGACTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAAC AAGGATTCCCCTAGTAACGGCGAGTGAAGTGGGAAAAGCTCAACTTTGAAATCTGGCTGCTTTGCAGTCC GAGTTGTAGTTTCGAGAAATGTTTTCCGCGTCAATCCATGTATGAGTCTGTTGGAACACAGCGTCATAGA GGGTGAGAACCCCGTTCATGGCATGGCTTTTGATGCTTTGTGATACATTTTCGACGAGTCGAGTTGTTTG GGAATGCAGCTCAAATTGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCAAACA AGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAGTACGTGAAATTGTCGAAAGGGA AACGATTGAAGTCAGACGTGCATGGTATTCATTACCTTTGCAGGCCAACATCGGTTTTGCGAGTCGGATA AAGGTAGAGAGAAGGTAGCAGTCTCGGCTGTGTTATAGCTCTTTACTGAATACGAAATGTGAGACCGAGG GACGCAGTGCGCCGCAAGGCAAAGGGTTCGCTCTTTACGCACTTAGGATGTTGGTGAAATGGCTTTAAAC GACCCGTCTTGAAACACG >gi|913748455|ref|NG_042301.1| Aspergillus nomius NRRL 13137 28S rRNA, partial sequence; from TYPE material AAAGAAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAGAGCTCAAATTTGAAAGCTGGCT CCTTCGGGGTCCGCATTGTAATTTGCAGAGGATGCTTCGGGTGCGGCCCCTGTCTAAGTACCCTGGAACG GGTCGTCAGAGAGGGTGAGAATCCCGTCTGGGATAGGGTGTCCGCGCCCGTGTGAAGCTCCTTCGACGAG TCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATACTGGCCGGAGAC CGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAAAAGCACGTGAAA TTGTTGAAAGGGAAGCGCTTGCGACCAGACTCGCCCCCGGGGTTCAGCCGGCATTCGTGCCGGTGTACTT CCCCGGGGGCGGGCCAGCGTCGGTTTGGGCGGCCGGTCAAAGGCCCCTGGAATGTAGTACCCTCCGGGGT ACCTTATAGCCAGGGGTGCAATGCGGCCAGCCTGGACCGAGGAACGCGCTTCGGCACGGACGCTGGCATA ATGGTCGCAAACGAC >gi|311235638|ref|NG_027655.1| Pyronema domesticum strain CBS 666.88 28S ribosomal RNA, partial sequence TGCCTCAGTAACTGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCTGGCGTCTTCGGCGTCCGAGTTG TAATTTGGAGAGGCATCTTCGGATATGGCGCCGTCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGA GAATCCCGTGCCTGGTCGGCTGTCCATATCCATGTGAAGTGTCTTCGACGAGTCGAGTTGTTTGGGAATG CAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGC TTGAGACACCACTCGATCTTTGGTGATCAGCCGGGCTTCTGTCTGGTGCACTTGCCATTGATTGGGCCAG CATCGGTTCTGACGGTGGGATAAAAGGCAGAGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCTCTGTC ATAATGCCGCCAGTTGGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCATAAAGGTCTTAAGCGACCC GTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGGAAAACCCTTGCGCGTAATG AAAGTGAACGGAGGTGGGAACTCTTCGGAGTGCACCATCGACCGATCCTGATGTTTTCGGAAGGATTTGA GTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACT CTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTA ATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGATTTCAGTTTTATG AGGTAAAGCGAATGATTA >gi|311235637|ref|NG_027654.1| Rhopalomyces elegans strain NRRL A-10835 28S ribosomal RNA, partial sequence AGGATTCCCCTAGTAACTGCGAGTGAAGCGGGATTAGCCCAATATTAGAAGCTGGCTGGCCCTGAGCCGG ACCCGCATTGTATATTGATGGATCGATGCCAATAGCCGTCGCTTCTGGTCGAAGTTCCTTGGAACAGGAC GTCAAAGAGGGTGAAAACCCCGTTGATGGCCAGACGACATACCACGACGGTTAGCCATGGCGCGATTCCT TAGAGTCGGAATGTTCGGGACTGCATTCCAAAGTGGGTGGTAGACTCCATCTAAGGCTAAATACTGGCGA GAGACCGATAGCGAACAAGTACCGTGAGGGAAAGTTGAAAAGCACTCTGGAGAGAGAGTCAAAAAGTACG TGAAATTGCTAGCAGGGAAACGTTGGGCGCCAGTACACGGCATTCAACGGCCGGTGATCAGTCGGCGTGC GGGTGCACGACGTTGTGGAGCCTCACCGCTTCAGGGATCGTCCTCCGGGATGACCCACGCAGCGTCGTTG CGCACGCATACCGGTGCACTCATCGGTCGGCCGGGTCAACATCGGTTGGCGACGTTCGACAAGCGGCGCG GCAAGGTAATCGTTGCGGTTCATCCGAGCCGTGACGAGACTTATAGGCCGCGCGTGTGCGAGGATGTCGG CGACCGAGGAAGCAGCGACTCGCGCGTACTTTGTGCGCAGGGCGACGTCGTGTGGTGTAGGCAGCCCGTG GCGTTAGGCAACATGTTGACTAGCGTTCATTTTGTCCGGTTCGCCGGGCAGTGGCGGTCGCCATGCGGCG TCAAGCAGCTAGCGAGTCAACGACGGTTGACGAAATGGTTCTCACCGACCCGTCTTGAAACACGGACCAA GGAGTCTAACATGTCTGCGAGTGTTTGGGTGGCAAACCCGAGCGCGGAATGAAAGTGACGAGGCGTGTCT TTGGCACGTCCACTGGTAGGAATCGACCTGTGTTCGCACAGGGCGACGCACTATCGACCGACTTTTCGCC CTCTGCGGTGGAAGGTTTGAGTTGGAGCAGTCCTGTTAGGACCCGAAAGATGGTGAACTATGCCTGAGCA GGATGAAGCCAGAGGAAACTCTGGTGGAGGTCCGTAGCGATTCTGACGTGCAAATCGATCGTCGGACTTG GGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCT GGAACACGCAATGCAGTATTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGACGCAATGTCCTTAACC TATTCTCAAACTTTAAATGTGTAAGACGTCTTTGCTACTTTGTTGAGCTTAGACACTCGTATGCATGTGT TCTTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAAAGGAGGGTTAAGGTGCCG GAATGCACGCTCATCAGACACCAGAAAGGGTGTTGGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGT CGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTA AGCGTGCTACCCATACCCTCCCGCCAGGGTAGACATAGCATAGATTGATGCTCTGGCGTGTAGGCAGGCG TGGCGGTCTTTTAGCAGTTTCGAAGCCTAGGTGGTGACACCGGGTGGAACGGCCGCTAGTGCAGATCTTG GTGGTAGTAGCGAATATTCAAATGAGATCTTTGAAGACTGAAGTGGGGAAGGGTTCCGTGTGAACAGTGG TTGGACACGGGTCAGTCGATCCTAAGGGTCAGGCAAACGCTTATGTGTTGTAAGTGCGCGATTTTCGCGC CTCTACCCGAAAGGGAAGCCGGCTAATATTCCGGCACCAGATCGTGGATCCAACGGTAACGTAAAGTGAA TCTGATCACGTCGAGGCGTGCCCCGGACAGAGTTTTCGTCTCTGTTTAACAGGAGGAGTGGAGGCCCGTG GAATCGCGTCAAGCGGAGAAACGGACTCCTAGAGCAATAGCGTCGCAATTCTGTGGCGCCCGGAGCGCAC GTACCGGTCCGTGAAAATTCGGAGGAATGTTTCGGCCTCGCGCCGGGATATTCTCACGTCTGGTCGTACC CATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATGGAAGAATGTAGGTAAGGGAAGTCGGC AAAATAGATTCGAAACTTCGGGATAAGAATTGGCTCTTAGGGTAGGGTGTTCCGGGCCACTCGCAAGAAC GGCACTGGTCGCGTCCGTCTTGACTGGCTACCTTTCGGGGCGGCCGGTCGGCGGAAGCTAGACTGGTTCG GGGCGGCGGTGGCTTGTCGGTCCCATCCGGGGCCGGCGAACGGTGCACGACATAACTATCGACTAAGAAC TGGCGCTGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCGAAACTCGGTGTTGA CGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGC GGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGAT TAACGAGATTCCCACTGTCCCTACCTACCATCCAGCGAAACCGCAGCCAAGGGAATGGACTTGGCAGAAT CAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAGAGACATATGGGGTGTAGA ATAAGTGGGAGACGCTTGCGTCGCCGGTGAAATACCACTACCCGTATTGTTTCTTTACTTATTCCATGAT GTGGAGCCTGGCCTTCACTGGCCATCCTTCTAGCATTAAGCGTCGCTTCTGTGGCGCGATCCACGTGGGA GACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTGTCCTAAGGGG GGCTCATTGAGAACAGAAATCTCAAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTCCGATTTTCAGTGT GAATACGAACCATGAAAGTGTGGCCTATCGATCCTTTTGATCCGTGGAGTTTACGGTAAGAGGTGTCAGA AAAGTTACCACAGGGATAACTGGCTTGTGGCGGCCAAGCGTTCATAGCGACGTCGCTTTTTGATCCTTCG ATGTCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAGCGTTGGATTGTTCACCCACTAACAGGGAA CGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGGAGTTGGTTGTCGCGATA GTAATTCAATTTAGTACGAGAGGAACCATTGATTCGAATAATTGGTATTTGCCCTTGGTCGAGCGGCCAA TGGGGCGAAGCTAACA >gi|311235636|ref|NG_027653.1| Mortierella verticillata strain NRRL 6337 28S ribosomal RNA, partial sequence ACTCGATCTCAAATCAAGTAAGACTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGATGAGCTCAAATTTGAAATCTGGCTGGTTTACTAG TCCGAGTTGTAATTTAAAGAAGCGTTTTCGGTGGCAGCCTGGGTATAAATCCTTTGGAATAGGGTATCAT AGAGGGTGAGAATCCCGTCTTTGACCTAGTGCATGCTACTATGTGATACGTTTTCAAAGAGTCGAGTTGT TTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGA ACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTTGAAA GGGAAACGTTTGACACCAGTCATGTGGGTGGAAAATCAGTCTTTTGCATTGGGGAGTTGTAAAGGTTCGG ACCGCAAGGCCGGCTTTTGCTTCATCTTTGGTGTAAGGGATGCACTTTTTCATCTGCAGGTCAACATCAG TTTCTTTTGCTGGACAAAACTCCGAGAGAAGGTAGCAGCTTAGGCTGTGTTATAGCTCTGGAGCGATACA GTGAAGGGGACTGAGGTTTTCGCAGCGTGTGCTCTCGGGCAAGGCTGGATGGGTGCTATGGGATCGTTCG GGGTACAATGCCTGGCATTTTGCTTCGTGTCTTTTCTATACTCGCTCAACTCAGCTCTTCCACGCTTAGG ATGTTGACTTAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCAAGTG TTTGGGTGGCAAACCCATGCGCGTAATGAAAGTGAACGTAGGTGCGATCCGCAAGGTGCAGCATCGACCG ATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATATGCTGGGACCCGAAAGATGGTGAACTATGCC TGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCA AATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGG ATAGCAGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTA ACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGCTGCTTAATTGAGCCTGGACATTTGAATGAGAG TTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAATTTAAGGCGCC GGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAG TCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTC AAGCGTGTTGCCCATAATTCGCCGTCAGGGTAAAAGCGAAGCCCTGACGAGTAGGCAGGCGTGGAGGTTG TGAAGAAGCTTTAGACGTGAGTCTGAGTGAAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATAT TCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTC GATCCTAAGAGATAGGGAAGTTCCGTTTTAAAGTGCGCAATTCTTTGCGCCGCCTATCGAAAGGGAAGCA GGTTAATATTCCTGCACCAGGATGTGGATTTTCTACGGCAACGTAAATGAACTCGGAGACGCCAGTGGGA GCCCTAGGAAGAGTTTTCTTTTCTTTTTAACAGACTGTCACCGTGAAATCAGATTACCTGGAGATACGGT TCAATGTTTGGTAGAGCAGGACACCTCTGTCCTGTCTGGTGCGCTCTCAACGGTCCTTGAAAATCCGAGG GAAAGAATAATTTTCACGCCTGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTT GATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAG GAATGGGTACATTGGGCTCTTGTGCTGAGGTTTAAGGACTCTTACGGAACTATCTGGGCAACCGGACGGA TCTGTTCGAGACTTTTTACGGACGCGCTTGAGCTGCTTCGGCGTCCGGTGTACACTTAACATTCAACTTA GAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTG TTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAA CGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAAT GGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCA AAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATATGGGGTG CAGAATAAGTGGGAGCTTCGGCGCCAGTGAGATACCACTACCCGTATTGTTTTTTTACTTATTTAATTAG GTAGAAACGGAATTCATTTTCCTTCTTCTAGCTTTAAGGTTGCTTTACGTAGCCGATCTAGGTTAAAGAC ATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGAC TCAACGAGAACAGAAATCTCGTGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAA TACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCCTGGAAATTTCAGGCTAGAGGTGCCAGAAAA GTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATG TCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGT GAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAAATGTTGTTGCAATAGTAAT TGAACTTAGTACGAGAGGAACCGTTCATTCGGATAATTGGTATTTGGGCCTGCCTGAGCAGGCAATGGCC CGAAGCTATCATCCGTTGGATTATGG >gi|311235635|ref|NG_027652.1| Glomus mosseae strain INVAM UT101 28S ribosomal RNA, partial sequence TTTTGACCTCAAATCAGGTAAGAATACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAAATA ACAATGATTCCCTCAGTAACGGCGAGCGAAGAGGGATAAGCTCAAATTTTAAATCTGTTGGGTTCCACTT AACAGAGTTGTATTTTGAAGAAACGTTTTCCGCATCCAGGATTAGCCTAAATCCTTTGGGATAAGGTATC ATGGAGGGTGAGAATCCCGTTCATGGTTAATCTTAAGGAAGCTCTACGATACGTTTTCCAAGAGTCGAGT TGTTTGGGATTGCAGCTCAAAATGGGAGGTAAATTTCTCCTAAGGCTAAATATTGGCGAGAGACCGATAG CGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTG AAAGGGAAACGATTGAAGTCAGTCATACCAACGGGAAATCAACCTTTTGAGCTCGGTCTCGTGGGTTTTG AAGAGTTTCAAAGCCTTCGGATTCGCGGGATTGGGATCTCTCGGTGTACTTTCTCGTACGGTTAGYCAAC ATCGGTTTTGAATGTCATAAAATGACTGGAGGAATGTAGCTTCGATCTCGTATTGAAGTGTTATAGCCTT TGGTAGATGTGATGTTTGAGACCGAGGATTGCAACGGATACCCTTCAGGGCTATTCGTCTGATCTCTGAT ACGTTGCCYTGATGTTGAAAGCTTGCTTATGATGTTAGGGTATTACGGTCAAAAGGTTAGAACGAATTAC ATTCGTTAAGGATGTTGACGTAATGACTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAT ATATGCGAGTGTTTGGGTGATTAAACCCTTGCGCGTAATGAAAGTAATTTTGGTGAGATCCGGGAAAAAA TTTTCGGAGCATCATCGACCGATCAGGATATTTTTTGATAGATTTGAGTAAGAGCATATCTGCTAGGACC CGAAAGATGGTGAACTATGCCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTC TGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTT CCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGATAAACAGTTTTATGAGGTAAAGCGAATGATTAGA GGCCTTAGGGTTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTTTTAAGTTACTTGA TTGAACTTGAACTTTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGAT GAACCGAACGTAAGGTTAAGGTGCCCAAATTTACGCTCAYTTAGATACCACAAAAGGTGTTAGTTCATCT AGACAGCAGGACGGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGA ACTAGCCCTGAAAATGGATGGCGCTCAAGCGTAATACCTATACCTTACCTTTAAGGTTAAAGTGAAGCCT TAAAGAGTAGGCAGGCGTGAAGGTTCGTTACAAAGCTTTAAGAGTGATCTTAAGTGGAACGACCTTTAGT GCAGATCTTGGTGTTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATG TGAACAGTGATTGGACATGGGTTAGTCGATCCTAAGAGATAGGGAAGCTCCGTTTCAAATGGTGACGTTA TCGTCACGCCTATCGAAAGGGAAGTAGGTTAATATTCCTACACCAGGATGTGGATAATTAATACGGTAAC GTTAATGAACTTGGTAACGTCAGTGAAAACCCTGGGAAGAGTTCTCTTTTCTTTTTAACAATTGCAAACA CCATGGAATTTCGGATTAACCGGAGATATGGTATTTTAATTGGAAGAGCTTGAYGATTTTGTCAGGTCCG GAGCGTTTTCAATGATCCTTGAAAAACCAAGGGAAAGATTTATTTTCACGCCTGGTCGTACTCATAACCG CAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGRTAAGGGAAGTCGGCAAAATAGA TCCGTAACTTTGGGAAAAGGATTGGCTCTAAGGGTTGGGCTTATTGGGCCTTGATTCGAAAGTTTGACGT GATGATTGGGCCTACTATTCAGGCAACTGGAGAAAGGAACTTTCGTCACGTTGGGCCGGWGGGTCTGGCT TGTGTTGAGCAATCGACATTCCGGTAGGCGATTAACAATCAACTTAGAACTGGTACGGACAAGGGGAATC TGACTGTCTAATTAAAACATAGCATTGTGATGTCCGCAAAACGGTGTTGACACAATGTGATTTCTGCCCA GTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCT TAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCC CTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGTAAAATCAGCGGGGAAAGAAGACCCT GTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGGATAAGTGGGAGTATTTCGGT ACGACAGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATTAAGTGGAGCTGGGTTTCATTAT CCACGTTTCGGAGTTAAATCACCATTAGGTGAAGATCCATGTTGAAGACATTGTCAGGTGGGGAGTTTGG CTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGTAGCCCATTGAGAACAGAAATCTCA TGTAGAATAAAAGGGTAAAAGCTACCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGC CTATCGATCCTTTAGAACCTCGAAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGC TTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTG AAGCAGAATTCAGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGT GAGACAGGTTAGTTTTACCCTACTGATGAAGAGTTGTTGCAATAGTAATTCAACTTAGTACGAGAGGAGC CGTTGATTCGGATAATTGGTTCATGCACCTATCCGAAAGGATAATGGTGCGAAGC >gi|311235634|ref|NG_027651.1| Scutellospora heterogama strain INVAM FL225 28S ribosomal RNA, partial sequence AAATGACCTCAAGTCATGTGAGAGTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGGAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCACAAATTTAAAATCTACCTGGTTTTCAGG TCGAGTTGTAATTTGAAGAAACGTTTTTGACGTTCCGGGTTGGGATAAATCCTTTGGGATGAGGTATCAT GGAGGGTGAGAATCCCGTGTATACCAACCGCAGGGATGTTATTTAATACGTTTTCTAAGAGTCGAGTTGT TTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCACCTAATGCTAAATATAAGCGAGAGACCGATAGCGA ACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGAAATTGTTGAAA GGGAAACGATTGAAGTCAGTCATGCCGGCGGGAATCAACTTAGGGGAAACTTTAAGTGCACTTCACGTTT GGCAGGTCAGCGTCGATTTTGGATATCATAAAATGATTGGGGGGAAGGTAGCTCCTTCGGGAGTGTTATA GCCCTCAATAGATGTGATGTCTGGGATCGAGGATTGCAACGGATATCCTTTGGGCTAGCCGCCTGATCTC TAACTGGTGTTAGGTTACGGACAGCATGCTGACCGTGATTTAATTACTGGTTAAAAGGTTAGAGCGAGTG TAAATTCGTTAAGGACGCTGACGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CATGTATGCGAGTGTTAGGGTATTAAACCCAGACGCGAAATGAAAGTGAGTGTAGGTGGGATCCTTTATT GGAGCACCATCGACCGATCTTGAGATTTATCGATAGGATTGAGTCAGAGCATACCTGTTGGGACCCGAAA GATGGTGAACTATGCCTGAATAGAGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACG TGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGC CGAAGTTTCCCTCAGGATAGCAGAAACTCATTAACAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTT AGGGTTGAAACAGCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCTAACAGGTTACTTAATTGAA CCTGGGCAATCGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACC GAACGTAAGGTTAAGGTGCCCAAATTCACGCTCATTTAGACACCACAAAAGGTGTTAGTTCATCTAGACA GCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAG CCCTGAAAATGGATGGCGCTCAAGCGTGATACCTATACCTTACCGTCAGGGTTAAATTGAAGCTCTGACG AGTAGGCAGGCGTGAAGGTTGTGAAGAAGTCATGGGTGTAAACCTTGATGGAACAGCCTTTAGTGCAGAT CTTGGTGATAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACA GTGATTGGACATGGGTTAGTCGATCCTAAGAGATAGGGGAATTCCGTTTTAAAGGGGACTATTTTTAGTC ACACCTATCGAAAGGGAAGCAGGTTAATATTCCTGCACCTGAATGCGGATAATTAATACGGTAACGTTAA CTGAACTTGGTTACGTCTGTGAGGACCTCGGGAAGAGTTATCTTTTCTTTTTAACTGTCTTTTAAACCTT GGAATTTCGGATTAACCGGAGATAAGGTATAAAGGTAGGAAGAGCTTGACACTTAAGTCAGGTCCGATGC GTTCTCAAGGATCCTTGAAAAACCAAGGGAAAGATTTATTTTCGCGTCAGGTCGTACTCATAACCGCAGC AGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAATTAGATTCG TAACTTTGGGAAAAGAATTGGCTCTAAGGGTTGGGCGTATTGGGCCAAGGTTGGAAGGTCTGATAAGCTT TAGGAGCTGGCGTGGGGAAACTCGCGTTGGAGCCTTCGGCTATTCGGGTTGGAAGGCTTTGGCTGTGCTT CGGTACATCCGGTACGCGCTTAACAACCAACTTAGAACTGGTACGAACAAGGGGAATCTGACTGTCTAAT TAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATG TCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAA ATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCTACTGTCCCTAACTACTATC TAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGAC TCTAGTTTGACATTGTGAAAGGACGTAGGGGGTGTAGGATAAGTGGGAGGGCTTGCCCGACAGTGAAATA CCACTACCTCTATCGTTTTTTTACTTATTCAATTAAGCGGAACTGGGTTAATACCCACCTTTCGGCTTTA AGATCATTTATTGATTGATCCGAGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTG TTAAAAGATAACGCAGGTGTCCTAAGGGGGGCTCATTGAGAACAGAAATCTCAAGTAGAACAAAAGGGTA AAAGCTCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGAT CCTCGAAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGT TCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAG CGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTA CCCTACTGATGAAGTGTTGTTGCAATAGTAATTCAACTTAGTACGAGAGGAACCGTTGATTCGATTAATT GGTATTTGCACCTATCCGAAAGGATAATGGTGCGAAGC >gi|311235633|ref|NG_027650.1| Dimargaris bacillispora strain NRRL 2808 28S ribosomal RNA, partial sequence TCTTAATCTCAACTCAAGTAGGACCACCCACTGAATTTAAGCATATTAATAAGTGGAGGAAAAGAAACTA ACAAGGATTCTCCTAGTAGCGGCGAGTGAACAGAGATAAGCCCAGATTTGGAATCGCCTTGCCACATGGC TCGAGCGAGTTGTATTCTGGAGATGTGGCCTGGGGGGGTGACTGTGCTGCGGCAACTAACCTGGAATGGT TGGGCATAGGGGGTGATACCCCCGTTGCTGCGGCATGCTTTCCCCCACTATGTCATCATCGATGAGTCGA GTTGTTTGGGAACGCAACTCTAATCTTGAGGTGGTAAGCGCCATCTAAGGCTAAATATGGATGAGAGACC GATAGCAAACAAGTACCGTGAGGGAAAGTTGAAAAGCACTCTGAAGAGAGAGTGAAATAGTACGTGAAAT TGTTAGGAGGTGAAGGAAAGGCACCGCTGGAGTGATACGTCACGGTCAGGATTAGATGGAGGCACTGGAT ACGTACTGCGGCAGTGACTGCTTTGGCTGCGGCCTTGGCGGTACCCCAGCTACTTCAGGTGTTTCTGTCT AAGGTCTGCCACAGTTGGGGGCAACCCCAGTCTATGCTGTGAAGGATGCTGGCTTGAAGCAGGGGTGCAT TTCACCCGTCTTGAAACACGGACCAAGGAGTCTAACAAGGATGCAAGTAGGCGAATAGTTATATTCAACT GCGGAATGGAAGTGATTGTGTGAGAGGATACCCCTGGGTGGCACTCTTATCTGGACTGGGAAGCATGCGG CCCGGTCCAAGACTTAGCATCTTTGCTAGGACCCGAAAGATGGTGAACTATGCTTGAATAGGATAAAGTC AGAGGAAACTCTGATGGAAGTCCGGCGAGGTTTTGACGTGCAAATCAATCTTCTGATTTGGGCATAGGGG CGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACAGTAG AGTTTTGTGTGGTAAAGCGAATGATTAGAGGCCTTGGGGGTCAAAGATCCTTAACCTATTCTCAAACTTT GAATGCGCAAGGGGTGCATGTACTTATGTGACATCTCCCCCTAAATCAAGTGTTTCTAGTGGGCCATTTT TGGTAAGCAGAACTGGCGATGCGGGATGAACCGAAAGTGTTGCTAAGGTGCCCTAGTGTACGCATATTTT GGAGCCCACAAAAGGTGTTGGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG AGTGTGTAACAACTCACCTGCCGAATGAAGCAGCCCTGAAAATGGATGGCGCTTTAGCGTATCACCGATG CAACACCCATTGAGTTTCCTATTGTGCTTAGTGGAGTAGGCAGGCGTGAAGGCTCCTGCATAGAAGTGAC AGTGGTAGCATGTCATGGAGCAGCCTTTAGTGCAGATCTTGGTAGTAGTAGCAAGTATTCAAATCAGAGG TTTGAAGACTGAAGTGGAGAAAGGTTCCTCTGGAAGGGCAATCCGCAGAGGGTAAGTCGATCCTAAGAGG GTGGGTAATTCCAGCCACAGGGGTGCCTTATAACACCCTGCCTCGAAAGGGAATCCGGTTAATATTCCGG AACTGAGATGTAGATATTGACTGCGGCAACGCAAGTGAACCCAAAGACCCCAGGGGGTAGGTGCGGAAGA GTTTTCTTTTCTTTTTAACAGGTAGAGGTCTGGATAGTGTTGTGCAAACAATGCAGTCTTACTCTTTTGA ATTTCCCTGGAATGTAGTTGCTACGCGAAGGGGAAGTTTACCTGGCAGAGTTTACCCCGTGTAAATCGCA CTGTGCCCCATGGGCCTTGAAAATTTGGGGGACCTGATCTTATCAATTCTACGCTTAGTCGTACTCACCA CCGCATCAGGTCTCCAAGGTGAATAGCCTCTAGTTTACGGCGTAATGTGAGTAAGGGAAGTCGGCAAACT GGATCCGTAACTTCGGGAGAAGGATTGGCTCGGGTGGGACTATATGTTCCAGACTCGAACTGAGACTATC CAGGGGAATCCAACTGTCTAATTAAAACATAGCTTTGTGATGGTTCATGTGAATGTTGACACAAAGTGAT TTCTGCCCAGTGCTCTGAATGTCAATGTGAAGAAATTCAACTAAGCGCGGGTAAACGGCGGGAGTAACTA TGACTCAACCTAGAGGGTCGTGAAAGCCTCCTGAGAGGGGTGGCTAGTGGTAGTGTAGCAATGATCGTGA CCTAGTATTGCGTGATGGGGGCTGCTCTATTGCGACATCATCAAATTGCGGGAAACCCCTAAAGCTCTTG ATACCAAGCTGTGGTAGAAATACCACGGTGGCCAGGGTAATGACCTCGGGTATGGTAACAACTCAGGAGA TGTACAATGGGCAATCCGCAGCCAAGTCCTGGGGTGATCTGGGGGCAGTGTCGCATCATGTGACTTTGTC CCCAGGCACTATGGATGCAGTTCAACGACTAGATGGTGATGGGTGGAGACCTTGTGTTTCTGCTTAAGAT ATAGTCTGGCCCCAGGGAAACCTGGCTCTGAGGTATAGCAGGGGACTCCCCCCCTTGTAAGCTCAGAGGT GAGACCCCGTCTCTGGAAGTATGCTCTTAAGGTAGCCAAACGCCTCGTCATCTAATTAGTGACGCGCATG AATGGATGAATGAGATTCCCACTGTCCCTACTTACGCACCGGCGAAACTACAGTCAAGGGAACGGGCTTG AGATAGCATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACGCTGTTTAGAGACGTGGG GGGTGTAGCGTAGGCGGGAGATGCTTGCATCGCCATTGAAACACCGCCACCCCCACTGTCTCTTTACTTA GATAGATAAGGGAGATGCTTATAGAGCACACTGCTTCGTGCAGTAATCCTCACTATTGATTTCGCCAGAT TGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTGTCCCAAGGAGAGCTCAATGAGAA CAGAAATCTCATGTAGAACAAAAGGGTAAAAGCTCTCTTGACTTGGACTCCCAGTGCGAGTTCAAGCCAT GAAAGTGGGGCCTATCGATCCTTTGTGTGCTTATTTCTTAGTGCTTAAGACCAGAGGTGTCAGAAAAGTT ACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGCTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCG GCTCTTCCTAGCGTACTGAAGCAGAATTCAGTAAGCGTCAGATTGTTCACCTGCTAACAGGGAACGTGAG CTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGGAGCAGATTAAAGTGCCACAACAGTAA TTCAACTTAGTACGAGAGGAACCGTTGATTCAGACCTCTGGTAT >gi|311235632|ref|NG_027649.1| Rhizophlyctis rosea strain JEL318 28S ribosomal RNA, partial sequence ACTTGGTCTCAAATCAGGTAGGAAAACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTCACAGGGTTACCTG TGCGAATTGTAGTTTATAGAAACGTTTTCGGGGGTGGCTCTGGCATAAGTCCTTTGGAATAAGGCATCAT AGAGGGTGAGAATCCCGTTTATGGTCAGGTGTCCGCTCCTATGTGATACGTTTTCTAAGAGTCGGTTTGT TTGGGAATGCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGA ACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAAAGTACGTGAAATTGTCAAAAG GGAAACGCTTAAAACCAGTATTGCGTTCAGGTAATCAGCCGCTCCTTTTGGGGCGGTGCACTTGCCTGTT TGCGGGTCAACATCAGTTTGGTTCGGGATAAAAAGCTTTAAGAAGGTGGCCCCTCGGGGTGTTATAGCTT AAAGTCATGTCTCGGACTGGACTGAGGTCTGCAGTGTTATTTGGGTAGCCAGTCGCCTCTTGAAACCCTG TTGTAGACAGCATGCTGACTACAGCTTGGTCTAGGGAGCCCGGTTGGGATTCCACACCAACACTTAGGAT GTTGACGAAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTGTT TGGGTGGCAAACCCTTACGCGGAATGAAAGTGAACTTAGGTGGGATCTTCGGTGCACCATCGACCGGTCT GGATTTTTTTGATAGATCTGAGTAAGAGCATATCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTT GGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCCTCCGAAGTTTCCCTCAGGATAGC AGAAGCTCATATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCT ATTCTCAAACTTTAAATATGTAAGACGTTCTGGTTACTTAATTGAACCTGGACATCGAATGAGAGCTTCT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTTGAGTTAAGGTGCCGGAAT GCACGCTTATTTAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGG AATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGC GTGCTACCCATACTCAACCGTCAGGGTAATTCGAGGCTCTGACGAGTAGGAGGGCGTGGAGGTTTGTTGA AAAGCTTTGGACGTGAGTCCGAGTGGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAA ATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGATC CTAAGAGATAGGGAAGTTCCGTTTCAATGTGTTTGATTTTTCAAACCGACTATCGAAAGGGCATCCGGTT AATATTCCGGAACTGGGATATGGATACTTTTACGGCAACGTAAATGAACTCGGAGACGTCAGCTGGGACC CTGAGAAGAGTTCTCTTTTCTTTTTGACTGTCTATCACCCTGAAATCGACTTGTTCGGAGATAGGGTTCA ATGTCAGGCAAAGCTCTATACTTTTGTAGGGTTCGGTGCGTTCCAGACGGTCCTTGAAAATCCGAGGGAG AGTTTAATTTTCATACCCAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGAT AGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGT TGGGTGCATCGGGCTATGGTTCAAAGCCTTGGGACTGACCTGGGACTACCCGAGCTTCACGGCGAGGGCG GACCCGGGTCGGACCTGAGTGTGGAGGGCCATGGCATGCCTTAACGGGCGTCTGGTGCACAATTAACAAC CAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAA AGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGC GGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCG CATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGG CTTGGCATAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAAACATA GGGGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCCTTATCGTTTTTTTACTTATT CAATGAAGCAGGGCTGGCCTTCACGGGCCACCTTCTGGTGTTACGGCACTTTACGTGCTAACCTGGGTTG AAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGG GGGGCTCATTGAGAACAGAAATCTCAAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGT GTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCGCTGGGTATTTCAGCCTAGAGGTGTCA GAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTT CGATGTCGGCTCTTCCTATCATTGAGAAGCAGAATTCTCAAAGCGTCGGATTGTTCACCCGCCAATAGGG AACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAAGTGTTATCGCAATA GTAATTCAACTTAGTACGAGAGGAACCGTTGATTCGCATAATTGGTATTTGCGGTTAGCTGAAAAGCTAG TGCCGCGAAGCTACCATGCGTCGGATTACGG >gi|311235631|ref|NG_027648.1| Smittium culisetae strain Col-18-3 28S ribosomal RNA, partial sequence TTCTAAACTCAAATCAGGTAGGATTACCCGCTGAATTTAAGCATATTAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAGAGCTCAAGCTTAAAATCTGCAGGTATTAAATT ACTTGCCGAATTGTAGCTTATGGAGGCAGTTTTCATCTCTGCGGCGTGGTAAAAGTTCTTTTGAATAAGA CATCAAAGAGGGTGAAAATCCCGTATTTGACCATGCTGGGAATACTAAAAGTAGGGATATGTGAACTGTT TTCTTTGAGTCGGGTTGTTTGGGAATGCAGCCCTAATTTGGAGGTAAATTTCTTCTAAAGCTAAATACTG GCAAGAGACCGATAGCAAACAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAAAGT ACGTGAAATTGTTGAAAGGGAACCAGTTGGTAGCCAAGCTTTGATAAAGATGGGGTAACTTGTCTTTAAC GAGGTCAACATCGGTTGCTATTTAGCCGCCTGAGAGGAATTTTGTAGGTTAGCGGAGTAAGGTAGAATGT GTAGGGATTTATCTCTATTCATTTGTTATAGACTCTATGAATCTACTGTAATTATGCCTTGAGGCGGTGG CGACCGAGGTACGCAGTGTTTGCCTTTGGCAATGGAGAAATTTAGGAAGGTATGGTTTTTTTGGTTTTTA TAGACAGCTTGCTGACTATGATGGCAAAAGAATATATCTCATCTTAAATTTTTACCCAGAAACACTTGGG ATGTTGGCGAAAAGGCACCAATTGACCCGTCTTGAAACACGGACCAAGGAGTCCAACATATATGCGAGTA TATGGGAATTTAAACCCACATGCGTAATGAAAGTGAAACATTTTTGAGTGTGACCAATTTCCTTTTGGAA GTTGAGCAACACCAACCGGCTTTAGATAGCGTTGCTTGACAAAGCTGAGTAAGAGCATATATGCTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGTCAGAGGAAACTCTGATGGAAGCTCGTAGAGATT CTGACGTGCAAATCGATCTCCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT TCCTGCCGAAGTTTCCCTCAGGATAGCAGAGACTGGAATTTTAAGCAGTTTTACGAGGTAAAGCGAATGA TTAGAGGCCTTGGGGATGTAACATCCTTAACCTATTCTCAAACTTTAAATGCGTAAGAAGCCAACTTTTT TCTTAATTGAAAAAGGGCGTTTAATACGAATGCATCAGTCTCTAGTGGGCCATTTTTGGTAAGCAGAACT GGCGATGCGGGATGAACCGAACGTAGAGTTAAGGTGCCCAAATGCACGCTCATATAGACACCATAAAAGG TGTTAGTTCATCTAGACAGCAGGGCGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTC ACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGCTACCGATACTCTACCGCCAAAGT TATTAAGATTAACACTTTGGTGAGTAGGCAGGCGTGGGGGTTTTGAGTAGAGAAGCTGTGGGAGTGATCT CCAGTGGAACAACCTCTAGTGCAGATCTTGGTGGTAGTAGCAAGTATTCAAATGAGAACTTTGAAGACTG AAGTGGGGAAAGGTTCCGAGTGAACAGCAGTTGGACTCGGGTTAGTCGATCCTAAGAGATAGGGAAGCTC CGTTTTAATACGTGACAATTTTATTTTTTTTAAAAGTAAGTTTTTGTCATACCTATCGAAAGGGAAACCG GTTAATATTCCGGTACCAGGATTGTGGGTGATGTATTGCGGTAACGCAAATGAACTTGAAGACACTAGCA CGAACCCTGGGAAGAGTTTTCTTTTCTTTTTAACAGCTATATTTTGAGGATTGAGGGGTGAGGGGCAACT TTCATTTTTCTTTTCTCATTTTCTGCGAGAGCGGGAAAGAGGGCCATGGAATCAGTTTGTCTGGAGATAT GGTTCAAAAGCTGGTAAAGCAGGTCAATTTTACTGACATGTCCGGTGCGTTCGTGATGGTCCGTGAAAAT TCAAGGGAAATAATCAGCTTCACGCCTGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAATAGCCT CTAGTTGATAGAACAATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGC TCTAAGGGTTGGGTGTTTCGGGTTATAGAAATAGCTGCCACTCTGAACTTTATTTTTGGGGATATATTAC TTTCGGGTTTTGTATTTCTGGGGGTAAAGATTGGGGAGGAGCTTCTATGACTTTCTAAGGTTTGGCAGGT ATTAGTATCCTTGAAGGAAGGAGGAGAAGAAAGAAAGAGGGGTTCGCTTCTTTTTCTTTTGACTTTTTCG GCTTTCTTTGATCTGTATCGGGGCTTTAGTAATTTTACCGGACCACAATTAACAACCAACTTAGAACTGG TACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGC AATGTGATTTCTGCCCCAGTGCTCTGAATGTCAATGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGG GAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTA ACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCA GCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGGAT AAGTGGGAGACCGTTAAAAGTCGACAGTGAAATACCACTACCTTTATTGTTTTTTTACTTATTTTATGAG GAGGAACTAGGCTTCACCGCCTACCCTTCTGGAATTAAAATGACCTCTTTTGGTTATTGATCCTGGTAAA AGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTGTCCTAAGGG GGGCTCAACGAGAACAGAAATCTCGTGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTA TGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGATCCTGGAAATTTCAGGCTAGAGGTGTCAG AAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGCTCATAGCGACGTTGCTTTTTGATCCTTC GATGTCGGCTCTTCCTATCATACCGAGGCAGAACTCGGTAAGTGTTGGATTGTTCACCCACTAATAGGGA ACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAGTTGTTGTCGTAATAG TAATTCAACTCAGTACGAGAGGAACTGTT >gi|311235630|ref|NG_027647.1| Entomophthora muscae strain ARSEF 3074 28S ribosomal RNA, partial sequence ACTTCATTTCAAATCAAGCAAGGCTACCCGCTGAATTTAAGCATATTAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCGTAGTAATGGCGAATGAACTGGGAAAGGCTCAAATTTAAAATCACTTTTGTGAATTGT AGTTTAAAGGAAATTAGTCTCACAGCAATCGCTAGTTAAGTATTCTGGAATGGATCGTCAAGGAGGGTGA AATTCCCGTATACACTAGATAGAAAGCTGCAAAGAACTTTTATCCTACGAGTCGTGTTGCTTGTTAATGC AGCATTAATTGGGAGGTAAATTCCTTCTAAAGCTAAATATAAGAGAGAGACCGATAGCAAACAAGTACCG TGAGGGAAAGATGAAAGAGAACCCTGAAAAGGGGACTCAAAAGAATGTGAAATTGTCAAAAGGTAAGCGC TAAGAATTGTTCGGAATCTGAATTTCAACTTTTATCAGGGGAAACTCTGTAGTTAAAATTTGGGTGGCTA TAGCTTTTGTTTTGACTACCAAGAATTTTGGGATAGAGATTGTAGGCTTCGGTTTACCTTTTCTTGAACT TGACAATTGACTGTTGAAGCAGGAGTAAAAGTCTCACAAAGGTGTTGATGAGGGGCACTTTCTCTTATAG GCTTGCCTAGAGGAGTCAGGAACTTTATCTTCTTTTTTATGAGTTCTTATAGTTAGAAGGTTCTAAGCGT CCCGTCTTGAAACACGGACCAAGGAGTCTAACAAATATGCAAGTATATGGGCGTCAAACCTCAGATGCGT AATGAAAGTAATTTCAGGTAGGATCTCGCAAGAGTGCACTATCAACCGAACCTTATGGACTTGTTCATAG GATTTGAGTGAGAGCATATTTGTTGGTACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACACGAAGTA ATAGTTTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGACGTAATGTTTTCAACCTATTCTCAAACT TTGAATTTGTAAGAAGGTGTGGATTTCTTAATTGAATTTATGCCTTTGAATAAATGTGTTTCTAGTGGGC CATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGGACGTCGGGTTAAGGTGCCTAAATTTACGCT TATTTGACACCACAAAAGGTGTTAGTTCATATAGACAGCAGGACGGTGGCCATGGAAGTTGGAATCCGCT AAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGATACC TAAACCCGGCCATCATTAAGGATTATGTTTTTAATGATGAGTAGGCAGGCGTGGCGATTGAGATGAAGCC TTGGGGTAACCCTTGGTGGATCAATTACTAGTGCAGATCTTGGTGGTAGTAGCAAGTATTCAAATGAAAC ATCTGAAGACTGAAGTGGGGAAGGGTTCTGTGGTGACATTAGTTGTCCACAGGTTATTCGATCCTAAGGT GTAGGCTAACGCTGTTCAATGAATTGAAGAATAACTTTTTTGTCAAAGGAAGAGTTGTTTTAATATGATT TGACACCGAAAGGGAATACAGTTAATATTCTGTAAATTAGATGTAAGATAAGGCGGTAACGCGGCGAGCC TGGAGACATTAAAATAAATCCTGGGAAGAGTTATCTTTTCTATTTAACATAGTACCTGACCTTGGAAACA GTTTAACTGGAGATAAGGTTGGGGAGGTGGAAGAGCAGCACTTTTTAAGTGAGGTCCGGCGTATTTATTT TAATCCTTGAAAATCCAGAGGAGCTTATATAAAATCTCACACTAAGTCGTACCCATAACCGCAGCAGGTC CTCAAGGTGAACAGCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAAATAGATTCGTAACT TCGGAAAAAGAATTGGCTCTAAGGATTGGGTGGAAATTGGCACTTATATACTTGTAGATATGGTGGCTTT GATGATCTGGTTCGCTAGGTTAGAGAGGTTGCTTTTTTACTTGTTAATTTGTGTTCAATCCACGCTTAAC AATCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGTGAAGGTTT GTAATAATGTTGACACAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGC GCGGGTTAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACG CGCATGAATGGATTAACGAGATTCCCACTGTCCCTATTTACTATCTAGCGAAACCACAGCCAAGGGAACG GGCTTGGAAAAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACA TAGAGGGTGTAGAATAAGTGGGAGGGCTTGCCCGACAGTGAAATACCACTACCTTTATCGTTTTTTTACT TACAGAATTATTAATTAAGGATTTATCTATATTTTAGAAGCTATAAAAATTTGTTCAGGACATTGTCAGG TGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAATAATAACGCAGGTGTCCAAAGGGGAGCTCATTAGGA ACAGAAATCTTAAGTAGAATAAAAGGGTAAAAGCTCTCTTGATTTTGATTTTCAGTGTGAATACAAACCA TGAAAGTGTGGCCTATCGATCCTTTTGTTACTTGGAATTTAAGTCAAGAGG >gi|311235629|ref|NG_027646.1| Hyaloraphidium curvatum strain SAG 235-1 28S ribosomal RNA, partial sequence CTAACCAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAACTTTTAAATCTCGGGGTTTCGC CCCGCGAGTTGTAGTTTGAAGAGGCGTTTTCGGCGACCGGCCCGGCCCAAGTCCCCTGGAACAGGGCGCC GCAGAGGGTGAGAGCCCCGTGGGGCCGCGGCCGGTCTACTGTGATGCGCACTCGAAGAGTCGGGTTGTTT GGGAATGCAGCCCAAAACGGGAGGTAAATTTCTTCCAARGCTAAATACCGGCGAGAGACCGATAGCGAAC AAGTACCGTGAGGGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAACAGCACGTGAAATTGTCAAAAGG GAACCGCTTGAAACCAGTGTTGCTGACCGCCTTCAGCCGGCCCCGGCCGGTGCAYTTGGCGGCGGCAGGC CAGCGTCGGTTTGGCGCGMCGCAGATGGGCGCGGGCAAGGTAGCTCCCTCCGGGGAGTGTTATAGGCCCG CGCCAGYGCGGCGCGCCGGACCGAGGACTGCAGGGCAGCGCCAGGGCTAACCGGCGGCTCGCCCGACCGC GCGATCGACTGCATGCAGACGCTCGCGCGCCTCGGGCCCGACGCCGGGCGTGCCTCTTCTGCCCTTAGGA TGCTGGCGAAATGGTTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAAATATGCGAGTAT TCGGGTGGCAAACCCGCGTGCGCAATGAAAGTGATGCAGGTGCGACCTCTGGGCAGCATCGACCGGTCTG GATATTTTTTGATAGATCTGAGTAGGAGCATATTTGCTGGGACCCGAAAGATGGTGAACTATGCCTGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTT GGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTTCCTCCGAAGTTTCCCTCAGGATAGC AGAAGCTCGTTAATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAAC CTATTCTCAAACTTTAAATATGTAAGACGCCGTCGTTACTTGAGTGAACCTCGGCATTCGAATGAGAGCT TCTAGTGGGCCGTTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTCGGGTTAAGGTGCCGG AATGCACGCTCATCAGATCCCATAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTC GGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAA GCGTGCTACCCATACCCGACCGTCGGGGTGAAAGCGAAGCTCCGACGAGTAGGAGGACGTGGGGGTCGTG ACGAAGCCTAGGGCGCGAGCCCGGGTCGAACGGCCCCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTC AAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGG TCCTAAGAGATAGGGAAGCTCCGTCTCAACGCGCGCCATTCTCGGCGCCGCCTATCGAAAGGGAATCCGG TTAATATTCCGGAACCAGGATGCGGATTTCTGCGGCAACGCAAGTGAACTCGGAGACGCCGGCGGGGGCC CTGGAAAGAGTTTTCTTTTCTTTTTAACGGACGCAACGACCGTGAAATCAGATTATCTGGAGCTACGGTT GCATGTCCGGCAGAGCGTCGCGCCTTTGCGGCGTCCGGTGCGCCCCCGACGGCCCGTGAAAATCCGAGGG AAAGCGTAACTCTCGCGCCTGGCCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTG ATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTGAGG GTTGGGCACGCTGAGCCCAGGTTCGAAGCCCCGGCACTGGACCGGGACTACCCGAGGCTCTTCGGGGCCG AGGGCGGACCCGGACCGGAGCTGGGCGTGGAGGGCCTGGGCATGGGCTCGCCCGTTCGGCGTGCGCTTAA CAACCAACTCAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCG AAAACTTCGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAA GCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGA CGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAA CGGGCTTGGCGGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGA CATAGGGGGTGTAGAATAAGTGGGAGCTTCGGCGCCGGTGAAATACCACTACCCTTATCGTTTTTTTACT TATTCAATTGGGCGGAGCTGCGCTTCACGGCGCACCTTCTGGCGTTAAGGCCGCTTGCGGCTGATCCGGG TTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTA AGGGGAACTCATCGAGAACAGAAATCTCGAGTAGAACAAAAGGGTAAAAGTTCCCTTGATTTTGATTTTC AGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTT >gi|311235628|ref|NG_027645.1| Physoderma maydis strain DUH0007932 28S ribosomal RNA, partial sequence ACTAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTGGAATCTGGGAGCGTTA ATTCGCACTCCGAATTGTAATTTGAAGAAGTGTTATCTGTGGTCGTTCTTGGTAAAAGTCCCTTGGAAGA GGGCATCACAGAGGGTGAGAATCCCGTCTTTGACCAAGTTTCCGTACTGCTTTGTGTTACACTTTCTAAG AGTCGGGTTGTTTGGGAATGCAGCCCAAAATGGGTGGTAAATTTCATCCAAAGCTAAATATTGGCAAGAG ACCGATAGCGAACAAGTACCGTGAGGGAARGATGAAAAGAACTTTGAAAAGAGAGTTAAAAGTACGTGAA ATTGCTGAAAGGGAAACGCTTGAAACTGTTGGATTTTACGATTAGATCAGTCATTTGACTTGACGTATTT TGTTATATGAAGGAGGTGTCAAAACCCCTCATGTGGATGAAGTATGGTAAGTTAGTGGTGCACTCTAATC GTAGAGAGTCAACGTCAATTTTGATTACTGGAAAAAGGTTAAAAGAAGGTAGCTTGATACTTTTAGTGTC AAGTGTTATAGCTTTTAATTTTGATACGGTGATTAAGATTGAGGTTCGCTGTGTTCCCCCTTTTTTTTTT TAGGGGGCGAAGTTGACTTGCTTGTCAACGATTGGCGGCTGATTTAACTAAGCTCCTGGAGTTTTAGATA GTTGGTACGTCAGTTGTTGCTCTTGTAAGTTACTTTTTTTTTTTTAACGCAAAGGATGTTGACTAAACGG TTTTAATCGACCCGTCTTGAAACACGGACCAAGGAGTCTACCAAATGCGCGAGTGTTTGGGTGAAAAACC CATACGCGAAATGAAAGTAAGAGGATGGGATCCCCGTCAAAAAAGGAGCACCATCGGCCGGCTAATAAAC TTTATCAAGTTTTTGGTCTGAGCAAGAGCGTATTTGTTAGGACCCGAAAGATGGTGAACTATGCCTGAAT AGGGTGAAGCCAGAGGAAACTCTGGTGGAAGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTT GGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTTCCGCCGAAGTTTCCCTCAGGATAGC AGAAACTCAATACTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAAC CTATTCTCAAACTTTAAATATGTAAGAAGTTCAGGTTACTTAATTGAACCTGTGACCCTTTCGAATGTGA GTTTCTAGTGGGCCATTWTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTTGAGTTAAGGTGC CAGAATGCACGCTCATTTAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGA AGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGC TTAAGCGTGCTACCTATACTCAACCGTCAAGGTAAATGCGATGCTTTGACGAGTAGGCGGACGTGGGGAT AGTGAAGAAGCTTTGGGCGTGAGCCTGAGTGAAACTGTCTCTAGTGCAGATCTTGGTGGTAGTAGCAAAT ATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAG TCGATCCTAAGAGATAGGTTAACTCCGTTTTAAAGTTGTGTTATTTTTTTTTAACACCTTCCTATCGAAA GGGAATCCGGTTAATATTCCGGAACCAGGATATGGGTGTTGCGGTAACGCAAATGAACTTGGAGACGCCA GCGAGAGCCCTGGGAAGAGTTATCTTTTCTTCTTAACAAACTAAATTTTACCCTGAAATCAGATTACCTG GAGATAGGGTTACATGTTTGGTAGAGCAGTGCATTTTTGTATTGTCCGGTGCGCTCTCGACGGCCCTTGA AAATCCAAGGGAAAGAATCATCTTCATGCCTGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACA GCCTCTAGTTGATAGAATAATGTAGATAAGGGAAGTCGGCAAATTAGATCCGTAACTTCGGGAAAAGGAT TGGCTCTAAGAGTTGGGTATGTTGGGCTGCTTACTGAAGCCAGGAACCTAAGAAGGGACTACTGGAAATT TTCGGATGGAAAGTGGACCTTTCTTTGGGTACTTGTTGTCTAAAGTTTGTAGTATTTCTCTCTTTATTGC AGAGGATTTACCAGTATACAATTAACAACTGGCTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTA ATTAAAACATAGCTTTGCGATGGCCAGAAAGTGGTGTTGACGCAAAGTGATTTCTGCCCAGTGCTCTGAA TGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCC AAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTA TCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTG ACTCTAGTTTGACATTGTGAAAAGACATAGGGGGTGTAGAATAAGTGGGAGCTTCGGCAACAGTGAAATA CCACTACCCTTATCGTTTTTTTACTTATTTGATGGAGTAGAATTGGGAGCAATCCCACTTTCTAGCGTTA AATCACTTTATGTGATGATCTACGTCAAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTG TTAAAAGATAACGCAGGTGTCCTAAGGGGGACTCAACGAGAACAGAAATCTCGTGTAGAACAAAAGGGTA AAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTC GCTGGAAATTTCAGCCTAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGT TTATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATATTGAAGCAGAATTCAATAAG TGTTGGATTGTTCACCCACTAATAGGGAACGTGAGTTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTA CCCTACTGATGAATAGTTGTTGCGATAGTAATTCAACTTAGTACGAGAGGAACCGTTGATTCGGATATTT GGTATTTGCGGTTAGCT >gi|311235627|ref|NG_027644.1| Coelomomyces stegomyiae strain DUH0008925 18 28S ribosomal RNA, partial sequence GATTGCCTCAAATCAAACAAGATCACCTGCTGAACTTAAGCATATTAATAAGCAGAGGAAAAGAAACTAA CAAGGATTTCCCTAGTAATGGCGAATGAAAAGGAAATAGCCCACATGTGAAATCAGTTTGAGAGGAAAAA TTTATTTTTCTGTCTTTAATTGATGTTGTACTGTATTACTTTCACAATTGTATCGTACAATCTCTTTTTC CTAAAGTCTACTGAAATGTAGCACCATAGAGGGTGATAGTCCTTTGTAGGAAAAAAGTAGTGGATGTATG TTCATGTGATTGTTTAAAGAGTAGTATTGTTTGGGATTGCAATGCGAAGATTTTACAAGGGTGGTAGTCT CCATCTAAGGCTAAATAAAGGCAAGAGACCGATAGCAAACAAGTACCGTGAGGGAAAGATGAAAAGAACT CTGAAGAGAGAGTGAAAAGTATGTGAAATTGTCAAAAGGGAAGCATTTGAAGGGGTAAAATGTATTTTAA ATGGAGTGGGGGTTGATTGGGGTGAAGAGAAAGGGAGCAATTTCAATCTTTTCATTCATGATGGACCCAG GAAAGCTTTTTATTCCAGTGTGGTTGGACAATTTATTTTGCATAGTCACAAGGAATTTATAAAAGGTCAC TCTAAATTTTGATTTAAAAACCTCTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTGCAACACAAG TGCAAGTTTAAAAGTTCAAAAACTGATCATTTTAAGCAAAGGGAAAGCAAAAGAGAAGGAGAGGGAGAAA GAGGGGGGTGACCCAATTTTTCTTTTTTCTCCTTCTCAAATGAAAATGAACGCTTCACRCGTGTGCTGCG TGCAATTTCACTGAACTTTTTTCTAAAGTTCAAGTAGAGCATTTTTGTTGCGACCCGAAAGATGGTGAAC TATGCCTGTATAGAATGAAGCCAGAGGAAACTCTGGTGGAAGTTCGTAGCGATTCTGACGTGCAAATCGA TCGTCAAATATGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTTCCACTGAAGTTTCC CTCAGGATAGCAGAAATGGGAAGATTTGTTTTTTTTATTAGTTTTATGAGGTAAAGCGAATGATTAGAAT GGTTGGGGATTTAAATTTGATCTCTGCCTTATTCTCAAACTTTGAATGTGTAAACAGGAAGAGCAGAAAT CATTTATTTTATTTCGCTCTTTGATATTAAAGAAATAAATCCATTTCTAGTGGGCCATTTTTGGTAAGCA GAACTGGCGATGTGGGATGAACCAAAAGCAAAGTTAAAGAGCCTAAATACATGCTTATTTTGATACCATA AAAGGTGTTATCTCATCTAGACAGCAGGGCAGTGGCCATGGAAGTCGGCATCTGCTAAGGAGTGTGTAAC AACTCACCTGCCGAATGAAATAGCCCTGAAAATGGATGGCGCTTCAGCATGTTTCTTATACTTTGCTGTG GGGATAAATTGTTTGTAGATATCCCCACATGTAAGTGGACGTGAAGGCTATGTTTCAAATGAAAGAGAAA TCTTGYATTTCCATTTCATTGTATCATGTGATAAAGCATACACGTGAGTGTGTGTGAAACAGCCTTTAGT GCAGATCTTGGTGGTAGTAGCAATGATTCAAATGAAAACTTTGAAGACTAAAGTGGAGAAGGGTTCCATA TCAACTGTATTTGTATATGGGTAAGTCGGTCCTAAGGGTATAGTTCAATGACTATATAACAAATTTGTGT TGTACTGTTTTTTTTTTTGGTCTTTTTTTTTTAAAAGAGATCATTGCAAAAACAAACACTGACCCGAAAG GGAATTTGGTTTAAATTCCAAAACCTGATTTAGAGCGTGATTAAAGTGATATTGGTGACAAATATGAACT TGGTGATTCGTCATCCATTGGCCTAGAAAGAGTTTTCTTTTCTTTTTAACTTGGCAATGTTTTAATTTTT TCGCAAGAGAAAATGACACAAAAAACATCACTATGAAATCAATTTAGTTGGTGAAGTAGTCATGTGCCAG GAAGAGCAGATGTATTTTTTATATCTGTCTGGAGCCCAGTGGGTGGCCCTTGAAAAACCAAGGGAATGTG GTTGGGTGAGATGAGAAACTTTTCTTATCTTGTTTAGCTAATTTCACGTCTCATCAGTCCGTACCCATAT CCGCATCAGGTCTCCAAGGTGAATAGCCTCTAGTTGATAGAAGAATGTAGATAAGGGAAGTCGGCAAAAT AGATCCGTAACTTTGGGAAAAGGATTGGCTCCTATAGTTGGGTTGAGAAAGAGAGAGTATCACTTTTTCT TTCTCATTAAGGTTTGGGTGTATGAAATTTATTTTTCATTTTAAAAAAGCACCTTTCCTCGTATCAACTG AATAGGAACTGAAACGGACTAGAGGAATCTGACTGTCTAATTAAAACATAGCTTTGTGATAGTAATAAGA TTACATTTCCACAAAGTGATTTCTGCCCAGTGCTCTGAATGTTAAAGAAAAAGAAATTTTCCCAAGCGCR GGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGC ATGAATGGATAAACGAGATTCCTACTGTCCCTATCTACCATCTAGCGAAACCACAGCCAAGGGAACGGGC TTGGCAATTGAAATAGGGGAAAGAAGACCCTGTTGAGCTTGACTCTRGTTTGGAATCTGAGAAAGAGCAT TTCGGTTGCAGCATAAGTGGGAGTTGGGAAAGCAATTTCTTGACGCTCTTGAGATACCACTACCTTAATT GCTTTTTTTCTAAAATGATCATAATGGAAGAAGAGTGTCTATAACTTGGTTTATAACACGTGCATTAAGT GAGAGGGAGGTATTCCTTTCTTTCTCATGACCAATTTGACTAGAATATTTATTCTAGATTTCATTGAAAC CTCCAGATGGGGAGTTTGGCTGGGGCGGCACATTTGCTAAATCATAACGCAAGTGTCCTAAGGGCAACTC ATTGAGAACAGAAATCTCATGTGGAATAAAAGGGTAAAAGTTGCCTTGATYTTTTGATTTTCAGTAAAAA TACAAACCATGAAAGTGTGGCCTATCGATCCTTTAAATAATTTAAAAGTAGCGAGATAATGTATCATCTA CTTAGGGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTG CTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATATTGCCGCAACTGTCAATAAGTGTTGGATTGTTCA CCCATTAAAAGGGAACGTGAGCTGGGTTTAGACCGTCGTAAGACAGGTTAGTTTTACCCCTATTTCGTTT ATAATTATTCACATGATATCATCACAGTACCTTCATGAGAGGAATTCAATATAGTACGAGAGGAACTATT GAATCACATCCTTGGTATTTACAGTTGGTTGAAAAGCCAGTGCTGTAAAGCTAACA >gi|311235626|ref|NG_027643.1| Dothidea insculpta strain CBS 189.58 28S ribosomal RNA, partial sequence CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAATAGCTCAAATTTGAAAGCTGGCTTATGGCCCGCA TTGTAATTTGTAGAGGATGCTTTTAGGCAGCCGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGG TGAGAATCCCGTATGTGACCGGCTCTGGCACCTTATGTAAAGCTCCTTCGACGAGTCGAGTTGTTTGGGA ATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACTGGCGAGAGACCGATAGCGCACAAGT AGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAG CGCTTGCAATCAGACTTGGACTTGGCTGTTCAACAGGTCTTCTGACCTGCCTATTCAGTCTTGTCCAGGC CAGCATCAGTTTCGGCGGCCGGATAAAGGCCCTGGGAATGTGGCTTCTCCTTCGGGGGAAGTGTTATAGC CCAGGGTGTAATACGGCCAGCTGGGACTGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAA GCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTAGGGTGTCAAACCCTTACG CGTAATGAAAGTGAACGGAGGTGAGAACCCGCAAGGGTGCATCATCGACCGATCCTGATGTCTTCGGATG GATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGA AAGACTAATCGAACCATCTAGTAGCTGGTTCCTNCCGAAGTTTCCCTCAGGATNGCAGTAACGTTTTCAG TTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAACTTTAA ATATGTAAGAAGTCCTTGTTTCTTAGTTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTT TGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATACACGCTCATCAG ACACCACAAAAGGTGTTAGTNCATCTAGACAGCNGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAN TGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACC TCGCCGCCATGGTAGATTCGAAGCCATGGCGAGTAGGCAGGCGTGGAGGTCA >gi|311235625|ref|NG_027642.1| Gloiocephala aquatica strain CIEFAP 50 28S ribosomal RNA, partial sequence TACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCG AGTGAAGAGGGAAAAGCTCAAATTTAAAATCTGGCAGCTTCGCTGTCCGAGTTGTAATTTAGAGAAGTGT TACCCGCGTTGGACCGTGTACAAGTCTCCTGGAACGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGAC ACGGACTACCAAGGCTTTGTGGTATGCTCTCAAAGAGTCGTGTTGTTTGGGAATGCAGCACTAAATGGGT GGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCAAACAAGTACCGTGAGGGAAAGATGA AAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTAAAGTCCAGTCGC GTTGGTTGGAAATCAGTCTTGCTTTTGCTTGATGTACTTTCTAATTGACGGGTCAACATCAATTTTGATC GTTGGATAAAGGTTGAAGGAATGTGGCATCTTCGGATGTGTTATAGCCTTTGATTGTATACAACGGTTGG GATTGAGGAACTCAGCACGCCGAAAGGCCGGGTCTTGTACCACGTTCGTGCTTAGGATGTTGGCATAATG GCTTTAATCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTATTTGGGTGGAAAAC CCGAGTGCGTAATGAAAGTGAAAGTTGAGAACTCTTTAGAGTGCATCGACGCCCGGACCAGACGTTTTCT GACGGCTCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCT >gi|311235624|ref|NG_027641.1| Anthracophyllum archeri strain PBM 2201 28S ribosomal RNA, partial sequence ACTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGAGGG AAAAGCTCAAATTTAAAATCTGGCGGTCTCCGGCTGTCCGAGTTGTAATTTAGAGAAGTGTTACCCGCGT TGGACCGTGTACAAGTCTCCTGGAATGGAGCGTCATAGAGGGTGAGAATCCCGTCTCTGACACGGACTAC CAAGGCTTTGTGGTGCGCTCTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTC CATCTAAAGCTAAATATAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTT TGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCAGG GATCAGCCTTCCTTTTGGTTGGTGTACTTCCTGGTTGACGGGTCAGCATCAGTTTTGACCGTTGGATAAA GTCTAGAGGAATGTGGCATCTTCGGGTGTGTTATAGCCTCTGGTCGTATACAACGGTTGGGACTGAGGAA CTCAGCACGCCGCAAGGCCGGGTCTTTGACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCG ACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGT AATGAAAGTGAAAGTTGAGATCTTTGTCGTGAAGAGCATCGACGCCCGGTCCAGACCTTTTGTGACGGTA CCGCGGTTGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGA AACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAG ACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTGTCAGA TTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGTAACAACCTTAACCTATTCTCAAACTTTAAA TATGTAAGAACGAGCCGTCTCTTGACTGGACCGCTCGGCGATTGAAGAGTTTCTAGTGGGCCATTTTTGG TAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATTCACGTTCATCAGACA CCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGT GTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAACGTGATACCCATACCTCG CCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGTCGGTGAAGAAGCCTTGGCAGCAA TGCTGGGTGGAACGGCCTCTAGTGCAGATC >gi|311235623|ref|NG_027640.1| Chrysomyxa arctostaphyli strain CFB 22246 28S ribosomal RNA, partial sequence TAACGGCGAGTGAAGAGGGAAAAGCCCAAATTTGTAATCTGGCTCTTTTCATAAGGGTCCGAGTTGTAAT TTTGAGAACTGTTTTCCGTGCTGGACCATGTACAAGTCTGTTGAAAAACAGCATCATTGAGGGTGATAAT CCCGTATATGATATGGACTACCAGGGCAATGTGATACAGTCTCTAAGAGTCGAGTTGTTTGGGAATGCAG CTCAAAGTGGGTGGTAAATTCCATCTAAGGCTAAATATAGGTGAGAGACCGATAGCAAACAAGTACCGTG AGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAACAGTACGTGAAATTGTTAAAAGGGAAACATTTGA AGTTAGACTTGTTATTGTTGGTTCAGCTCTTTTTATAAGGGTGTATTCCGATGGTTAACAGACCAGCATC AATTTTTGAGTGTAGATAAGGGTCTTGAGAATGTAGCAACCTTGGTTGTGTTATAGATCTTGACTTGATA TAATGCTTAGGATTGAGGAATGCAGTGAGCTTCTCTTTTGAAGTGGATGTTTTTGATGTCTTCTCACTAC GGATGTTGGTGTAATAGCTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCTTGCGAG TATTTGGGTGTTGAAACCCTTATGCGTAATGAAAGTGAATGTAAATGAGATCCTTAACGGGTGCATCATT GACCAGTCCTGATTATTTATATGAAGGTACTGAGTAAGAGCAAGTATGTTGGGACCCGAAAGATGGTGAA CTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAAGCTCGTAGCGGTTCTGACGTGCAAATCG ATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTC CCTCAGGATAGCAGAGATTCATATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGTAA TATCCTTAACCTATTCTCAAACTTTAAATATGTAAGACGCTCCTGNTTCTTAATTGAACGTGAGCATGTG AATGAGAATCTCTAGTGGGCCATTTTNGGTAAGCAGAACTGGCGATGCNGGATGAACCGAACGTGANGGT AANGTGCCGGAATATACACTCATCAGACACCACATAAGGTGTTAGTTCATCTAGACAGCC >gi|311235622|ref|NG_027638.1| Boletellus projectellus strain MB 03-118 28S ribosomal RNA, partial sequence TGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAG CGGGATGAGCTCAAATTTTGAATCTGGCGGTCTTTGGCCGTCCGAGTTGTAATCTAGAGAAGCGTCTTCC GCGCTGGACCGTGTACAAGTCTCCTGGAAGGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACAWGGA CTACCAGTGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAA ACTCCATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGA ACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGATGTCAGTCACGTCGGC CAGGGATCAACCTTGCTTCTTTGCTGGGTGCATTTCCTGGTCAACGGGTCAGCATCAGTTTCGCTCGCCG TACAATGGCAAAGGGAACGTGGCACTCTTCGGAGTGTGTTATAGCCTTTCGTCGTATGCGGTGGTTGGGA CTGAGGAACTCGGCACGACTTCGGTCTGTGTCTAGGATGCTGGCATAATGGCCTTAAGCGACCCGTCTTG AAACACGGACCAAGGAGTCTAACTTGCCTGCGAGTGTTTGGGTGAAAAACCCGGGCGCGTAATGAAAGTG AAAGTCGAGACCTCTGTCGTGGAGGGCACCGACGCCCGGACCTGAGTCTTTGACAAAGGATCTGCGGTAG AGCATGCATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGT GGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGA ACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATGTATCAGATTTATGTG GTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAG AACGAGCCGTCTCTTTGTTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAA CTGGCGATGCGGGATGAACCGAACGGGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAG GTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACT CACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCACACCTCCCCGTCAGCG TTGAAGTGACGCGCTGACAGTAGGCAGGCGTGGAGGTCGTGAAGAAACCTTGGCAGCGATGCTGGGTGGA ACCGCCTCTAGTGCA >gi|311235621|ref|NG_027637.1| Suillus pictus strain MB03-002 28S ribosomal RNA, partial sequence TAAGCATATCAATAAGCGGAGGAAAAGAAACTAACGAGGATTCCCCTAGTAACTGCGAGTGAACCGGGAA AAGCTCAAATTTTGAATCTGGCGGTCTTCAGGCCGTCCGAGTTGTAATCTAGAGAAGCGTCTTCCGCGCT GGACCGTGTATAAGTTTCCTGGAATGGAACGTCGTAGAGGGTGACAATCCCGTCTTTGACACGGACTCCC AGGGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAATAGGGTGGTAAATTCC ATCTAAAGCTAAATACAGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTT GGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGATGTCAGTCGCATCGTCCGGGG ATCAGCCTCGCTTTTTTGCTCGGCGTACTTCCTGGTCGATGGGTCAGCATCGGTTTCGACCGTCGGAAAA TGGCTCGAGGAACGTGGCACTCTTCGGGGTGTGTTATAGACTCGGGTCGAATACGACGGTCGGGACCGAG GAACTCAGCACGACCTTCGGGTTCGGGGCTTCGGCTCACGTTAGCGTGCTTAGGATGCTGGCATAATGGC CTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACTCGCGTGCGAGTGTTTGGGTGATTAAAAC CCGGGCGCGTAATGAAAGTGAAAGTCGAGACCTCTGTCGTGGAGGGCACCGACGCCCGGACCAGAGCTTT TGCGAAGGATCTGCGGTAGAGCACGCGTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGA AGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATA GGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACT CATTATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTCGAAACGACCTTAACCTATTCTC AAACTTTAAATATGTAAGAACGAGCCGTCTCTTGATTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGC CATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTAAGGTGCCGGAATACACGCT CATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAACCCGCT AAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACC CATACCTCCCCGTCGGCGTTGAAGTGACGCGCCGACGAGTAGGCAGGCGTGGAGGTCGTGAAGAAGCTTT GGCAGCGATGCTGAGTGGAACCGCCTCTAGTGCAGATCTG >gi|311235620|ref|NG_027636.1| Boletellus shichianus strain HKAS43373 28S ribosomal RNA, partial sequence GAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGAGGGAAGAGCTCAAATTTTGAATCTGG CGGTCTCTGGTCGTCCGAGTTGTAATCTAGAGAAGCGTTTTCCGCGTTGGATCCGTGTACAAGTCTCCTG GAAGGGAGCGTCACAGAGGGTGAGAATCCCGTCTTTGACACGGACTGCCAGTGCTATGTGATGTGCTCTC AACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATACAGGCG AGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTAC GTGAAATTGCTGAAAGGGAAACGCTTGATGTCAGTCGCGTCGTCTGGGGATCAACCTTGCTTTCTTTGCT GGGTGCATTTCCTGGTTGGACGGGTCAGCATCAGTTTCAGTCGCCATACAATGGCAAGGGGAATGTGGCA CTCTTCGGAGTGTGTTATAGCCTCTTGTCGACATGTGGCGGTTGGGACTGAGGAACTCGGCACGACCCTC GGGTCCTGTGTCCTAGGATGCTGGCATAATGGCCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTC TAACATGCCTGCGAGTGTTTGGGCGGCAAACCCGGGCGCGTAATGAAAGTGAAAGTCGAGACCCCTGTCG TGGGGGGCATCGACGCCCGGACCTGAGTCTTTGACGACGGATCTGCGGTAGAGCATGTATGTTGGGACCC GAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCT GACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTC CTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTGTGTCAGATTTATGTGGTAAAGCGAATGATTAGAG GCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTTGTT GGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAAC CGAACGGGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACA GCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAG CCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCACACCTCCCCGTCAGCGTTGAAGTGACGCGCTGACG AGTAGGCAGGCGTGGAGGTCGTGAAGAAGCCTTGGCAGCGATGCTGGGTGGAACCGCCTCTAGTGCAGAT CT >gi|311235619|ref|NG_027635.1| Paxillus vernalis strain MB062 28S ribosomal RNA, partial sequence TAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGATG AGCTCAAATTTTGAATCTGGCGGTCTTCAGGCCGTCCGAGTTGTAATCTAGAGAAGCGTCTTCCGCGCTG GACCGTGTACAAGTCTCCTGGAAGGGAGCGTCGCAGAGGGTGAGAATCCCGTCTTTGACACGGACTGCCA GTGCTATGTGATGCGCTCTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAATCGGGTGGTAAACTCCA TCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTG GAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAGGTCAGTCGCGTCGGACGGGGA TCAACCTTGCTTCTCGCTCGGTGTACTTCCTGCTCGACGGGTCAGCATCAGTTTCGATCGCCGTACAAGG GTCGAGGGAATGTGGCACTCCTCGGAGTGTGTTATAGTCCTCGGTCGCATGCGGTGGTCGGGACTGAGGA ACTCAGCACGACCCCTCGAGGGTTCGGGGCCACGGCCTACGTTAACGTGCTTAGGATGCTGGCATAATGG CCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGCAAAACT CGAGCGCGTAACGAAAGTGAAAGTCGAGACCTCTGTCGTGGAGGGCATCGACGCCCGGACCTGAGTCTTT GACGACGGATCTGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGA AGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATA GGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACT CGTTGATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTCGAAACGACCTTAACCTATTCT CAAACTTTAAATATGTAAGAACGGGCCGTCTCTTGGTTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGG CCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGAGGTTAAGGTGCCGGAATACACGC TCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGC TAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTAC CCACACCTCCCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGTCGTGAAGAAGCCT TGGCAGCGATGCTGG >gi|311235618|ref|NG_027634.1| Pleurotus ostreatus strain TENN 53662 28S ribosomal RNA, partial sequence TAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGTGGTC TTTGGCCATCCGAGTTGTAATCTAGAGAAGTGTTATCCGCGCTGGACCGTGTACAAGTCCCCTGGAATGG GGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTTGTGATGCACTCTCAAAGAG TCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGAC CGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAA TTGTTGAAAGGGAAACGCTTGAAGTCAGTCGCGTCTGCCAGGGATCAACCTTACTTTTGTGAGGCGTACT TCCTGGTTGATGGGTCAGCATCAGTTTTGGTCGCTGGATAAAGGTCAGAGAAATGTGGCACCTTCGGGTG TGTTATAGTCTTTGATCAGATACAGTGGCTGGGACTGAGGAACTCAGCGCCGCAAGGCTGTCTTAGGATG CTGGCAAAATGGCTTTAATCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTT GGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGGGATCCCTGTCATGGGGAGCACCGACGCCCAT ACCAGAAGTTTACGGACGGATATGCGGTGGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCT GAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGA ATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGA TAGCAGAAACTCATATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTA ACCTATTCTCAAACTTTAAATATGTAAGAACAAGCCGTCACTTAATTGGACCGCTTGGCGATTGAGAGTT TCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGG AATTCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATG >gi|311235617|ref|NG_027633.1| Grifola sordulenta strain TENN 55054 28S ribosomal RNA, partial sequence AGGATTCCCTATAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTTTGGCCGTCCG AGTTGTAGTCTGGAGAAGTGCTTTCCGCGCTGGACCGTGTACAAGTCTCTTGGAACAGAGCGTCATAGAG GGTGAGAATCCCGTCTTTGACACGGACCCCCAGTGCTTTGTGATGCGCTCTCGAAGAGTCGAGTTGTTTG GGAATGCAGCTCAAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACA AGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTATGTGAAATTGCTGAAAGGG AAACGATTGAAGTCAGTCGCGTTGGCCGGGACTCAGCCTTGCTCACGCATGGCGCATTTTCCGGTCGACG GGCCAGCATCGATTTTGACCGTTGGATAAAGGCTGGGGGAATGTGGCACCTTCGGGTGTGTTATAGCCCC TGGTCACATACGACGGTTGGGATCGAGGAACTCAGCACGCCTTTATGGTCGGGGTTCGCCCACGTACGTG CTTAGGATGCTGGCGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTG CGAGTGTTTGGGTGGAAAACCCGAGCGCGCAATGAAAGTGAAAGTTGAGACCCCTGTCGTGGGGGGCATC GACGCCCGGACCAGACCTTCTGTGACGGCTCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGA ACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATC GATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTT CCCTCAGGATAGCAGAAGCTCATATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAA ACAACCTTAACCTATTCTCAAACTTNAAATATGTAAGAACGAGCCNGTCACTTGATTGGACCG >gi|311235616|ref|NG_027632.1| Gymnopus dryophilus strain TENN 57012 28S ribosomal RNA, partial sequence GAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGAGGGAAAAGCTCAAATTTAAAATCTGGCAGTC TTTGATTGTCCGAGTTGTAATTTAGAGAAGTGTTACCCGTGTTGGACCGTGTACAAGTTTCCTGGAATGG AACGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGATCCCAATGCATTGTGGTATACTTTCGAAGAGT CGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGGGAGAGACC GATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAAT TGCTAAAAGGGAAACGCTTGAAGTCAGTCGCGTTGTCCAGGGATCAGCCTTCCTTTTGGTTGGTGTACTT CCTGTTTAACGGGTCAGCATCAGTTTTGATCAATGGATAAAAGTGAGAGGAATGTGGCATCTTCGGGTGT GTTATAGCCTTTTATTGTATACATTGGTTGGGACTGAGGAACTCAGCACGCCGCAAGGCCGGGTTTTTAA CCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACGGACCAAGGAGTC TAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTAGGATCCCTGTCG TGGGGAGCACTGACGCCCTGTCCAGAGCTTTTGTGACGGTACAGCGGTTGAGCATGTATGTTGGGACCCG AAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTG ACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCC TGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTGTCAGATTTATGTGGTAAAGCGAATGATTAGAGGC CTTGGGGTTGTAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCTGTCTCTTAATTGG ACTACTCGGCGATTGAAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACC GAACGCGAGGTTAAGGTGCCGGAATTCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAG CAGGACGGTGGC >gi|311235615|ref|NG_027631.1| Collybia tuberosa strain TENN 53540 28S ribosomal RNA, partial sequence AAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGGCG GTCCCTGTGGCCGTCCGAGTTGTAATCTAGAGAAGTGTTATCCGCGCTGGACCGTGTACAAGTCTCCTGG AACGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAGGGCTTTGTGATATGCTCTCA AAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGA GAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACG TGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGTTCGGGGATCAACCTTGCTCTTTTGCTTG GTGTACTTTCCGTCTAACGGGTCAGCATCAATTTTGACCGATGGATAAAGGTCAGGGGAATGTGGCATCT TCGGATGTGTTATAGCCCTTGGTTGCATACRTCGGTTGGGATTGAGGAACTCAGCACGCCGCAAGGCCGG GTCTTTGACCACGTACGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACGGACC AAGGAGTCTAACATGCCCGCGAGTGTTTGGGTGGAAAACCCGGACGCGTAATGAAAGTGAAAGTTGAGAT CCCTGTCGTGGGGAGCATCGACGCCCGGACCAGACCTTTTGTGACGGTCCCGCGGTAGAGCGTGTATGTT GGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAG CGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAG CTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTTCAGATTTATGTGGTAAAGCGAATGAT TAGAGGCCTTGGGGTTGCAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCT TGATTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGC >gi|311235614|ref|NG_027630.1| Flammulina velutipes strain TENN 52002 28S ribosomal RNA, partial sequence AACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGAGGGAAAAGCTCAAATTTAAAATCTGGCAGCTTC GCTGTCCGAGTTGTAATTTAGAGAAGTGTTGCCCGCGCTGGACCGTGTACAAGTCTCCTGGAATGGAGCG TCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTCCCAGTGCATTGTGGTACGCTCTCAAAGAGTCGT GTTGTTTGGGAATGCAGCACTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGAT AGCAAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGT TGAAAGGGAAACGCTTAAAGTCCAGTCGCGTCGGTTGGGAATCAGTCTCGCTCTTTTGCTTGACGTACTT CCTAGCTGACGGGTCAGCATCAGTTTTGATCGTTGGATAAAGGTTGGAGGAATGTGGCACCTTCGGGTGT GTTATAGCCTCTGGTTGTATACAACGGTTGGGACTGAGGAACTCAGCACGCCGAAAGGCCGGGTACTTGT ACCACGTACGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACGGACCAAGGAGT CTAACATGCCTGCGAGTATTTGGGTGGAAAACCCGAGTGCGCAATGAAAGTGAAAGTTGAGAACTCTTTA GAGTGCATCGACGCCCGGACCAGACGTTCTCTGACGGATCCGCGGTAGAGCATGTATGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGAC GTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGAAACTCGTATCAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTT GGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGACCGAGCCGTTTCTTGATTGAACC GCTCGACGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAAC GCGAGGTTAAGGTGCCGGAATTCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGG ACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGC >gi|311235613|ref|NG_027629.1| Clavaria zollingeri strain TENN 58652 28S ribosomal RNA, partial sequence AACTAACCAGGATTCCCTTAGTAACTGCGAGTGAAGAGGGAAGAGCTCAAATTTGTAATCTGGCAGTGCT GCTGTCCGAGTTGTAAATTCAAGAAGTGTTATCCAATGCTGGACCCATGCACAAGTCTCTTGGAAAAGAG CATCATAGAGGGTGACAATCCCGTCTCTGGCATGGACTCCCAGCACTCCCTGTTACACTTTCAATGAGTC GAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCG ATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATT GTTGAAAGGGAAACACTTGAAGTCAGTCATGTTCATCAGAAATCAACCTGACCCTTGTGGTCTTGTGCAC TTTCTGGTGAGCAGGCCAGCATCAATTTTNGACCACTGCAAAAAGGCTTAGGAAAATGTAGCATCCTTCG GGGTGTGGTATAGTCCTGAGTTGGATANCAGTGGTTGGGATTGAGGAACTCAGTGTGACCNTTCGGGNTT TGGAGGGKTTTACTTCTCACAACACACACTTAGGATGCTGGCGTAATGGCTTTAATTGACCCGTCTTGAA ACACGGACCAAGGAGTCTAACATACATGCAAGTATTTGAGTGGAAAACTCAAGTGCGCAATGAAAGTGAA AGTTGAGAACCYTGTCGTGGGGTGCACCAACGCCCGGTCCAGAGCTTCTGTGACGGATCTGCGGTAGAGC ATGCATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGA AGCTCGCAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACC ATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGACACTCATAGCTCAGATTTATGTGGTA AAGCGAATGATTAGAGGCCTTGGGGTTGGAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGATG AAACTGTTTCTTAATTGAACTGTTTCGTGATTGAAGAGTGTCTAGTGGGCCATTTTTGGTAAGCAGAACT GGCGATGCGGGATGAACCGAACGCAAGGTTAAAGTGCCGGAATCTACGCTCATCAGACACCACAAAAGGT GTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTTGGAATCCGCT >gi|311235612|ref|NG_027628.1| Rhodocollybia maculata strain PBM 2481 28S ribosomal RNA, partial sequence CTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGAGGGA AAAGCTCAAATTTGAAATCTGGCAGTCTTTGATTGTCCGAGTTGTAATTTAGAGAAGTGTTACCCGTGTT GGCCCGTGTACAAGTTTCCTGGAACGGAACGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGATTACC AATGCATTTGTGGTATGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTC CATCTAAAGCTAAATATTGGGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTT TGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGTTGGG GATCAGCCTTCCTTTTGGTTGGTGTACTTCCTAATTGACGGGTCAGCATCAGTTTTGACCGATGGATAAG AGCTTGAGGAATGTGGCATCTCCGGATGTGTTATAGCCTCTTGTTGTATACATTGGTTGGGACTGAGGAA CTCAGCACGCCGCAAGGCCGGGTTTTTAACCACGTACGTGCTTAGGATGCTGGCATAATGGCTTTAATCG ACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACTCGAGCGCGT AATGAAAGTGAAAGTTAGGATCTCTGTCGCGGAGAGCACTGACGCCCGGCCCAGACCTTTTGTGACGGTG CCGCGGTTGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGA AACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAG ACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCAATTGTCAG ATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGTAACAACCTTAACCTATTCTCAAACTTTAA ATATGTAAGATCGAGCTGTCTCTTAATTGGACTGCTCGGTGATTGAAGAGTTTCTAGTGGGCCATTTTTG GTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATTCACGCTCATCAGAC ACCACAAAAGGTGTTAGTTCAT >gi|311235611|ref|NG_027627.1| Marasmius alliaceus strain TEMM 55620 28S ribosomal RNA, partial sequence GGGTGGCTGCGTTAATTCGCTCTGCNTGCAATAAGATCTTATAGAGTAGGGACGTCTGCTTTCTAACCGT CTGTGTATGCGGACAATTTACTGACTATTTGACCTCAAATCAGGTAGGACTACCCGCTGAACTTAAGCAT ATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGAGGGAAAAGCTCA AATTTAAAATCTGGCAGTCTCCGATTGTCCGAGTTGTAATTTAGAGAAGTGTTACCCGCGTTGGACCGTG TACAAGTCTCCTGGAATGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTACCAAGGCTTT GTGGTGCGCTCTCGAAGAGTCGTGTTGTTTGGGAATGCAGCACTAAATGGGTGGTAAATTCCATCTAAAG CTAAATATTGGGGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAG AGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCGGGGATCAGCCT TCCTTTTGGTTGGTGTACTTCCTGGTTGACGGGTCAGCATCAGTTTTGACCGGTGGATAAGAGCTTGAGG AATGTGGCATCTTCGGGTGTGTTATAGCCTCTTGTTGTATACATCGGTTGGGACTGAGGAACTCAGCACG CCGCAAGGCCGGGTTTTTAACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTT GAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGT GAAAGTTAGGATCTCTGTCGCGGAGAGCACTGACGCCCGGTCCAGACCTTTTGTGACGGTACCGCGGTTG AGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGT GGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGA ACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTGTCAGATTTATGTGG TAAAGCGAATGATTAGAGGCCTTGGGGTTGTAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGA ACGAGCCGTCTCTTAATTGGACCGCTCGGCGATTGAAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAA CTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATTCACGCTCATCAGACACCACAAAAG GTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACT CACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGATACCCATACCTCGCCGTCAGCG TTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGTCGGTGAAGAAGCCTTGGCAGTGATGCTGG >gi|311235610|ref|NG_027626.1| Coprinus comatus strain ECV 3198 28S ribosomal RNA, partial sequence TCTGCTTCTAACTGTCCTATTAAAGGACAACAATATTGAACTTTTGACCTCAAATCAGGTAGGACTACCC GCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGA AGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTTTGGCTGTCCGAGTTGTAATCTAGAGAAGTGTTAC CCGCGTTGGACCGTGTACAAGTCTCCTGGAATGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACG GACTACCAAGGCTTTGTGGTATGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGT AAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAA GAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGYTTGAAGTCAGTCGCGTTG GCTTGGGATCAGCTTCGCTTTTGCGTGGTGTACTTCCTAGTTGACGGGTCAGCATCAATTTTGACCGCTG GAAAAAGGTTTGGGGAAGGTGGCAGCTTAGGCTGTGTTATAGCCCCTTGTCATATACAGCGATTGGGATT GAGGTACTCAGCACGCCGCAAGGCCGGGTTTCGACCACGATCGTGCTTAGGATGCTGGCATAATGGCTTT AAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAG CGCGTAATGAAAGTGAAAGTTGAGATCCCTGTCGTGGGGAGCATCGACGCCCGGACCAGAACTTTTGGGA CGGATCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGC GAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATAT CAGATTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTT TAAATATGTAAGAACGAGCCGTTTCTTGACTGAACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTT TGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATTCACGCTCATCAG ACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAG TGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGATACCCATACC TCGCCGTCAGCGTTGAAGTGACGCGCTGACGAGTAGGCAGGCGTGGAGGTCAGTGAAGAAGCCTTGGCAG TGATG >gi|311235609|ref|NG_027625.1| Pluteus romellii strain ECV 3201 28S ribosomal RNA, partial sequence GGGTCACCATGTGCAAGCCTCCAGCTTGGTATTGATAGATGTCTTACCAGGTTGTAGCACAATGTGCAAG GTGCTCAGCTCACAGCTGTCCCTCAGGACAACTAAATCGACGATTTGACCTCAAATCAGGTAGGACTACC CGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTG AAGCGGGAAAAGCTCAAATTTAAAATCTGGCAGTCTCTGGCTGTCCGAGTTGTAAACTAGAGAAGTGTTA TCCGTGCTGGACCATGTATAAGTCTCCTGGAACGGAGCGTCACAGAGGGTGAGAATCCCGTCTTTGACAT GGACTCCCAGTGCATTGTGATGCGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGG TAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAA AGAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGCTTGAAGTCAGTCGCATT GGCTGGGGATCAACCTTGCTTTTGTGAGGTGTACTCTCTAGTTAATGGGTCAGCATCAATTTTGACTGCT GGAAAAAGGTCAGGGGAATGTGGCATCTCAGGATGTGTTATAGCCCCTAATCATATACAGTGGTTGGGAT TGAGGAACTCAGCACCCGTAAGGTGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAA CACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGTAAACCCATGCGCGTAATGAAAGTGAAA GTTGAGATCTCTGTCATGGAGAGCATCGACGCCCGGACCAGACCTTTTGTGACGGATCCGCGGTAGAGCA TGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAG GCTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCA TCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCACTTCAGATTTATGTGGTAAAG CGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAG CCGTCTCTTGATTGGACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG ATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATTCACGCTCATCAGACACCACAAAAGGTGTTA GTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTG CCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGATACCCATACCTCGCCGTCAGCGTTGAAG TGACGCGCTGACGAGTAGGCAGGCGTGGAGGTCAGTGAAGAAGCCTTGGCAGTGATGCTGGGTGAAACGG CCTCTAGTGCA >gi|311235608|ref|NG_027624.1| Diploschistes ocellatus strain Spain 995 28S ribosomal RNA, partial sequence GTAATTTGTAGAAGGTGCTTCGGGTGCGACGGCGGTCCAAGTTCCTTGGAACTGGACGTCATAGAGGGTG AGAATCCCGTACACGGCCGATCGTCAAGCCCGTGCGAAGCCCTTTCGACGAGTCGAGTTGTTTGGGAATG CAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATCTGCCGGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGC TCGCAACCAGACTCGTCCGCGGGCGCTCAGCCGTCCCACGGGGCGGTGCACTCGCCCGCGGCCGGGCCAG CATCGGTTTCGGCGGTCGGACAAAGGCCCGGGGAACGTGGCTTTTCGAAAGAAAAGTGTTATAGCCTCGG GTGCAATGCGGCCAGCCGGGACCGAGGACCGCGCTCTTTTGCTAGGATGCTGGCGTAATGGTTGCCAGCG ACCCGTCTTGAAACACGGACCAAGGAGTCGACCAACCGCGCGAGTGTTTGGGCGTAAAACCCATGCGCGC AATGAAAGTGAACGGAGGTGGGAGCCCCCTCTTTTTTCGGGGAGGGGGGGCGCACCATCGACCGATCCTG ATGTCTTCGGATGGATTTGAGTACGAGCACGGCTGGTCGGACCCGAAAGATGGTGAACTATGCGTGAATA GGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTG CGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGTCGAAGTTTCCCTCAGGATAGCA GTGGCGAAAAACAGTCTCATGAGGTAGAGCGAACGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTA TTCTCGAACTTCGAATATGTGAGAAGTCCTTGTTACTTAATTGAACGTGGACATTTGGATGTGACGCCAC TAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTACGGTGCCGGAA TGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCCAGACAGCCGGACGGTGGCCATGGAAGTCGG AATCCGCCAAGGAGTGTGTAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGC GTGCTACCTATACCTCGCCGCCGGGGTAGAAACGATGCCCCGGCGAGTAGGCAGGCGTGGGGGTCCGTGA CGAAGCCTCGGGGGTAACCCTGG >gi|311235607|ref|NG_027622.1| Schismatomma decolorans strain DUKE 0047570 Ertz 5003 (BR) 28S ribosomal RNA, partial sequence GCGGCAACAGCTCAAATTTGAAATCTGGCCCCCCCGGGGTCCGAGTTGTAATTTGCAGAGGGTGCTTCGG CGTCGGCCCCGGGTCAAGTCCCCTGGAACGGGGCGTCCTAGAGGGTGAGAACCCCGTACTCACCCGGGTG CCCTTCGCCGCGTGAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAGCGGGAGGTAAAT TTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCAC TTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCTCTTGCCGCCAGACTTGCCGCGGT TGCTCAGCCGCCCCCCGGGGTGGTGTACTCTTCCGTCGGCAGGCCAGCGTCGGTTCGGGCGGCCGGATAA AGGCCCTGGGAATGTAGCACCCCCCGGGGTGTGTTATAGCCCAGGGCGTAATGCGGTCAGCCCGGTCCGA GGCACGCGTTCGCGAGGACGCTGGCGTAATGGCTGCAAGCGACCCGTCTTGAAACACGGACCAAGGAGTC TAACATCTGTGCGAGTGTTTGGGCGTCAAACCCATGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCCC TCGAGGGGCGCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGAC CCGAAAGATGGTGAACTATTCCCGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTT CTGACGTGCAAATCGATCGTCAAATCTAGGAATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT TCCTGCCGAAGTTTCCCTCAGGATAGCAGTGACGTCTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGG CCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTGCTTAGTTG AACGTGGGCAGTCGAATGTACCGTCACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGA ACCGAAAGCGAGATTAAGGTGCCGGAATGCACGCTTATCGGATACCACAAAAGGTGTTAATTGATCCAGA CAGCCGGACCGTGGCCATGGAAGTCGGAACCAGCTAAGGAGTGTGTAACAACTCACCGGCCGAATCAATT AGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCAAATCTCGCCGCCGGGGCAGGATCGATGCCCCGG CGAGTAGGCAGGCGCGGGGGTCTGTGACGAAGCCTCGGGGGCGACCCCGGGTAGAACGGCCCCCGGTGC >gi|311235606|ref|NG_027621.1| Saitoella complicata strain IAM 12963 28S ribosomal RNA, partial sequence CATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAATGGCGAATGAAGCGGGAAAAGC TCAAATTTGAAATCTGGCCGTTCCGCGGTCCGAGTTGTAATTTCAAGAAGCGTCTTCGGATGCGGCCCGG GTTTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTCTTTGGCCCGGTGACCGTGTTCAT GTGAAGCGTTTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAG CTAAATATTGGTGGGAGACCGATAGCGAACAAGTAGAGTGATCGAAAGGTGAAAAGAACTTTGAAAAGAG AGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAAGTCAGACTCGCCTGCTTCGGATCAGCCT AGCTTTTGTTAGGTGCACTCCGGAGTTTGGCGGGCCAGCATCAGTTTTGGAAGTCGGATAAAGGTCTTGG GAACGTAGCTCTCTTCGGGGAGTGTTATAGCCCAGGACGTAATGCGACAATCCGGGACTGAGGACCGCGG CTTTTGCCTAGGATGCTGGCTTAATGGCTTTAAGCGACCCGTCCTTGAAACACGGACCAAGGAGTCTATC ATCTATGCGAGTGTTTGGGTGGAAAACCCGTGCGCGCAATGAAAGTAAATGGAGGTGGGATCCGCAAGGT GCACCATCGACCGATCCGGACGTTCTCTGATGGATTTGAGTAAGAGCATAGCTGATGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGC AAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGAAACTCGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGG TTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCATGTTACTTAATTGAACGTGGA CATACGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC GAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCAGAAAAGGTGTTAGTTCATCTAGACAGCAGGAC GGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAA AATGGATGGCGCTTAAGCGTGCTACCCATACCTCGCCGTCTGGGTTAAAGCGATGCCCAGACGAGTAGGC AGGCGTGGAGGTTTGTGACGAAGCCTTGGGCGTGAGCCCGGGTCGAACAGCCTCTAGTGCAGAT >gi|311235605|ref|NG_027620.1| Taphrina wiesneri strain IFO 7776 28S ribosomal RNA, partial sequence TAAGCATATCAATAAGCGCAGGAAAAGAAACTAACTAGGATGCCTTCAGTAACGGCGAGCGAAGCAGGCA TAGCTCAAATTTGTAATCTGGCGCCTTTGGCGTCCGAGTTGTATTTTCTAGAAGCGAGTTCGGCGACAGC TCCTGCCCAAGTCCGTTGGAACGCGGCGTCATGGAGGGTGAGAATCCCGTGAATGGTAGGATGTCTGCTG CTATGTGAACCGCCTTCGAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCT AAAGCTAAATATTGGCCAGAGACCGATAGCGAACAAGTAGAGTGATCGAAAGATGAAAAGAACTTTGAAA AGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGATCAGACTTCCTGTCTGGACTGTC CTTGCTTTTGCTTGGGTCAACAGTCCAGGCGTGGAGGCCAGCATCAGTTTTGACGGCCGGATAAAGGCCT TGGGAAGGTAGCTCCCCTCGGGGAGTGTTATAGCCCAGGGTGTAATACGGCCAGTTGGGACTGAGGACCG CGGCTCTGCCTAGGATGCTGGCGTAATGGTCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CATCTGTGCGAGTGTTTGGGTGGAAAACCCGTGCGCGAAATGAAAGTGAATGGAGGTGGGATCCGCAAGG TGCACCATCGACCGATCCGGATTTTTTTGAAGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGC AAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGAAACTCAAATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGG TTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGACGCGCGTTACTTGGTTGAACGTCG TCATTCGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACG CGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCAGAAAAGGTGTTAGTTCATCTAGACAGCAGGA CGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGA AAATGGATGGCGCTTAAGCGTGCTACCCATACCTCGCCGTCTGGGTTAATGTGATGCCCAGACGAGTAGG CAGGCGTGGAGGTTTGTGACGAAGCCTTGGGCGTGAGCCCGGGTAGAACAGCCTCTAGTGCAGATCTTGG GGTGGTAGTAA >gi|311235604|ref|NG_027619.1| Batrachochytrium dendrobatidis strain JEL197 28S ribosomal RNA, partial sequence ATATAATCTCAAATCATGCAAGATTACCCGCTGAACTTAAGCATATCAATAAGCGGKGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGAAATCTCACAATAGTGCGAA TTGTAGTTTAGAGAAACCCCATTTTTTACTAGACAATCAAAAAGTTTTTTGGAATAAAACATCATAGAGG GTGACAATCCCGTTTTTGATTGCCAAGTAATAATGTATTGGGATATCCAAGAGTCGGTTTGTTTGGGAAT GCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTAC CGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTCAAAAGGGAAACG CTTGAAACCAGTATTTAAACATGAATTTCAATTCACCATGTGGTGAGTCTATATTTGATGATTAGAGTCA ACGAGGGTTTGACAAGTGATAAAAACGGCTAGAGTAGACCTATTAGGACAAAGTCTAGTCAAATGTCACG GGTTGGACTTTTWKKKAGTGTGATGTATAACGTTTTGATTTATTGTCAATCATGACTAGACTGCGTGCAG ACTAGTTGTTCAAGGCTTTGAATTGATTCGACTTACCCACCACAAAAACGTTGAGGAAATGGTTTTAAAC GACCCGTCTTGAAACACGGACCAAGGAGTCCAACATATATGCAAGTATTTGAGTGAATAAACCCAAATGC AAAATAAAAGTGAAAAGGTGGGAATATATAGCACCATTGGCCAATTAATAATAATTGAGCAAGAGCATAC ATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCT CGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCT AGTAGCTGGTTCCCTCCGAAGTTTCCCTCAGGATAGCAGAAGCTCAGTATCAGTTTTATGAGGTAAAGCG AATGATTAGAGGCCTCGGGGAAGTAAATTCCTTGACCTATTCTCAAACTTTAAATATGTAAGACGTTGTG GTTACTTGAATGAACCGCGACAGCGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGA TGCGGGATGAACCGAACGTCGAGTTAAGGTGCCAGAATGCACGCTCATTTAGACACCACAAAAGGTGTTG GTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTTGGAACCCGCCAAGGAGTGTGTAACAACTCACCTG CCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACTCGACCGTCGGACCAAATA CAATGGTTTGACGAGTAGGAGGGCGTGGAGGTTTGTGTGGAAGCTTTGGATGTGAATCCGAGTGAAACGG CCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAAAGAGAACTTTGAAGACTGAAGTGGAGAAAG GTTCCGTGTGAACAGCAGTTGGACACGGGTCAGTCGATCCTAAAGAGTAAGGGAAACCTGGTAATGCACA GTGTGCGGACTCTGAAAGGGCATCCGGTTAATATTCCGGAACTGGGAGGTGGAATAAGCGGCAACGCAAG ACAACTTGGTGACGTTGGTAGGAACCCTAGAAAGAGATGTCTTTTCTTTTTAACCAAACAACAACCTTGG AAACGGATGAACCGGAGAAGAGGTTTGGGATGGGCAAAGCACTGCTTCAGCAGTGTCTGGAGCGTTTCTA ACGACCCGTGAAAAACCAAGGGACTAATTTTCACACCTAGTCGTACTCATAACCGCAGCAGGTCTCCAAG GTGRACAGCCTCTAGTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTTGGGA AAAGGATTGGCTCCAGGGGTTGCGATGTAATCGATATCAACTAATCTGGAACTGGTACGGACATGGGGAA TCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCC CAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCT CTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGT CCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACC CTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAAACATGGGGGGCGTAGAATAAGTGGGAGCTTTGGC ACCGGTGAAATACCACTACCCCCAATGTTTTTTTACTTATTCAATGAAGCAGGATTGGCCGTCATGGCCA TATTGTAGTGTTTGAACCTGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTT AAAAGATAACGCAGGTGTCCCAAGGGAAACTCATCGAGAACAGAAATCTCGAGTAGAACAAAAGGGTAAA CGTTTCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAAATTC TGGGTATTTCAGGTTAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTC ATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATTGAGAAGCAAAATTCTCAAAGCG TCGGATTGTTCACCCGCCAACAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACC CTACTGATGGAGGGTTGTCACAATAGTAATTCAACGTAGTACGAGAGGAACTGTTGATTCACATAATTGG TTT >gi|311235603|ref|NG_027618.1| Spizellomyces punctatus strain ATCC 48900 28S ribosomal RNA, partial sequence ACTTGGTCTGAAATCGGGCAAGAAAACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCTTAGTAACGGCGAGTGAAGCGGGAATAGCTCAAATTTGAAATCTCACAGGGTTACCTG TGCGAATTGTAGTTTAGAGAAGCGTTTTCGGGGGCAGCTTGGGTACAAGTCCTTTGGGATGAGGCATCAT AGAGGGTGAGAATCCCGTTTATGACCCAATGTCTGCTCCTATGTGATACGCTTTCCAAGAGTCAGGTAGT TTGGGATTGCTGCCTAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGA ACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGCCAAAA GGGAAACGCTTGGGGCCAGTATTGCTTGCAGGTAATCATCTGCATGATCCTGAAAAGGTTAGTGCAGTGC ACTTGCTTGCAGGCAGGTCAACATCAGTTTGGTCTGGGGTAAAAAGCCAGAGGAAGGTAGCTTGGGCTTC GGTCTGAGTGTTATAGCCTCTGGTCATGCCTTGGACTGGACTGAGGTCTGCAGCGTCATTTGGATACCCA ATCGCCTCCTGAACCTTGTTTTTAGACAGCATGCTGACTAAGGGCAAGGCTAGGGAGCCCGGTTGGTTTA TCACACCAACGCTTAGGATGTTGACGAAATGGCTCCAAACGACCCGTCTTGAAACACGGACCAAGGAGTC TAACATATATGCGAGTATTTGGGTGGCAAACCCTTATGCGAAATGAAAGTGAACTTAGGTGGGATCTTCG GTGCACCATCGACCGGTCTGGATTTTTTTGATAGATCTGAGTAAGAGCATATCTGTTGGGACCCGAAAGA TGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTG CAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCAGCTCAACGGTGGTTAACA GGGACGAAAAGTACGATCCCTAGTCCGGTGAAGGCGGGCAAGACTGTCAAATTGCTGGGACACCCTAAAG GCGCTGGTACTAACTTGGCTTGGAAACGAGCTGAGGGTCGAGTAACTTGCTCGAGAGTGACAATCCAGCG TATGATAGGTGCCTTTCAAGTACCTTGAAATGGGCAATCAGCAGCCAAGCTCTAAGTTATTCTGGTCTGT TTGCAGGGCAGAATGATAGGAGTGCAGTTCAGAGACTAGATGTCAGTCGGTACTCCAGGGCAATTAATTA TGCATGGAGTGCTTAAGGTATAGTCCAATCCCAGTTGAAAGACTGGCTTCCAGACAAAGCTGTGAGGGTG CTTTCACCATGGGCAACGTATCAGTTGATCATGACCACACAGCCCGAATCTGGGAGGGCACAATGGGATC CTTTTGGGGTTTTCATTGCGTCGTATCAATGCTAGTAGCTGGTTCCCTCCGAAGTTTCCCTCAGGATAGC AGAAGCTTATATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCT ATTCTCAAACTTTAAATATGTAAGACGCCTGGGTTACTTAATTGAACCCAGGCATTGAATGAGAGCTTCT AGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTCGAGTTAAGGTGCCGGAAT GCACGCTTATTTAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGG AATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGC GTGCTACCCATACTCGACCGACAGGGTAAATCGAGGCCCTGTCGAGTAGGAGGGCGTGGAGGTTTGTGAT AAAGCCTTAGACGTGAGTCTGGGTGGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAA ATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGATC CTAAGAGATAGGGGAATTCCGTTTCAATGCGTGCGATTTTCGCACCGACTATCGAAAGGGCATCCGGTTA ATATTCCGGAACTAGGATGTGGATACTTTTACGGTAACGTAAATGAACTTGGAGACGCCAGCGGGGACCC TGGGAAGAGTTCTCTTTTCTTTTTGACTGTCTATCACCCTGAAATCAGCTTAGCTGGAGATAGGGTTCAA TGTCAGGCAAAGCACCACAACTTTGTGGTGTCCGGTGCGTTCCCGACGGTCCTTGAAAATCCGAGGGAGA GTTTAATTTTCACACCTAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATA GAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTT GGGTGCATCGGGCTGTGGTTCAAAGCCCTGGAACTGGCCTGGGACTACCCGAGCTCACAAGGCAAGGGCG GACCCGGGCCGGATCTGGGTGTGGCGGACCATGGCATGCCTTCGGGCGTCTGGTGCACAATTAACAACCA ACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAG TGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGG GTAAACGGCGGGAGTAACTATGACTCTCTTAAACCGAAAGGTCTCCGAGAGAGATAGGCAGGCTAAAAAC GCTATGCTGCCTAGTGAGTGCTGTTCATTTTGACCTTGCCGGACAGCACTTGCGACACGACCTGGTTGCG GGGAAATCCTGCCGATTCAGCTTTCTTTTATCAAGCTGCTTCCAAAGCAACTTGCATGCTCCTATCACAC TGCCAAGTTTGGTGCTCTATGGAGGCTTTGTGACACCCAGGTTAATGGCCGATGGGAGGAATCAACGCAT GCAGGGGGACAATCCGCAGATGAGTTCCGAAGCCCAACTCGGAGCCGTTTCAACGACTGGTAAGGCGTGG GTCAAACAATGATTATGTTGTTTGGCTTAAGGTACAGTCTAAGCCCCTGAGTAATCAGGCCTTAGTGTAA GCCCTGGCAGGCAGGGCACTAGCTAAGGGACCGTTTGAGATCAGAATTAAATCCCTGATCAAGGTTGGTA TAACTGAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCAC TGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCATAATCAGCGGGGAAAGAAG ACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAAACATAGGGGGTGTAGAATAAGTGGGAGCTTC GGCGCCGGTGAAATGCCACTACCCTTATCGTTTTTTTACTTATTCAATGAAGCAGGGCTGGCCTTCACGG GCCACCTTCTGGTGTTACGGCACTTCGCGTGCCAACCTGGGTTGAAGACATTGTCAGGTGGGGAGTTTGG CTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGTAGCTCATCGAGAACAGAAATCTCG AGTAGAACAAAAGGGTAAAAGCTACCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGC CTATCGATCCTTTAGTCGC >gi|311235602|ref|NG_027617.1| Conidiobolus coronatus strain NRRL 28638 28S ribosomal RNA, partial sequence TTAGTAACGGCGAGTGAAGTGGGAAGTGCTCAAATTTAAAATCCCTTTTGGGAATTGTAATTTATAGAAT AAATGGTTAGTAAGTAGAGATTAAAGTCTGCTGGAAAGCATGCGCTAGAAAGGGTGATAGCCCCGTTCAG TCTCTTAACTTGCTTCTACGCCATTATTTCAACGAGTCAGGTTGCTTGGGAATGCAGCCTAAATTTGGTG GTAAACTCCATCTAAAGCTAAATATTGATCAGTGACCGATAGCAAACAAGTACCGTGAGGGAAAGATGAA AAGAACCTTGAAAAGGGGGTTAAAAGTACGTGAAATTGTTATTAGGAAAGCACTTAGTCTCATTGTGGAT TAGATCAGTCTGTTTCGGCAGATACTGTCCTAATTAGTTATGATCAGTTAGCGCTGATAAAGAAAATTTG TGATAAGGTATTAGTGTAGTGCTAAACTTAAAGATCACTTATTATTTGTCGGTACTGACTGAGGAATGCT ACTTAATCTTTTTGAGTAAATAGTTTGTGGAGTTAGGTTAAACAACATGTTGATTAGCTTAATTAAAGCG ATCTATTTGCTTTAGAACTTAAGTACAGGATCATAATTAAATGATACTAAATGACCCGTCTTGAAACACG GACCAAGGAGTCTAACATGATTGCGAGTTACAGGGTGACAAACCTTTGGGCGCAATGAAAGTGATAAAGA TAGGATAGGTAACACTTGCACTATCAACCTAAACTGATGATTATTTCTGACGTTTTAGAGTTAGAGCAGT CATGTTGGGACCCGAAAGATGGTGAGCTATGCTTGAATAGGGCAAAGCCAGAGGAAACTCTGGTGGAGGC TCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGAGCATAGGGGCGAAAGACTAATCGAACCTTC TAATGGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAATTTATAATAGTTTTATGAGGTAAAGCG AATGATTAGAGGAATGGGGGATGAAACATCCTTCACCTATTCTCAAACTTTGAATCTGTAAGATGCTTTT GGTTACTTAATTGAACCATGGCTTTGAATAAAAATTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCG GTGCGGGATGAACCGAACGCAGAGTTAAAGTGCCTAAATATACGCTTATTTTGACACCACAAAAGGTGTT AGTTCATCTAGACAGCAGGACGGTGAACATGGAAGTCGTTATCCGCTAAGGAGTGTGTAACAACTCACCT GCCGAATGAACTAGCCCTGAAAATGGATGGCGCTAAAGCGTGTTACTTATACTCTGCCGTTAAATTAGAT TATTAATTTAACGAGTAGGCAGGCGTGGAGATTGTATAGAAGGTTAAGAGTAATCTTAACTGGAACGGTC TCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAGGGT TCCTAGTGAACAGTAGTTGGACTAGGGTTAATCGGTCCTAAGGTGTAGGTTAACTCCGTTAATTGGTTTA GTAATAATTTTAATATTAATAAACATAATTACACCGAAAGGGAAAAAGGTTAATATTCCTTTATTGTGAT GTGGATAAATGGTAACATAAATGAACTTGCAGACGTTGGCATGAGCCCCAGGAAGAGTTTTCTTTTCTTT TTAACAGTTTTAGCTTAATTACTATTAGACCATGGAATCAAGTTATTTGGAGATATGGTTTAAAGACTGG TAGAGCAAAATAATTTTATTTTGTCTGGTGCGCTCATGACAACCCTTGAAAATGCAGGGGAATTATATTT TCACACACAGCCGTACCCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTCGATAGAATAATGT AGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTTGGGAAAAGGATTGGCTCTGAGGGTTAGGTATTAG GGGTACTTGATGAAAAGGTAGCTGATATAGTTGTTAGCAATGATAACTTAATTGGCTTAATTGAATTTGA GACCATCCCTTTTACAATTAATAACCAACTCAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTA AAACATAGCATTGTGATGGTTGTAACTCAATGTTGACACAATGTGATTTCTGCCCAGTGCTCTGAATGTC AAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAAT GCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTA GCGAAACCACAGCCAAGGGAACGGGCTTGGAAAGGTTAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTC TAGTTTGACACTGTGAAAAGACATGGAGGGTGTAGCATAAGTGGGAGAACTTGTTCAAACTTGAAATACC ACTACCTCCATCGTTTTTTTACTTATAGGATTAAATAAAGTTAGTTTTACTATATTTTAGTGTTAAGTAT TTTCGAATACGATTTACGTCCTCGACACTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATTTGTTAAAT AATAACGCAAGTGTCCAAAGGGGAGCTCATGAAGAACAGAAATCTTCAGTAGAACAAAAGGGTAAAAGCT CCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTTGCTCGG AGTTTGAGCCTAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCTGCCAAGCGTTCATAG CGACGTAGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAGCGTTGG ATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTAC TAACTGCAAGTTATTTGGACAGTAATTTAATTTAGTACGAGAGGAACCGTTGATTCAAATCCCTGGTTTA TGCGGTTGACTGACCAGTCAATGCCGCGAAGC >gi|311235601|ref|NG_027616.1| Piptocephalis corymbifera strain NRRL 2385 28S ribosomal RNA gene, partial sequence CTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTGAAATCGCGTCCGGGTAACCGGGTCGCGAGTTG TAATTTGATGAGGTAAACTTGGTGGGCGCCTGGGTCTAAATCCTTTGGAAAAGGGTATCATAGAGGGTGA CAATCCCGTCTGTGGCTCAGTCAGCGGTCTATCGTGTAAGTTGCCTTCAAAGAGTCGGGTTGTTTGGGAA TGCAGCCCTAAGCTGGTGGTAAATTCCATCTAAAGCTAAATATTCGTGAGAGACCGATAGCGAACAAGTA CCGTGAGGGAAAGTTGAAAAGCACTCTGGAGAGAGAGTCAAACAGCACGTGAAATTGTTAACAGGGAAAC GTTGGGCCCCAGTACGCGCCTCGCGTAAAATCAACCATCTCTTCCCCGAGGGTATCCGTGCCGGGTGGAT GAGTCCTTAAGAAGGGCCATTGCCTGGTCGGTGCCCGAGGGGGGTGGTGCACTTTTGCGTGGGCGGGTCA ACGTCAGTTAGAGCCACCGGAAAATCCTGGGAGGAATGTTGGCGAAGGCAACGGACCCACTTATAGCCTC CCTTGAAAACGGTGACCCTGACTGAGGAGTCGCAGCCTCATCATATGGCGCGCGCGTCTCCCTTCCCCCT GTGGGTAAGGCAGCTTGCTGACTTGCCTCGGTAAGGGAGGGGACTGCGCGTGTGCCTGGTGGGGCCACGG ACGTTGGCGAAATGGTTCTCAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGTGTGCGAGTA TTTGGGTGCAAAACCCGAATGCGCAATGAAAGTGACCGCAGGGGAGAAGGGTGACCCTCTCGGGGGTCGC CCCGCATCCTCGACCGATCCGATTGCCCTCCGTGGCGACGGGTTTGAGTTTGAGCATATCTGTTAGGACC CGAAAGATGGTGAACTATGCCTGAGTAGGATGAAGCCAGAGGAAACTCTGGTGGAGGTCCGTAGCGATTC TGACGTGCAAATCGATCGTCGAACTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTT CCCGCCGAAGTTTCCCTCAGGATAGCAGAAACGCGTTAACAGTATTATGAGGTAAAGCGAATGATTAGAG GCCTTGGGGGCGGAATGCCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGCCACTTAATT GGGCATGGACGTTGTTGTATGAGCGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGTGGGAT GAACCAGACGGGAGGTTAAGGTGCCGGAATGTACGCTCATGTAGACACCACAAAAGGTGTTGGTTCATCT AGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGA ACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACTACCCAAACCTCCCCGCCACGGGTTAATGCGATGCC CTGGCGAGTAGGCGGGCGTGGGGGTTGTGAAGAAGCTTTGGCCGTGAGGCCGAGTGAAACAGCCCCTAGT GTAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAGGGTTCCGAG TGAACAGCAGTTGGACTCGGGTGAGCCGATCCTAAGAGATAGGGAACTTCCGTTTTAAAGTGGGCAATCC GTCCCTTGGGTGCGCTCGCGTACCCAGGGGTCCCGGAGCCCCGTCTATCGAAAGGGAAGCTGGTTAACAT TCCAGCGCCGGAATGCGGGATACTAACGGCAACGTAAGCAAACTTGGAGACGCCGGTGGGAGCCCCGGGG GGAGTTTTCTCCTCTCCTTAACAGCTTAGGACCGTGGAATCGCTTTAAGCGGAGAGACGGTTTGATGGCT GCCAGAGTAACGCGCCTCTGCGTTATCCGGTGCGCTCTCCACGGCCCGTGAAAATCCAAGGGCGTGCATC ATCCTCGCGTCCGTTCGTACCCATAACCGCAGCAGGTCTCCTAGGTTAACAGCCTCTAGTTGATGGAATA ATGTAGGTAAGGGAAGTCGGCAAAATAGATTCGAAACTTTGGGATAAGAATTGGCTCTTTGGGTAGGGTG CGTTGGGCTGTGTGGGAGAAGAGTGCGGCCGACCGGGCCGGACCGGCGGAACCTTCGGGTATACGACGGC CTTGCCCGGATGGCTGCGCTTGGGCACCCACGGCTTTACCCGACCGGGTCCTCGGATCCACGGGTATATC CGGCGTACGCTGAACTACCAACAAAGAACTGGTACGAACAAGGGGAATCTGACTGTCTAATTAAAACATA GCATTGCGAGGGTCCGAAAGGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAA GAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTC ATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCCAGCGAAACC ACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGA CTTTGTGAGACGGCACTAGGGGTGTAGCATAAGTGGGAGGTGCCCTCGGGCCCGACAGTGAAATACCACT ACCTTAGTCGCCTTCTTACTTATTTCGTTGGGCGGAACCTGGCCTTCACGGCCTGTTTCTAGCGTTAAGG TGGTCATCTGACTGCTGATCCGCGCGAAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTG TTAAAAGATAACGCAGGTGTCCTAAGGGGGGCTCATCGAGAACGGAAATCTCGAGTAGAACAAAAGGGTA AAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTTGAC CCTGAGAATTTCAGGCAAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGT TCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAG CGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTA CCCTACTGATGAATCGCCGTCGCAATAGTAATTCAATTCAGTACGAGAGGAACCATTGATTCCGGTATTT GGTATTTGCCCTTGGTCGAACGGCCAATGGGGCGAAGCTACCACCGGTCG >gi|311235600|ref|NG_027615.1| Coemansia reversa strain NRRL 1564 28S ribosomal RNA, partial sequence ACTTGGTCTCAAATCAGGCAAGACTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAGAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGACCAGCTCAAGGCGGGAATCGTAATGCATTGACTT GTATTACGAGTTGTAGCCTATGGGCCGTACATCTAACCATAGCAAAGCGGGACAAGTTCCTTGGAATAGG ACGCCAGAGAGGGTGATAGCCCCGTCTGCCCGAGTGTTGCTATGGAGATATGTTGTATGGTTCGAGAGTC GGGTTGTTTGGGAATGCAGCCCTAAGCGGGAGGTATGCACCTTCCAAAGCTAAATATTCAGGCAAGAGAC CGATAGCGAACAAGTACCGTGAGGGAAAGTTGAAAAGCACTCTGGAGAGAGAGTGAAAAGCACGTGAAAC CATTGGTAGGGAAGCGCTTGCACGGTGCAGCTGGCGTCTGTTGTTTCGGCAGCAGGCGTCGCCCAGCACC AGTTTGCTTATAATCGCTGGAGAAGCGGGGGGTCAAGGTAGGGCGTTGTGTATGCGGCGCCTGTTATAGG GCCCTCTGAGCTACAGTGAGGCGGACTGAGGACCGCGGCATTCCCTGCATTTTTTATGTTAGGGCGCAAG GATGCATTGAGCCTGTGGTGCTGCTACGGGGTAAAGACAGCATGCTGACTTTGCCTGGGCAGTGCTCGGA CATCTCTATGCAACTTGTACTGATTGCCAAGGGTTGCTGGGAAGTGCTGAACAAGCGACCCGTCTTGAAA CACGGACCAAGGAGTCTAACTTGTGCGCGAGTCACTGGGTTGCTAAACCCACGGGCGTAATGAAAGTGAG GGGCGCTATGCGCCTCCTGGTGCGAACCTAAGGGCTTTCGAGCCTTTCGGTGCAGCATCCGCCGGCCTGC TGCTCTTATACGGGTGGCAGGACTGAGCGCGAGCGCACAGGCTAGGACCCGAAAGATGGTGAACTATACC TGGGTAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTGG AACCTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCCGCCGAAGTTTCCCTCAGG ATAGCCGGCACATATAAACAGTTCTATGGGGTAGAGCGAATGATTAGAGGCCTTGGGGCAAAAATTGCCT TAACCTATTCTCAAACTTCCAATCTGTAGGAAGCCCCCCCTACTTGAGTGAGGGGTGGGCGCATAGTTGA ATGACATGTGCTGAGTGGGCCATTTTTGGTAAGCAGAACTGGCGCTGCGGGATGAACCGAACGGGGAGAT ACGGTGCCGGAAGGCACGCTCATGTAGATACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGG CCATGGAAGTCGGAATCCGCTAAGGAGTGAACCAGTAATCAATAGGCCACAACAAATGTATTGTTACACG CTCCAGTTGCTTTTCTATCTATCGAAAAGCGGCTAGTGGTAGGCAAAAAAAAAAGTTCTATTAGAAATGG TACGAGTCGAGATGGGGGAGTAGTGTGTTTGGTTGCCTATGGATTTCATAGACAAACTTATTATTACTTT ACCCTATGGTTGCCCGTAGTACTAGAGACAGAATGTTGTATTAAAAAAAAAGTGATAGGCTACAGTTACA TAGTGGATTATGTAGCCTCGCTTACCTGGTGGTATTTTATTACTACCAAGCAAGCACATTTTGTACTACA ACATTGAATTTCTATACCAACTACTGGGTAGCCTGTGAAGCTTGTATCTATTACCAATAGCTGCCTACTG CAACACCTTCAAATTGTTCTGGGAAGCCCTTAGAGCCTCGGCAGACTCTCCACGGCTGGAAACAGCATAA ACTACTGCAATGATCCCTTACCAGGAGAGCTAGTAGACCGTGGCTATAGTTAAACTTGCCAGGATTGGGT TATCAGCAGCCAAGTTCCACGGTAGCGCAATAGCGAGCGAGGGAGAGAGTACTAACAAGTTTGTTTCTCT CTGCTTTGCTCTGCTCTGCTATGCTGCCTGGAATGCAGTTCAGAGACTAGATGTAGGTGGGCCATTTTAC AAAAATAATAATGGCTTAAGATATAGTCCGCCTTCCTTGGAAATCTCGGAAGACCTAATGGGTGTAACAA CTCACCTGCCGAATGGACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGCTACCTATACTCCCCCGGCGG CCTGTAAGAACTAAGGATAGGTCGCCGAGTAGGCGGGCGTGGGGGTGCAAATAAAGCTGCGAAGGTATGG GCGTGAGCCTTACTGGAGCCGCCCCTAGTGCAAATCTTGGTGGTAGTAGCAAATATTCAAGTGAGAGCCA TGAAGACTGAAGTGGAGAAGGGTTCCCGAGCCACTGTAGTAGACTCGGGGTGAGCCGTTCCTAAGGAGCA GGCTAACGCCGGACAAGAGTGGGCCTATTAACCATAGTAGGCCCCGGTCTTCGAAAGGGAAGCAGGTCAA GATTCCTGCGCTTGGATCGTGGTGCGCGGGTGGTAACACAAGGGAATCTGGAGACGCCGGGATGATCCCC TAGGAGAGTTTTCTCTTCTCCTTTACGCCTTTTTATACATGTCGGCCTTGGAATCAGATTATCTGGAGAA GGGGCGGACGGGGCGGTAGAGCAGGGCCAATATCGGCTTCCTGTTAGGAGCGGTCATTACGGTCCTTGAA AATCCAGAGGACTCTTTTCTGATTTTATCAGGAACGCACTCTCGCCAAGACGTGCTCATAACCGCATCAG GTCTCCTAGGTGAACAGCCTCTAGTTGAATGGAACAATGTAGGTAAGGGAAGTCGGCAAATTGGATCCGT AACTTTGGGAAAAGGATTGGCTCTAAGGGTCGGGCAGGCTGGGCCCGAGCTATACTGTAGCAGGCACGCG GCTGCGGAGTGCCTGCCGGACCAAGGCTTCGGCTTTGGACTGGCGGCTGTGCTCTGCGGCTACCTGTGTT TGCTATGGAGCTCGGTGCGTGGTGGCAGGTGCAAATCTGCCGCCTTAGCCGGCCTGCAGTTAACGACCAG CTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCGGTGAGC GGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCACCGTGAAGAAATTCAACCAAGCGCGGG TAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCAT GAATGGACTAACGAGATTCCCACTGTCCCTACTTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTT GGCAGCATCAGCGGGGAAAGAAGACCCTATTGAGCTTGACTCTAGTTAGACATTGTGGAGCGACATGGGG GGTGTAGAATAAGTGGGAGCCTTTTACTAGGCGCCGGTGAAATACCACTACCCTCATCGTCGCTCTACTT ATCTGGTGCGGAGGGAACTGCTTTTGCAGACTTTGCGTATTAACCTTGGCTTACCAAGGGACCCTGGTCA GAGACATTGTCTGATGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTGTCCAAAGG GGGGCTCAAAGAGAACAGAAATCTCTTGTAGATCAAAAGGGCAAGTGCCCCCTTGATTGGGACCTTCAGT GTGGGTACCAACCGTGAAAGCGTGGCCTATCGATCCTTCAGCCGTGTGGTGCATACACGTGGAGGTGTCA GAAAAGTTACCATAGGGATTGCTTAAAATGAATTAGTCCCAGGGGTCCTACTTGTTTTTTTTTAGTAGAG CAAACATGCTACACACTATATTTAAAATAATTATAAAAATGTGTATAGTGATGATTGCACCTCTTCTACC TTGAGGTGCAACCTCTACATAAAACTTTTAGCCATAGGCCTCTAGTCGTACTAGCTGATCATCATCTCTT AGGGATTTTGATATCAAGCCTTTAGTATGGCAACACAGCTTGATGCGGGGAACACTTGCTAAGCAACCGG TACCAAACTCATAGGTAACACCTACGGGCGTAGAGCATTTTTCTTATGGCAAATGCTGGTAACAATCCGG TTGATAGAGTCAATCCGCAGTAGAATGGGCTTCCTGTAGGGATTTTTTTTCCCTACCAGTTCATCTATTC AACGCACGCTTAGTTGTGGGTCGCTATATTTATTTGTATGGCGGCTTAAGGTACGTGCTACTCCCACTCG AAAGAGTGTGCCTACCAATAATAGCGCGGATGGAATTGTCCGGCTATAAAAAGGTACGCAGGCCATCAAT CCCTACCGGAAATGGTAGGGCTAGGCTGGTAGTAAGGAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGA CGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAGCGTCGGATT GTTCACCCGCAAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGA AATGGGCACCGCGCCAGTAGTGAAAACTAGTACGAGAGGAACATTTTTACCGGATAATTGGTCTTTGCCC TTGGCCGATCGGCCAGTGGGGCGCTGCTATCATCCGC >gi|311235599|ref|NG_027614.1| Cladochytrium replicatum strain JEL180 28S ribosomal RNA, partial sequence ACTTGGTCTCAAATCAGGCAAGAAGACCCGCTGAACTTAAGCATATTAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTGAAATCTCCCTAACGGGCGAA TTGTAGTTGATAGAAACGTTTTCGGGGGTAGGCTGGGCACAAGTTGCCTGGAAAGGCACATCATAGAGGG TGAGAATCCCGTCTGTGGTCCAGCTCTGCTCCTATGTGATACGTTTTCTAAGAGTCGGGTTGTTTGGGAT TGCAGCCCTAAATGGGTGGTAAATACCATCTAAAGCTAAATACTAGCGAGAGACCGATAGCGAACAAGTA CCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTCAGAAGGGAACG GCTTGAAACCAGTCTTGCGTCTGGAATTCAGCCTCTCTAACGAGGGGTGCAATTCGCTAGATGCAGGTCA GCGTCAGTTTGAGGAGGGGGAAAAAGACTAGAGAAGGTAGCCTTCGGGTGTTATAGCTCTTGTTTCTACC CCTCTTTGGACTGAGGGCCGCGGCGTGATACGGGGTTGATGGGTTCCGGTGACCTACTGGTAAACTGCAT GCAGATTGCTGGCAAGGCTCGCTTGATTCCCTTCAGCTCCACACGTCTAGGATGCTGACGAAATGGTCTC AAACCACCCGTCTTGAAACACGGACCAAGGAGTCTAACGTATATGCGAGTGTATGGGTGTCAAACCCCTG CGCGTAATGAAAGTGAAACTGGTGTGAACCTTCGGGTGCAACATCGACCGGTCTGGATTTTTTTGATAGA TCTGAGTAAGAGCATATACGCTAGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG AAACTCTGGTGGAAGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAA GACTAATCGAACCATCTAGTAGCTGGTTCCCTCCGAAGTTTCCCTCAGGATAGCAGTAGCTCATATCAGT TTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAA TCTGTAAGACCTCCGGGTTACTTGATTGAACCCGGAGATTGAATGAGAGCTACTAGTGGGCCATTTTTGG TAAGCAGAACTGGCGATGCGGGATGAACCGAACGTTGAGTTAAGGTGCCAGAATACACGCTTATTTCGAC ACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTG TGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACTCA ACCGTTAGGGCAAATTCTTTGCTCTAACGAGTAGGAGGGCGTGGGGGTCGTGACGAAGCCTTAGACGTGA GTCTGGGTGAAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGA CTGAAGTGGGGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGGTCCTAAGAGATAGGGGAA CTCCGTGTCAAAGTGTGCTATTAGCACCACCTATCGAAAGGGAATCCGGTTAATATTCCGGAACTAGGAT GGGGATTTTTTTGTGGTAACACAACCGAACTCGGAGACGTCGGGAGGAGCCCTGGAGAGAGTTCTCTTTT CTCTTTAACCAGCTGTCACCCTGAAATCGGATTAACCGGAGATAGGGTTCAACGCTGGGTAGAGCACCAC AGCTTTGTGGTGTCCGGTGCGCTTCTAACGGCCCATGAAAATCCGAGGGAGAGATATTTTCCCACCTAGC CGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAGGGAA GTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTTGGGTACATTGGGCTCTAGCT TGAAGCTTTGGAACTAGCCTGGGACTACCGTGCCTCACGGCATGGCGGACCCGGGCTGGATCTGGACGTG GAGGGCTAGGGCATGCTTTACGGCGTCCGGTGTACGATTAACAACCAACTTAGAACTGGTACGGACAAGG GGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTC TGCCCAGTGCTCTGAATGTCAAAGTGAAGTAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGA CTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCA CTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAGCGGGGAAAGAA GACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAAACATAGAGGGTGTAGAATAAGTGGGAGCTT CGGCACCGGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTCAATGAAGCAGGGCTAGCCTTCACC GGCTACCTTCTGGTGTTAAGCAGCTTTACGCTGTGACCTGGGTTGAAGACATTGTCAGGTGGGGAGTTTG GCTGGGGCGGCACATCTGTTAAAAAATAACGCAGGTGTCCTAAGGGGAACTCAATGAGAACAGAAATCTC ATGTAGAATGGAAGGGTAAAAGTTCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGG CCTATCGATCCTTTAGTCGCTGGGTATTTCAGCCTAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGG CTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATTGA GAAGCAGAATTCTCAAAGCGTCGGATTGTTCACCCGCCAATAGGGAACGTGAGCTGGGTTTAGACCGTCG TGAGACAGGTTAGTTTTACCCTACTGATGAAGTGTTGTCACAATAGTAATTGAACTTA >gi|311235598|ref|NG_027613.1| Polychytrium aggregatum strain JEL109 28S ribosomal RNA, partial sequence ACTTGGTCTCAAATCAGGCAAGATTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAAATA ACAATGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAAAGCTCAAATTTGAAATCTCCTGGCTTTGTCAG GCGAATTGTAGTTTAAAGAATCTTTTTCGGGGACAGGCGGGGTATAAGTCCTTTGGAACAAGGCATCGTA GAGGGTGACAATCCCGTTCACGATCCCGCCATTGGCCCTATGTGATAAGATTTCAAAGAGTCGGGTTGTT TGGGAATGCAGCCCTAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAA CAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGAAATTGTCAATAG TGAACGGTTTAGAACTATTGTTTGTCCTGGGAAAATCAATTGGTCCAAGCGGCCAGTGCACTTTTCCTCG GACAGGTCAACATCAGTTTGGGCTCGGGATAAAAAGCTCCATGCGCCTCGGCAAGTGGAGTGCTGTCCCG GACCGGACTGAGGACTGCAGCACAGTCATAGGATAGCCAGTCGCCTCAGTGCGTACGGATGTAAACAGCA TGCTGATTGCGTCTAGTGCGGACGGAGCTCGGTGGGTGATTTCTCTCCTGTCGCTTAGGATGTTGACGAA ATGGTTTTAAGCCACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATCTGCGAGTTTTTGGGTGCCA AACCCATAAGCGCAATGAAAGTGAATAAGATGGGATCCTCGGAGCACCATCGACCGGTCTGGATTTTTTT GATAGATCTGAGTTAGAGCATATATGTTAGGACCCGAAAGATGGTGAACTAAGCCTGAATAGGGTGAAGC CAGAGGAAACTCTGGTGGAAGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTTTAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCCTCCGAAGTTTCCCTCAGGATAGCAGAAGCTCAT TATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAA CTTTAAATATGTAAGACGCCTTGGTTACTTGAGTGAACCTTGGCTTTGAATGAGAGCTTCTAGTGGGCCA TTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTCGAGTTAAGGCGCCGGAATATACGCTTA TATAGACACCACAAAAGGTGTTGGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTA AGGAGTGTGTAACAACTCACCTGCCGAATGAACCAGCCCTGAAAATGGATGGCGCTCAAGCGTATTGCCT ATACTCGACCGTCAGGGTTAAACTAGGCTCTGACGAGTAGGAGGGCGTGGAGGTTTGTGACGAAGCTTTG GGCGTGAGCCTGAGTGAAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACT TTGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGAT AGGGAAACATCCGTTTTAATGTTGTGCAATTCACTTGCACCGCCTATCAAAAGGGTATCAGGTTAATATT CCTGAACTGGGATGTGGATAGTTTTTTAATTGCGGCAACGCAAATGAACTCGGAGACGCTGGTAGGGATC CCCGGAAGAGTTATCTTTTCTTTTTAACCAATTGAAACCCTGAAATCGGATTAACCGGAGATAGGGTTTG ATGTTGGGTAGAGCATCTCAATTTTGAGGTGTCGGGAGCGTTCCTGACGGCCCTTGAAAATCCGAGGGAA AGAATAATTTTCACACCTAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTAACAGCCTCTAGTTGAT AGAATAATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGT TGGGTGCATTGGGCTGGGGTTTGAAGGCTTGGGACCGATCTGGGACTACTCTAGCTTCACGGCAGGAGCG GACCCGGACTGGACCTGAGTTGGACGGCCTCAGCATGGGCCGGTTTCGGCCGGTCCGTCTGGTGCACAAT TAACAACCAACTTAGAACTGGTGCGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATG GCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAAC CAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAG TGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGG GAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGGAA AGACATAGGGGGTGTAGAATAAGTGGGAGCCTCGGCAACAGTGAAATACCACTACCCTTATCGTTTTTCT ACTTATTCAATGAAGCAGGAATGGGCGTCATGCCCAGATTCTAGCGTTAAGGTATCTCAGCATACCGACC TGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGT CCTAAGGGGAGCTCAACGAGAACAGAAATCTCGTGTAGAATAAAAGGGTAAAAGCTCCCTTGATTTTGAT TTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCGCTGGGTATTTCAGCCTAGA GGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTT GATCCTTCGATGTCGGCTCTTCCTATCATTGAGAAGCAGAATTCTCAAAGCGTCGGATTGTTCACCCGCT AATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAAGGGATAT CGCAATAGTAATTCAACCCAGTACGAGAGGAACCGTTGATTCGCATAATTGGTATTTGCGGTTAGCTGAA AAGCTAGTGCCGCGAAGCTACCATGCGTTGGATTATGG >gi|311235597|ref|NG_027612.1| Preussia terricola strain DAOM 230091 28S ribosomal RNA, partial sequence TAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAAC AGCTCAAATTTGAAATCTGGCTCTTTTAGGGTCCGAGTTGTAATTTGCAGAGGGTGCTTTGGCAAAGGTT GTGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGCCGCCAACCCGCGCT ATGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAA AGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAG AGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCCCGTAGTTGCTCATC CGGGCTCTTGCCCGGTGCACTCTTCTATGGGCAGGCCAGCATCAGTCTTGGCGGTCGGATAAATGCGTGC TAAACGTACCTCTCTTCGGGGAGGACTTATAGGGCACGCGGCATACGACCAGCCGGGACTGAGGTCCGCG CATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTTGGGTGTCAAGCCCGAGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCCTCGGGGT GCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGC AAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTGGGGGT TGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGAC ATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC GGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGAC GGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAA AATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCCAGGGCAGAAATTATGCCCTGGCGAGTAGGC AGGCGTGGGGGCTTGTGACGAAGCCTTGGGGGTGACCCCGGGTAGAACAG >gi|311235596|ref|NG_027611.1| Dothidea sambuci strain DAOM 231303 28S ribosomal RNA, partial sequence TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTATTAACGGCGAGTGAAGCGGCAA TAGCTCAAATTTGAAAGCTGGCTTATGGCCCGCATTGTAATTTGTAGAGGATGCTTTTAGGCAGCCGCCG GTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCTCTGGCACCTTAT GTAAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTAAAG CTAAATACTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAG AGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAATCAGACTTGGACTTGGCTGTTCAACAG GTCTTCTGACCTGCCTATTCAGTCTTGTCCAGGCCAGCATCAGTTTCGGCGGCCGGATAAAGGCTCTGGG AATGTGGCTTTCCCTTCGGGGGAAGTGTTATAGCCCAGGGTGTAATACGGCCAGCTGGGACTGAGGTCCG CGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTAGGGTGTCAAACCCTTACGCGTAATGAAAGTGAACGGAGGTGAGAACCCGCAAGG GTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGG GATGAAACATCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGG ACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAAC GCGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGG ACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTG AAAATGGATGGCGCTCAAGCGTGTTACCCATACCTCGCCGCCATGGTAGATTCGAAGCCATGGCGAGTAG GCAGGCGTGGAGGTCAGTGACGAAGCCTTCGGGGTGACCGGGGGTAGAACGACCTCTAGTGCAG >gi|311235595|ref|NG_027610.1| Ascobolus carbonarius strain KH-00-08 28S ribosomal RNA, partial sequence GAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAAAGCTCAAATTTGAAATCGGATAGTC TTGCGACCTCCGAGTTGTAATTTGTAGGGGCGACTTTGGGTATACAGCCAGGTCTATGTTCCTTGGAACA GGACGTCATGGAGGGTGAGAATCCCGTAAATGGCTTGGCCAGTGCCTATGTATAGCGCTTTCAACGAGTC GAGTTGTTTGGGAATGCAGCTCTAAGCGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCG ATAGCGTACAAGTAGAGTGATCGAAAGGTGAAAAGCACTCCGGAAGGAGAGTTAAACAGCACGTGAAATT GTTGAAAGGGAAGCGCTTGAGACCAGACTCAGGTAAAGTTGATCAACCTCCATTCTTGGTGGTGCACTCT TCTTTGCCCGGGCCAGCAACAGTTTTGGCGGTGGTATAAAGGTTTAGGGAATGTGGCTCTCAATTTGGGA GTGTTATAGCCCTATTCGTAATGCCGCCTGCTGAGACTGAGGACCGCGCTCCGGCTAGGTTGTTGGCGTA ATGGTCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGGAA AACCCTTGCGCGTAATGAAAGTGAACGGAGGTGGGATCCCGTAAAAGGGCGCACCATCGACCGATCCTGA CGTCTTCTGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGTATAG GGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGG GTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCA >gi|311235594|ref|NG_027609.1| Gyromitra californica strain 06/22/2003 28S ribosomal RNA, partial sequence AGCGGAGGAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTTAA AGCTGGCGCCTTCGGCGCACGCGTTGTAATTTGGAGAGGCATCTTCGGTTCGGGCGCCAGCCTATGTTCC TTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCCTGGCTGGCTGTCCCGACCCATGTGAAGCGCCT TCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGG CGGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAATAGAGTTAAAAAGT ACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCAGACTCGGCTGGGGATGATCAGCGGCCCTTCTGGGC CGTGCACTTGTCCCCGGTCGGGCCAGCATCGGTTGAGGCGGTGGGATAAAGGCCCGGGGAATGTGGCTCC TCTCGGGGAGTGTTATAGCCCCGGACGCAATGCCGCCAGCCTTGACCGAGGGCCGCGCACTTTGTGCTAG GATGCTGGCGTAATGGTCTTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGT GTTTGGGTGTCAAACCCTTGCGCGNAATGAAAGTGAACGGAGGTGGGAACCCCTCGCGGGGCGCACCATC GACCGGTCCTGATGTCTTCGGATGGATNTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACT ATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGAT CGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAANTTTCCC TCAGGATAGCAGTAACGATCTCANTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGCAACAA CCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTTCTTANCTGAACNTGGACATTTGAAT GTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAA GGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCA TGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATG GCGCTCAAGCGTGCTACCCATACCTCGCCGCCACGGTAGAAACGATGCCGTGGCGAGTAGGCAGGCGTGG GGGTCAGTGACGAAGCCTTGGGAGCGATCCCGGGTCGAACGGCCTCTAGTGCA >gi|311235593|ref|NG_027608.1| Monilinia laxa strain CBS 122031 28S ribosomal RNA, partial sequence GGGATTACCTCAGTAACGGCGAGTGAAGCGGTAAAAGCTCAAATTTGAAATCTGGCTCTTTTAGAGTCCG AGTTGTAATTTGTAGAAGATGCTTCGGGTGTGGTTCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAG GGTGAGAATCCCGTATGTGACTGGATACCTATGCTCATGTGAAGCTCTTTCGACGAGTCGAGTTGTTTGG GAATGCAGCTCAAAATGGGTGGTATATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAA GTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGA AGCGCTTGCAATCAGACTTGCACTTGGTGTTCATCGGGGTTTCTACCCCGTGTACTTCATCAAGTTCAGG CCAGCATCAGTTTGGGTGGTTAGATAAAGGCTTAGAGAATGTGGCCCTCTTCGGGGGGTGTTATAGCTCT AGGTGCAATGTAGCCTACCTGGNNTGAGGNCCGCGCTTCGGCTANGATGCTGGCGTAATGGTTGTAAGCG ACCCGTCTTGAAACACGGACCAAGGAGTGTACCTAATATGCGAGTGTTTGGGTGTTAACCCATACGCGTA ATGAAAGTGAACGGAGGTGAGAGCCCTTAAGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATT TGAGTAAGAGCATATTGGGTGCGACCCGAAAGATGGTGATCTATACGTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGCGTATAGGGGCGAAAGA CTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTGTTGTTTTCAGTTTT ATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATAT GTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTCGAATGTACCAACACTAGTGGGCCATTTTTGGT AAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATATACGCTCATCAGACAC CACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATGTG TAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTATTACCCATACCTCGC CGCCAGGGTAGAAACTATGCCCTGGCGAGTAGGCAGGCGTGGAGGTCGTGACGAAGCCTTGGGAGGATCC CGGG >gi|311235592|ref|NG_027607.1| Sarcosphaera crassa strain KH05242003-4 28S ribosomal RNA, partial sequence TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAA AAGCTCAGATTTGAAATCTGGCACTATTTTGAGTGCCCGAATTGTAATCTGTAGAGGAGTATTCGAGTGT AGCTTTGGCTTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAACCCCGTTTACGGCCTTTGACTTA TGCTTATGTGAATCTTCTTCAACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATTGGTGGTAAATTCCA TCTAAAGCTAAATACTGGCAAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGAACTCTG AACAGAGAGTCAAATAGTACGTGAAATTGTTGAAAGGGAAGCACTTGTTACCAGACATGCCTTCAGTCAA TCAACCTTCATTTTTGATGGTGCACTTGGCTGTCGGTGGGTCAGCATCAGTTACAACAGTGGGATAAAGG CTGTGGGAATGTGACTTCCTTCGGGGAGTGTTATAGCCCATAGTGTAATACCAATCGTTGTGACTGAGGC CTGCGCTTCGGTGAGGATGCTGGCATAATGGTCATAAGTGACCCGTCTTGAAACACGGACCAAGGAGTCT AACATCTATGCGAGTGTTTGGGTGTTAAAACCCTTACGCGGAATGAAAGTAAATGGAGGTGGGAACCGCA AGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAGTAGCATAGCTGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATNTAGTAGCTGGTTCCGG CCGAAGTTTCCCCTCCAGGATAGCAGTAACGATAATAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCT TGGGGTTGCAATAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCCTGTTGCTTAAGTGAAC GCGGACATTGGAATATGACGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACC GAACGCGAGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAG CAGGACGGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGC CCTGAAAATGGATGGCGCTTAAGCGTGTTACCTATACCTTGCCGCCATGGTAGACACCATGCCATGGCGA GTAGGCCGGCGTAGAGGTCAGTGACGAAGCCTGGGAGNATCC >gi|311235591|ref|NG_027606.1| Cheilymenia stercorea strain KH04282003-4 28S ribosomal RNA, partial sequence CTAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACTGCGAGTGAAGCGGCAA AAGCTCAAATTTGAAATCTGGCGTCTTCGGCGTCCGAGTTGTAATTTGGAGGGATATCTTCGGAGTTGGC GCCGTCCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTGCCTGGATGGCTGTCCATCT CCATGTGAAGTGTCTCCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCT AAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAA AGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCAGACTCAATCTTAGGTGATCA GCTGTGCTTCTGTACAGTGCACTTGCCTTTGATTGGGCCAGCATCGGTTTTGACGGCGGGATAAAAGGCG GAGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCTCTGTCATAATGCCGCCAGTTGGGACCGAGGACCG CGCTTCGGCTAGGATGCTGGCGTAATGGTCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTCGGGTGGAAAACCCTTGCGCGTAATGAAAGTGAACGGAGGTGTGAACCCCTCGGG GTGCAACATCGACCGATCCTGATGTCTTCGGAAGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGTAACGATTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGG GTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTGCTTAATTGAACGTGG GCATTTGAATGTACGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACG TGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGA CGGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGA AAATGGATGGCGCTCAAGCGTGCTACCTATACCTCGCCTTCATGGTAGAAACGATGCCATGAAGAGTAGG CAGGCGTAGAGGTCAGTGACGAAGCC >gi|311235590|ref|NG_027605.1| Anthracobia macrocystis strain KH04042003-9 28S ribosomal RNA, partial sequence TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACTGCGAGTGAAGCGGCAA AAGCTCAAATTTGAAATCTGGCGCCTTCGGCGTCCGAGTTGTAATTTGGAGGGACATCTTCGGGGCTGGC GCCGTCCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTGCCTGGGCGGATGCCCAGCT CCATGTGAAGTGTCTCCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCT AAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAA AGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTCGACCTTTGGCGATCA GCCGGGCTTCGGCTCGGTGCCATCGCCATTGGTTGGGCCAGCATCGGTTCTGACGGTGGGATAAAAGGCG AAGGAATGTGGCCTCCTTCGGGGGGTGTTATAGCCTTCGTCACAATGCCGCCAGTCGGGACCGAGGACCG CGCTTCGGCTAGGATGCTGGCGTAATGGTCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTCGGGTGGAAAACCCTTGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCCTTGGG GTGCACCATCGACCGGTCCTGACGTCTTCTGAAGGATCTGAGTAAGAGCATAGCTGTTGGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGTAACGATTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGG GTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGG ACATTTGAATGTACGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACG TGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGA CGGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGA AAATGGATGGCGCTCAAGCGTGCTACCTATACCTCGCCGTCACGGTAGATACGATGCCGTGACGAGTAGG CAGGCGTGGAGGTCAGTGACGAAGCCTAGGGAGTGATCCCGGGTAGAACGGCCTCT >gi|311235589|ref|NG_027604.1| Pseudopithyella minuscula strain KH04042003-1 28S ribosomal RNA, partial sequence TAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACTGCGAGTGAAGCGGCAAA AGCTCAGATTTGAAACCTGTCGCCTCTGGCGATCGGATTGTAATCTGGAGAGTCGTCTTCTGGCGGGCAG CCGGTCCAAGTTCCTTGGAACAGGACGTCAGAGAGGGTGAGAATCCCGTATCTGGCCGGCTTGTTCTGCC TTGTGAAGTGACTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAA AGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAG AGAGTCAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCAGACTCGGGTTGGGGTGATCAGC GGTGCTTCTGTGCCGTGCACTTGCCTCCTCCCGGGCCAGCATCGGTTGTGGCGACGGGATAAAGACTCGA GGAATGTGGCTCCCTCACGGGAGTGTTATAGCCTCGGGTGTAATGCCGCCAGCCGCGACCGAGGACCGCG CTTCGGCTAGGATGCTGGCATAATGGTCTTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAT CTATGCGAGTGTTCGGGTGTAAAACCCCTGCGCGTAATGAAAGTGAACGGAGGTGGGAGCCCTTCACGGG GCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGTAACGATATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGG GTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGG ACATTCGAATGAAACGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAAC GCGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGG ACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATGTGTAACAACTCACCTGCCGAATGAACTAGCCCTG AAAATGGATGGCGCTCAAGCGTGCTACCCATACCTCGCCGTCATGGTAGATACGATGCCATGACGAGTAG GCAGGCGTGGAGGTCAGTGACGAAGCCTGGGAGNATCCC >gi|311235588|ref|NG_027603.1| Chloroscypha enterochroma strain KH04042003-5 28S ribosomal RNA, partial sequence ATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCA AATTTGAAATCTGGCTCTTTCAGGGTCCGAGTTGTAATTTGTAGAAGATGCTTCGAGTATAGTCCCGGTC TAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACTGGTGCCTATGCTCATGTGA AGCTCTTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTATATTTCATCTAAAGCTAA ATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTT AAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAATCAGACTTGCGCGCCGTCGATCATCCTGGGT TCTCCCAGGTGCACTCGGCGGTGCTCAGGCCAGCATCGGTTCTGGGGGTGGGATAAAGGCCTTGGGAATG TGGCTCCTCTCGGGGAGTGTTATAGCCCTCGGTGCAATGCCGCCACCTGGGACCGAGGACCGCGCTTCGG CTAGGATGCTGGCGTAATGGTTGTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGC GAGTGTTTGGGTGTCAAACCCATACGCGTAATTAACGTGAACGGAGCTAAGAAGCCTTAAGGCTGCATTA GCGACCGGTCCTGATGTCTTCGGACGGATCTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAA CTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCG ATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTC CCTCAGGATAGCAGTGTTGAATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAAC AACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTCGA ATGTACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTT AAGGTGCCGGAATCTACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGC CATGGAAGTCGGAATCCGCTAAGGAATGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGA TGGCGCTTAAGCGTAGTACCCATACTTCACCGCCAGGGTAGAAACGATGCCCTGGCGAGTAGGCAGGCGT GGGGGTCAGTGACGAAGCCTTGGGAGTGATCCCGGGTNGAACGGCCTCTA >gi|311235587|ref|NG_027602.1| Aleuria aurantia strain KH04012003-1 28S ribosomal RNA, partial sequence CTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACTGCGAGTGAAGCGGCA AAAGCTCAAATTTGAAATCTGGCGTCTTCGGCGTCCGAGTTGTAATTTGGAGGGATATCTTCGGAGTTGG CGCCGTCCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTGCCTGGATGGCTGTCCATC TCCATGTGAAGTGTCTCCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATC TAAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAA AAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGAGACCAGACTCAATCTTTGGTGATC AGCTGTGCTTCTGTACAGTGCACTTGCCATTGATTGGGCCAGCATCGGTTCTGACGGTGGGATAAAAGTT TGAGGAATGTGGCTCTCTTCGGGGAGTGTTATAGCCTCGATCATAATGCTGCCAGTTGGGACCGAGGACC GCGCTTCGGCTAGGATGCTGGCGTAATGGTCTTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CATCTATGCCAGTGTTCGGGTGGAAACCCTTGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCTCACGG GTGCACCATCGACCGATCCTGATGTTTTCGGAAGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAG ATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGTAACGATTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGG GTTGTAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTGCTTAATTGAACGTGG GCATTTGAATGTACGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACG TGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGA CGGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGA AAATGGATGGCGCTCAAGCGTGCTACCTATACCTCGCCTTCATGGTAGAAACGATGCCATGAAGAGTAGG CAGGCGTGGAGGTCAGTGACGAAGCCTGGGAGNATCCCGGG >gi|311235586|ref|NG_027601.1| Barssia oregonensis strain KH03212003-4 28S ribosomal RNA, partial sequence AAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCATTAGCTCAAATTTTAAATCTGGCG TCTCTGGCGTTCCGAGTTGTAATTTGGAGAGGAATCTTCGGGGTCAGCACCAGACTATGTTCCTTGGAAC AGGACGTCACAGAGGGTGAGAATCCCGTGCACGCCTGGCTGCCTGGCCCCTTGTGAAGGGCCTTCTACGA GTCGAGTTGTTTGGGAATGCAGCTCTAAGTGGGTGGTAAATTTCATCTAAAGCTAAATATGGGCGAGAGA CCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAATAGAGTTAAAAAGTACGTGAA ATTGTTGAAAGGGAAGCGCTTGAGACCAGACACGGCTCCTGGCAAACAGCCTGCCCAGGCCATGGGCGGT GCACTTGCCTGGGGCTGGGCCAGCATCGGTTGGAGTGGCGGGACAAAGGCATGGGGAATGTGGCTCCTCT TGGGGAGTGTTATAGCCCTTTGTGCAATGCCGCCAACCCCGACTGAGGGCCGCGCCTCGGCGAGGATGCT GGCACAATGGTCTTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGG GTGTCAAACCCTTGCGCGAAATGAAAGTGAATGCAGGTGGGACAACCTCCCTCGGGGGGCATTGCACCAT CGACCGATCCTGATGTACTCGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAAC TATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGA TCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCC CTCAGGATAGCAGTAACGATCTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGTAACA ACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAA TGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTA AGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTGGTTCATCTAGACAGCAGGACGGTGGCC ATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGAT GGCGCTCAAGCGTGCTACCCATACCTCGCCGCCACGGTAGAACCGATGCCGTGGCGAGTAGGCAGGCGTG GGGGTCAGTGACGAAGCCTTGGGAGTGATCCCGGGTCGAACGGCCTCTAT >gi|311235585|ref|NG_027600.1| Hypocrea americana strain spat 03-04 23S ribosomal RNA, partial sequence AGAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCT CTCGGGGTCCGAGTTGTAATTTGTAGAGGATGCTTTTGGNGAGGCGCCGCCCGAGTTCCCTGGAACGGGA CGCCACAGAGGGTGAGAGCCCCGTCTGGCTGGCCGCCGAGCCTCTGTAAAGCTCCTTCGACGAGTCGAGT AGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATACTGGCCAGAGACCGATAG CGCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGAGGGTTAAATAGTACGTGAAATTGTTG AAAGGGAAGCGCTTGTGACCAGACTTGGGCGCGGCGGATCATCCGGGGTTCTCCCCGGTGCACTTCGCCG CGTCCAGGCCAGCATCAGTTCGTCGCGGGGGATAAAGGCTTCGGGAATCGTGGTCTCCCCCGGGAGTGTT ATAGCCCGTCGCACAATACCCTGCGGTGGACTGAGGACCGCGCATCTGCAAGATGCTGGCGTAATGGTCA CCAGCGACCCGTCTTGAAACNCGGACCAAGGAGTCGTCTTCGTATGCGAGTGTTCGGGTGTCAAACCCCT ACGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATGG ATTTGAGTAAGAGCATACGGGGCCGGACCCGAAAGAAGGTGAACTATGCCTGTATAGGGTGAAGCCAGAG GAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGGGCATGGGGGCGAA AGACTAATCGAACCTTCTAGTAGCTGGTTTCCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGAGCTCAGT TTTATGAGGTAAAGCGAATGATTAGGGACCCGGGGGCGCTATATTGCCTTCATCCATTCTCAAACTTTAA ATATGTAAGAAGCCCTTGTTACTTAGCTGAACGTGGGCATTCGAATGTATCAACACTAGTGGGCCATTTT TGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCAGAGTAGACGCTCATCAG ACACCACAAAAGGCGTTAGTACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAC TGTGTAACAACTCACCTGCCGAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTCTCACCCATACC TCGCCCTCGGGGTAGAAACGATGCCCCGAGGAGTAGGCGGACGTGGAGGTCAGTGACGAAGCCTAGGGCG TGAGCCCGGGTCGAACG >gi|311235584|ref|NG_027599.1| Xylaria hypoxylon strain spat 03-03 28S ribosomal RNA, partial sequence AGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACA GCTCAAATTTGAAATCTGGCTTTCGGGTCCGAGTTGTAATTTGTAGAGGATGCTTTTGGCGCGGTGCCTT CCGAGTTCCCTGGAACGGGACGCCTTACAGGGTGAGAGCCCCGTACGGTTGGACACCAAGCCTCTGTAAA GCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAA TATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTA AATAGCACGTGAAATTGTTGAAAGGGAAGCGTTTGCGACCAGACCTTTTCTTAGCGGATCATCCGGTGTT ATCACCGGTGCACTTCGCTAAGTTTAGGCCAGCATCGGTTTCTGTAGGGGGATAAAAGCCTTGGGAACGT AGCTCCTTCGGGAGTGTTATAGCCCTTTGCATAATACCCTTCTGGGGACCGAGGACCGCGCTATATGCAA GGATGCTGGCATAATGGTCGTCAACGACCCGTCTTGAANCACGGACCAAGGAGTCGAACATTTATGCGAG TGTTTGGGTGTTAAACCCTCACGGCGTAATGAAAGTGAACGGAGGTGAGAGCCCTTACGGGTGCATCATC GACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAACTGTTCGGACCCGAAAGATGGTGAACT ATGCGTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGAT CGTCAAATCTGCGCATGGGGGCGAAAGACTTATCGAACCATCTAGTAGCTGGTTACCGCCGAAGTTTCCC TCAGGATAGCAGTGTTGTTCTTCAGTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTTTTT TGCCTTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTAATTGAACGTGGGCATTCGA ATGTACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTT AAGGTGCCGGAGTGGACGCTCATCAGACACCACAAAAGGTGTTAGCACATTTAGACAATAGGACGGTGGC CATGGAAGTCGGAATCCGCTAAGGACTGTGTAACAACTCACCTATCGAATGTGCTAGCCCTGAAAATGGA TGGCGCTCAAGCGTCCCACCCATACCTCGCCCTCAGGGTAGAAACGATGCCCTGAGGAGTAGGCGGCCGT GGGGGTTAGTGACGAAGCCTAGGGCGTGAGCCCGGGTGAACAG >gi|311235583|ref|NG_027598.1| Sarcoscypha coccinea strain spat 03-02 28S ribosomal RNA, partial sequence GGATTGCCTTATTAACTGCGAGTGAAGCGGCAAAAGCTCAGATTTGAAACCTGTCGCCTTCGGCGATCGG ATTGTAATCTGGAGAGACATCTTCTGGCGGGCAGCCGGTCCAAGTTCCTTGGAACAGGACGTCGGAGAGG GTGAGAATCCCGTATCTGGCCGGTTTGTTCTGCCTTGTGAAGCGTCTTCGACGAGTCGAGTTGTTTGGGA ATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGCACAAGT AGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTCAAAAAGTACGTGAAATTGTTGAAAGGGAAG CGCTTGAGACCAGACTCGGGTTGGGGTGATCAGCGGTGCTTCTGTGCCGTGCACTTGTCCCTTCCCGGGC CAGCATCGGTTGTGACGGCGGGATAAAGGCCCGAGGAATGTGGCTCCCTTCGGGGTGTGTTATAGCCTCG GGTGCAATGCCGCCTGCCGCGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCATAATGGTCTTCAGCGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTAAAACCCCTGCGCGTA ATGAAAGTGAACGGAGGTGGGAACCCTTCACGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGA TTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAA GACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATANCAGTAACGATATCAGTT TTATGAGGTAAAGCGAATGATTANAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAAT ATGNAAGAAGTCCTTGTTGCTTAATTGANCGTGGACATTCGAATGAAACGTTACTAGNGGGCCATTTTTG GTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATGCACGCTCATCAGAC ACCACAAAAGGTGTTATTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATG TGTAACAACTCACCTGCCGAATGAACTANCCNTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCTC GCCGTCATGGTAGATACGATNCCATGACGAGTAGGCAG >gi|311235582|ref|NG_027597.1| Lachnum virgineum strain spat 03-01 28S ribosomal RNA, partial sequence CCACAGGGATTACCTCAGTAACGGCGAGTGAAGCGGTAACAGCTCAAATTTGAAATCTGGCTCTTTTAGG GTCCGAGTTGTAATTTGTAGAAGATGCTTTGGGTGTGGCCCTGGTCTAAGTTCCTTGGAACAGGACGTCA TAGAGGGTGAGAATCCCGTATGTGACTAGGTGCCTTCGCCCGTGTAAAGCTCTTTCGACGAGTCGAGTTG TTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCCAGAGACCGATAGCG CACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGTTGAA AGGGAAGCGCTTGCAACCAGACTTAGTTGCTGCCGATCATCCAGGGTTCTCCCTGGTGCACTCGGTAGTA TCTAGGCCAGCATCGGTTTGGGTGGTGGGATAAAGGCCTTGGGAATGTAGCTTCTTTCGGGGAGTGTTAT AGCCCTCGGTGCAATGCCGCCTACCCGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTG TAAGCCACCCGTCTTGAAACACAGACCAAGGAGTCTAACATCTATGCGAGTATTTGGGTGTTAAACCCAT ATGCGTAATGAAAGTGAACGGAGGTGAGAACCCTTAAGGGTGCATCATCGACCGATCCTGATGTCTTCGG ATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTAAATAGGGTGAAGCC AGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGG CGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTGTTGAATT CAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGCAACAACCTTAACCTATTCTCAAACTT TAAATATGTAAGAAGTCCTTGTTACTTAATTGAACGTGGACATTCGAATGTACCAACACTAGTGGGCCAT TTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAAGTTAAGGTGCCGGAATATACGCTCAT CAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAG GAATGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTATTACCCAT ACTTCACCGCCAGGGTAGAAACGATGCCCTGGCGAGTAGGCAGGCGTGGGGGTCAGTGACGGAGCCTTGG GAGTGATCCCGGGTAGAACG >gi|311235581|ref|NG_027596.1| Leotia lubrica strain strain spat 03-012 28S ribosomal RNA, partial sequence CTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCA ACAGCTCAAATTTGAAATCTGGCCCACGTGGCCCGAGTTGTAATTTGTAGAGGATGCTTCGGGCGTGGTC CGGCCTAAGTCCCTTGGCACAGGGCGTCATAGAGGGTGAGAACCCCGTATGTGGCCGGGTGCCTAGGCCC GTGTGAAGCTCCGTCGACGAGTCGAGTTGTTTGGGATTGCAGCTCAAAATGGGTGGTAAATTTCATCTAA AGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAG AGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCGACCAGACTTGGGCGCGGCTGATCATC CGGCGTTCTCGCCGGTGCACTCGGCCGCGTGCCAGGCCAGCATCGGTTCCGGCGGCCAGACAAAGGCCGG GCGAACGTGGCTCCCCCAGGGAGTGTTATAGCGCCCGGCGCCATGTGGCCTGCTGGGACCGAGGACCGCG CCTCTGGCTAGGATGCTGGCGTAATGGTCGCAAGCGACCCGTCTTGAAACACGGACCAAGGAGTGGAATA ATCATGCGAGTGTTTGGGTGCAAACCCATGCGCGAAATGAAAGTGAACGGAGGTGAGAGCCCGCCAGGGC GCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATGGCTGTTCCGACCCGAAAGAT GGTGAACTATGCGTGGATAAGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGC AAATCGATCGTCAAATCTGTGCATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGTGTTGAATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGA AGGAACTTCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTCAGCTGAACGTGGAC ATTCGAATGTAGCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC GGAGTTAAGGTGCCGGAATGTACGCTCATCAGACCCCACAAAAGGTGTTAATTCATCCAGACAGCAGGAC GGTGGCCATGGAAGTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAATTAGCCCTGAA AATGGATGGCGCTCAAGCGTACTACCCATACTCCGCCGCCAGGGTAGAAGCGATGCCCTGGCGAGTAGGC AGGCGTGGGGGTCAGTGACGAAGCCCTGGGGAGTGATCCCGGGTCGAACGGCCCCTAGTGCAGACT >gi|311235580|ref|NG_027595.1| Westerdykella cylindrica strain ATCC 24077 28S ribosomal RNA, partial sequence TGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAG CGGCAACAGCTCAAATTTGAAATCTGGCCCTCTCAGGGTCCGAGTTGTAATTTGTAGAGGGTGCTTTGGC ATTGGTTGTGGTCTAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGCCGCCAAC CTTCGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTC CTTCTAAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTT TGGAAAGAGAGTCAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCCTGTAGTT GCTCACCTCGGCTTCTGCCTTGGGTACTCTTCTACGGGCAGGCCAGCATCAGTCCGGGCGGTTGGATAAA TGCCTGCTAAATGTACCTCTCCTCGGGGAGGACTTATAGGGTAGGCGGCATACAACCAGCCTGGACTGAG GTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGT CTAACATCTATGCGAGTGTTTGGGTGTAAAGCCCGGACGCGCAATGAAAGTGAACGGAGGTGGGAACCCC TCGGGGTGCACCATCGACCGATCCTGAAGTTTACGGATGGATTTGAGTATGAGCATAGCTGTTGGGACCC GAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCT GACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTC CTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCC TGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAATTGAA CGTGGACATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAAC CGAACGCGGGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACA GCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAG CCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCCCGCCGCCAGGGCAAACATTATGCCCTGGCG AGTAGGCAGGCGTGGGGGCTTGTGACGAAGCCTTGGGGGTGACCCCGGGTAGAACAGCCCCTAGTGCAGA TCTTGGTGG >gi|311235579|ref|NG_027594.1| Stylodothis puccinioides strain CBS 193.58 28S ribosomal RNA, partial sequence TGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAG CGGCAATAGCTCAAATTTGAAAGCTGGCTTATGGCCCGCATTGTAATTTGTAGAGGATGCTTTTAGGCAG CCGCCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAATCCCGTATGTGACCGGCTCTGGCA CCTTATGTAAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTT CTAAAGCTAAATACTGGCGAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGG AAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAATCAGACTTGGACTTGGCTGTT CAACAGGTCTTCTGACCTGCCTATTCAGTCTTGTCCAGGCCAGCATCAGTTTCGGCGGCCGGATAAAGGC CCTAGGAATGTGGCTTTCCCTTCGGGGGAAGTGTTATAGCCTAGGGTGTAATACGGCCAGCTGGGACTGA GGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGGACCAAGGA GTCTAACATCTATGCGAGTGTTAGGGTGTCAAACCCTTACGCGTAATGAAAGTGAACGGAGGTGAGAACC CGCAAGGGTGCATCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGAC CCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTT CTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGT TCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGG CCTTGGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAGTTG AACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGA ACCGAACGCGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGA CAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACT AGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCTCGCCGCCATGGTAGATTCGAAGCCATGG CGAGTAGGCAGGCGTGGAGGTCAGTGACGAAGCCTTCGGGGTGACCCGGGGTAGAACGACCTCTAGTGCA GATCTTGGTGG >gi|311235578|ref|NG_027593.1| Chromendothia citrina strain AR 3445 28S ribosomal RNA, partial sequence GAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGG CTTCGGCCCGAGTTGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGAC GCCACAGAGGGTGAGAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTA GTTTGGGAATGCTGCTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGC GCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGA AAGGGAAGCGCTTGTGACCAGACTTGCGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCG GCTCAGGCCAGCATCGGTTCTCGTTGGGGGATAAGAACGGCAGGAACGTGGCCCTCCTTCGGGTGGGTGT TATAGCCTGCCGTACGATACCCTGACGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTC ATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTCAAACCCG CACGCGTAATGAAAGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATG GATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGA AAGACTAATCGAACTGTCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTCA GTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTTTTTAGCCTTCATCCATTCTCAAACTTT AAATATGTAAGAAGCCCTTGTTACTTAGTTGAACGTGGGCATTCGAATGTATCAACACTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGCGCCAGAGTGTACGCTCATC AGACACCACAAAAGGCGTTAGTACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG ACTGTGTAACAACTCACCTGCCGAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACCGCCCATA CCCCGCCCTCAGGGTAGAAACGATGCCCTGAGGAGTAGGCGGCCGTGGAGGTCAGTGACGAAGCCTAGGG CGTGAGCCCGGGTCG >gi|311235577|ref|NG_027592.1| Apiognomonia errabunda strain AR 2813 28S ribosomal RNA, partial sequence GAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGG CTTCGGCCCGAGTTGTAATTTGCAGAGGATGTTTATGGTGCGGTACTTTCCGAGTTCCCTGGAACGGGAC GCCACAGAGGGTGAGAGCCCCGTCTGGATGGATACCAAACCTGTGTTAAACTCCTTCAACGAGTCGAGTA GTTTGGGAATGCTGCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAAATATAGGCCAGAGACCGATAGC GCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGA AAGGGAAGCGTTTATGACCAGACTTGTGTCGTGTGGCTCATCCGAGGTTCTCCCCGGTGCACTCCACGCG GCTCAGGCCAACATCGGTTTTTGTCGGAGGATAAGAATAGTAGGAACGTAGCTCTTCCTCGGAAGAGTGT TATAGCCTATTATACGATACTTTGATAGAGACCGAGGACCGCGCTTCGGCTAGGATGTTGGCGTAATGGT CATTAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCC GCACGCGTAATGAAAGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGAAGTTTACGGAT GGATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGAATAGGGTGAAGCCAG AGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGAGCATGGGGGCG AAAGACTAATCGAACTGTCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTC AGTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTTATTAGCCTTCATCCATTCTCAAACTT TAAATATGTAAGAAGCCCTTGTTACTTAATTGAACGTGGGCATTCGAATGTACCAACACTAGTGGGCCAT TTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGGGGGGTTAAGGCGCCAGAATGTACGCTCAT CAGACACCACAAAAGGCGTTAGTACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAG GACTGTGTAACAACTCACCTGCCGAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACTGCCCAT ACCCCCCCTTCAGGGTAGAAACGATGCCCTGAAGAGTAGGCGGCCGTGGAGGTTGTGACGAAGCCTTGGG CGTGAGCCCGGGTCGAACAGCCTCTAGTGCAGA >gi|311235576|ref|NG_027591.1| Pleuroflammula flammea strain MCA 339 28S ribosomal RNA, partial sequence GAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAAAGCTCAAATTTAAAATCTGG CGGCTTGCCGTCCGAGTTGTAATCTAGAGAAGTGTTACCCGCGCTGGACCGTGTACAAGTCTCCTGGAAT GGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACGGACTGCCAGGGCTTTGTGGTGCGCTCTCAAAG AGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATGCCATCTAAAGCTAAATATTGGCGAGAG ACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGGAAAGAGAGTTAAACAGTACGTGA AATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCGGGAATCAGCCTTGCTTTTGCTTGGTGTA TTTTCTAGTCGACGGGTCAGCATCAATTTTGATCGTCGGACAAAGGTTCAGGGAATGTGGCTTCTTCGGA AGTGTTATAGCCCTTTGCTGCATACGACGGTTGGGATTGAGGAACTCAGCACGCCGCAAGGCCGGGGTTC GCCCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAATCGACCCGTCTTGAAACACGGACCAAGGAG TCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCGTAATGAAAGTGAAAGTTGAGATCCCTGT CGCGGGGAGCATCGACGCCCGGACCAGACCTTTTGTGACGGATCCGCGGTAGAGCATGTATGTTGGGACC CGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTC TGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTT CCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATTTCAGATTTATGTGGTAAAGCGAATGATTAGAGG CCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAACGAGCCGTCTCTTGACTG GAC >gi|311235575|ref|NG_027590.1| Leucostoma niveum strain AR 3413 28S ribosomal RNA, partial sequence GAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAAGCTGG CTCCGGCCCGCATTGTAATTTGCAGAGGATGCTTTTGGCGAGGTGCCTTCCGAGTTCCCTGGAACGGGAC GCCATAGAGGGTGAGAGCCCCGTATGGATGGACACCAAACCTGTGTAAAGCTCCTTCAACGAGTCGAGTA GTTTGGGAATGCTGCTCTAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGC GCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGA AAGGGAAGCGCTTGTGACCAGACTTGCGCCGGGCAGCTCATCAGGGGTTCTCCCCTGTGCACTCTGCCCG GCTCAGGCCAGCATCGGTTCTCGTGGGAGGATAAGAACAGTGGGAACGTGGCCCCCTCTCGGGGGGGTGT TATAGCCCATTGTACGATACTCTCGTGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTC ATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTAAAACCCG CACGCGTAATGAAAGTGAACGCAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTCTTCGGATG GATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGA AAGACTAATCGAACTGTCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGTTCTTCA GTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTTATTAGCCTTCATCCATTCTCAAACTTT AAATATGTAAGAAGCCCTTGTTACTTAATTGAACGTGGGCATTCGAATGTACCAACACTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGCGCCAGAGTGTACGCTCATC AGACACCACAAAAGGCGTTAGTACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG ACTGTGTAACAACTCACCTGCCGAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACCGCCCATA CCCCGCCCTCAGGGTAGAAACGATGCCCTGAGGAGTAGGCGGCCGTGGGGGTCAGTGACGAAGCCTAGGG CGTGAGCCCGGGTCGAACGGCCC >gi|311235574|ref|NG_027589.1| Cryphonectria parasitica strain ATCC 38755 28S ribosomal RNA, partial sequence CTTCGGCCCGAGTTGTAATTTGCAGAGGATGTTTCTGGCGCGGTGCCTTCCGAGTTCCCTGGAACGGGAC GCCACAGAGGGTGAGAGCCCCGTATGGTTGGACACCAAGCCTGTGTGAAACTCCTTCGACGAGTCGAGTA GTTTGGGAATGCTGCTCAAAATGGGAGGTAAATCTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGC GCACAAGTAGAGTGATCGAAAGATGAAAAGCACCTTGAAAAGGGGGTTAAACAGTACGTGAAATTGTTGA AAGGGAAGCGCTTGTGACCAGACTTGCGCCGGGCGGTTCATCCGGGGTTCTCCCCGGTGCACTCCGCCCG GCTCAGGCCAGCATCGGTTTTCGTTGGGGGATAAGAACGGCAGGAACGTGGCCCTCCTTCGGGTGGGTGT TATAGCCTGCCGTACGATACCCTGACGGGGACCGAGGTTCGCGCTCCGCAAGGATGCTGGCGTAATGGTC ATCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCGTCCATTAGAGCGAGCGTTTGGGTGTCAAACCCG CACGCGTAATGAAAGTGAAATTAGGTGAGAGCTTCGGCGCATCATCGACCGATCCTGATGTTCTCGGATG GATTTGAGTAAGAGTTTTAACGGACGGACCCGAAAGACAGTGAACTATGCTTGTATAGGGTGAAGCCAGA GGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATATGAGCATGGGGGCGA AAGACTAATCGAACTGTCTAGTAGCTGGTTACCGCCGAAGTTTCCCTCAGGATAGCAGTGTTGACCTTCA GTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGGGCGCTTTTTAGCCTTCATCCATTCTCAAACTTT AAATATGTAAGAAGCCCTTGTTACTTAGTTGAACGTGGGCATTCGAATGTATCAACACTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGGGGTTAAGGCGCCAGAGTGTACGCTCATC AGACACCACAAAAGGCGTTAGTACATCTTGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGG ACTGTGTAACAACTCACCTGCCGAATGTACTAGCCCTGAAAATGGATGGCGCTCAAGCGTACCGCCCATA CCCCGCCCTCAGGGTAGAAACGATGCC >gi|311235573|ref|NG_027588.1| Rhizocarpon oederi strain Stenroos 5687 28S ribosomal RNA, partial sequence GGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGNCCCCTCGGGGTCTGA GTTGTAATTTGTAGAGGGGGTTTCGGGCGCGGGGCCGGTCCAAGTTCCTTGGAACAGGACGTCATGGAGG GTGAGAATCCCGTGCGTGACCGGCTGCCTATCCCATGTGTACCCCCTTCGACGAGTCGAGTTGTTTGGGA ATGCAGCTCAAAGTGGGTGGTAAATTTCATCTAAAGCTAAATATCGGCCAGAGACCGATAGCGCACAAGT AGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTCAAACAGTACGTGAAATTGTTGAAAGGGAAG CGCTTGCAACCAGACCTGACCATGGGCGATCAGCCGCTATTTTGAGCGGTGCATTCGATCTTGTTCAGGC CAGCATCGGTTCGAGCGGCCGGATAAAGGCTTCGGGAATGTAGCTTCCTTCGGGGTGTCTTATAGCCCGA GGTGCCATGCGGCCAGCCTGGACCGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTGCAAGCGA CCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACTCATGCGCGTA ATGAAAGTGAACGGAGGTGAGATCCCCCGAGGGCGCACCATCGACCGATCCAGATGTCTTCGGATGGATT TGAGTATGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGA CTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTT ATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATAT GTAAGAAGTCCTTGTTGCTTAGTTGAACGTGGACATTTGAATGCACCGTTACTAGTGGGCCATTTTTGGT AAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACAC CACAAAAGGTGTTAGTTCATCCAGACAGCCGGACGGTGGCCATGGAAGTCGGAAACCGCTAAGGAGTGTG TAACAACTCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCTCGC CGCCCGGGCAGGAACGACGCCCGGGCGAGTAGGCCGGCGCGGGGG >gi|311235572|ref|NG_027587.1| Candelariella terrigena strain 07.13.03-19 28S ribosomal RNA, partial sequence CCAACAGGGATTACCCTAGTAACGGCGAGTGAAGCGGTAACAGCTCAAATTTGAAATCGGGCCCTTCTGG GGTTCGAGTTGTAATTTGTAGAGGATGCTTCGGGTGCGGCGCTGGTCTAAGTTCCTTGGAACAGGACGTC ATAGAGGGTGAGAATCCCGTATGTGACCGGGTGCCCAGCTCATGTGAAGCTCCTTCGACGAGTCGAGTTG TTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCTAAATACCGGCCAGAGACCGATAGCG CACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAA AGGGAAGCGCTTGCCGCCAGACTTGCCTGCAGTGGATCAGCCAGTGTTCTCACCGGTGCACGCCTCTGCA GTCAGGCCAGCACCAGTTCAAGCGGCTGGATAAAGGCTCCAAGAATGTAGCTCCTCTCGGGGAGTGTTAT AACTTGGAGTGCAATGCAGCCAGCCTGGACTGAGGACCGCGCTTCGGCTAGGATGCTGGCGTAATGGTTG CAATCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCAAGTGTTTGGGTGTCAAACCCAT GCGCGTAATGAAAGTGAACGGAGGTGGGAACCCTCAAGGGTGCACCATCGACCGATCCTGATGTCTTCGG ATGGATTTGAGTAAGAGCATAACTGTTGGGACCCGAAAGAAGGTGAACTATGCCTGAATAGGGTGAAGCC AGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGG CGAAAGACTAATCGAACTTTCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAATGAATT CAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTT TAAATATGTAAGAAGTCCTTGTTACTTAGTTGAACGTGGACATTTGAATGTACCATTACTAGTGGGCCAT TTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTAAGGTGCCGGAATTCACGCTCAT CAGACACCACTCCCAGCCTCTGTGGTGTCGAAGCTAGGCGCAGATGCCTAGCGAAGTCCCTATGGCTAGG GGCGAGGTCACCGTTCTGTGGGGATGATCAGGTGCCCCCCCTGACCTACCCGTAGCCGCCCCCAAGGTGG TTCACAGATTAGGCGGTGGCCGGCAGCAAGCTGCAGGTACAGCAAGTTGCTTGAAATATAATCGGCCCTC AGGTTTACGCCTGGGGATCAAGCGCAAAAGGTGTTAGTTCATCTAGACAGCCGGACGGTGGCCATGGAAG TCGGAATCCGCTAAGGAGTGTGTAACAACCCACCGGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTC AAGCGTGATACCTATACCTCGCCGCCAGGGTAGAAACGATGCCCTGGCGAGTAGGCAGGCGTGGAGG >gi|311235571|ref|NG_027586.1| Phleogena faginea strain CUW MA 220505 28S ribosomal RNA, partial sequence GGATTCCCCTAGTAACTGCGAGTGAAGCGGGAAGAGCTCAAATTTGTAATCTGGCCGTCCTCGAGGCGGT CCGAGTTGTAACCTATAGAAGCGTCATCCGCGCCGGCCCTTGCCTAAGTCTGTTGGAATTCAGCGTCGTT GAGGGTGAGAACCCCGTCACTGGCAAGGACAACCGGGGCTTTGCGTTGCGCTCTCTAAGAGTCGTGTTGT TTGGGAATGCAGCACTAACGGGTGGTAAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAA CAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAATAGCACGTGAAATTGTTGAAAG GGAAACGCTTGAAGTCAGTCATGCCCTTGGGAGCTTCAGCCTTAATTGGYGTATTCTTCCTTTGTGGCAG GTCAACGTCGGTTTCGAAGGCACGGATAAGGGCCCGGGGAATGTAGCTTTGCCACGGCGAAGTGTTATAG ACCCCCGCTGGATACGGCTTTTGGGACCGAGGTTAGCAGCGCGCTCCCCCTTTTGGGGGGGGCCGGCGGG GTGATTCCTGTCGTACGCGCTTAGGATGTTGGCGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACC AAGGAGTCTAACATGCTTGCGAGTATTTGGGCGTYAAACCCTTATGCGCAATGAAAGTGAATGCAGGTGG GATCCGAAAGGTGCACCATCGACCGATCTCGAAGCTATTAGCGACGGATTTGAGTAAGAGCAAGCATGTT GGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAG CGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAG CTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAGACTCGCATAAGTTTTATGAGGTAAAGCGAATGAT TAGAGGCCTTGGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATGTGTAAGAAGCGCTCGTCACT TGATTGGACCTGCGCGATGCGAATTAGAGTCTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCG GGATGAACCGAACGGGGAGTTAAGGTGCCGGAATTTACGCTCATCAGACACCACAAAAGGTGTTAGTTCA TCTAGACAGCCGCACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCAACGGCCGAA TGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTAATACCCATACTCCCCCGTCAGCGTTTTTAGAGCG ACGCGTTGACGAGTAGGCAGGCGTGGGGGTTTAGTGACGAAGCCTTGGGAGCGATCCCGGGTGGAACGGC CCCTAGTGCAGATCTTG >gi|311235570|ref|NG_027585.1| Pyrgillus javanicus strain 03.24.03-9 28S ribosomal RNA, partial sequence ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCT CAAATTTGAAATCTGGCCCTTGCAGGGTCCGAGTTGTAATTTGTAGAGGATGCTTCGGGCAAGGCTGCGG TTTAAGTTCCTTGGAACAGGACGTCATAGAGGGTGAGAGTCCCGTCTTTGACCGTACGCCGCGTCCGTGT GAAGCTCCTTCGACGAGTCGGGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCT AAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAG TTAAACAGCATGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACCTGTGGGCGGTGATTCAGCCGTT ATTTTTAACGGTGCACTTTGCCGTCTCCAGGCCAGCATCGGTTCTGGTAGCCAGTTAAAGGCCCCGGGAA TGTATCAACCCTCCGGGGTTGACTTATAGCCCAGGGTGCCATCTGGCTCACCGGGACCGAGGGACGCGCT CTGCACGGATGCTGGCGTAATGGCTGTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTA TGCGAGTGTTAGGGTGTGAAACCCCTGCGCGTAATGAAAGTGAACGGAGGTAGGAGCCCGTACGGGCGCA CTATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGT GAACTATGCGTGTATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAA TCGATCGTCAAATATGCGTATAGGGGCGAAAGACTAATCGAACCATCTGACCAGGTGGTTCTGGGGAGGA TGATACCTCCCGACCTAACCTACATCTCGTAGGTCACACCGTTGAGTTGGCGGGAATTCTTAACTAAGAT ACCCGCAGCAGTATCCTCGAGGACTGTTCACAGACTACGGAACGGTGGTTAGATGTACCGTCTAATCAAA ATATAGTCGGGAAGAGATCGGGGGAGCGTGATGCCGCCGAAAAAAATCTCTACGAACGCTGGTAGCTGGT TCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGG CCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTAGTTG AACGTGGGCATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGA ACCGAACGTGAGGTTAAGGTGCCGGAATACACGCTCATCAGATACCACGTCCCCAGTTAAGCCATCCACC CGTTTTCAACTGTGGTATCGAACCTAGGGCGCGCCCTAGCTGACAGCCTCTCCGGAGGTGAGGTCTTTAC CGTGAGGGGATTGCTCTCGCAAGAAGCATGCCCTCAGCCGCCCCCCCGGGTGGCCCACAGATCAAGTAAA GACCGGTAGAAAGCCGCGACCTTTCTACTGGAGATATGATCGGCCCTGGAACGTCAGTTTCAGCGACCCG TGCAAAAGGTGTTAGTTCATCTAGACAGCCTGACGGTGGCCATGGAAGTCGGAATCCGCTTAGGAGTGTG TAACAACTCACAGGCCGAATGAACTAGCCCTGAAAATGNATNNCGCTCAAGCGTGTTACCTATACCTCGC CGTTAAAGTTTTAAGGATGCTTTAACGAGTAGGCAGGCGTGGAGGTTTGTGACGAAGCC >gi|311235569|ref|NG_027584.1| Ramichloridium anceps strain WUC375 28S ribosomalRNA, partial sequence ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAGTGAAGCGGCAAGAGCT CAAATTTGAAATCTGGCCTCTTTGGGGTCCGAGTTGTAATTTGTAGAGGATGTTTCGGGTACCGCCTCGG TTTAAATTTCTTGGAACAGAATGTCAAAGAGGGTGAGAATCCCGTCTTGGACCGGTGGTAGGGCCCGTGT GAAACTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCT AAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAG TTAAACAGTATGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTGCGCGGTGGTTCCCCTATC CTTTTGGATGGGTTACTCCGCCGCGTCCAGGCCAACATCGGTTCTGGGGGTCGGTCAAAGGCCTTGGGAA TGTATCTACCCTCCGGGCGTAGACTTATAGCCCTTGGTGTCATGCGACCTCCCGGGACCGAGGAACGCGC TTCGGCTCGGATGTTGGCGTAATGGTTGTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATC TATGCGAGTGTTTGGGTGTCAAACCCGGAACGCGGAATGAAAGTGAACGGAGGTAGGAAGCTTCGGCTGC ACTATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATGG TGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAA ATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTGGTAGCTGGTTCCTGCCGAAG TTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTG AAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACAT TTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGA GGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTCAATGCATCCAGACAGCCGGACGG TGGCCATGGAAGTCGGAATCCGCTTAGGAGTGTGTAACAACTCACCGGCCGAATGCATTGGCCCTGAAAA TGGATGGCGCTTAAGCGTGCTACCTATACCTCGCCGTCAGGGTTGACATGATGCCCTGACGAGTAGGCAG GCGTGGAGGTCCGTGACGAAGCCTTGGGGGTGACCCTGGGTCGAACGGCCTCTAGTGC >gi|311235568|ref|NG_027583.1| Exophiala pisciphila strain WUC 137 28S ribosomal RNA, partial sequence ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCT CAAATTTGAAATCTGGCCTCTTTGGGGTCCGAGTTGTAATTTGTAGAGGATGTTTCGGGTACCGCCTCGG TTTAAATTTCTTGGAACAGAATGTCAAAGAGGGTGAGAATCCCGTCTTGGACCGGCGGTAGGGCCCATGT GAAACTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCT AAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAG TTAAACAGTATGTGAAATTGTTGAAAGGGAAGCGCTTACAACCAGACTTGCGCGCGGCGGTTCCCCCTTC CTTTTGGTTGGGCTACTCCGTCGTGTCCAGGCCAACATCGGTTCTGGGGGTCGGTTAAAGACCCTGGGAA TGTATCTACCCTTCGGGCGTAGACTTATAGCCCAGGGTGTCATGCGGCCTCCCGGGACCGAGGAACGCGC TTCGGCTCGGATGTTGGCGTAATGGTTGTCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATC TATGCGAGTGTTTGGGTGTCAAACCCGGAACGCGAAATGAAAGTGAACGGAGGTAGGAAGCCTTGAGGCT GCACTATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGAT GGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGC AAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTGGTAGCTGGTTCCTGCCGA AGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGT TGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGAC ATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGT GAGGTTAAGGTGCCGGAATGTACGCTCATCAGACACCACAAAAGGTGTCAATGCATCCAGACAGCCGGAC GGTGGCCATGGAAGTCGGAATCCGCTTAGGAGTGTGTAACAACTCACCGGCCGAATGCATTGGCCCTGAA AATGGATGGCGCTTAAGCGTGCTACCTATACCTCGCCGTCAGGGTTGACATGATGCCCTGACGAGTAGGC AGGCGTGGAGGTCCGTGACGAAGCCTTGGGGGTGACCCTGGGTCGAACGACCTCTAGTGC >gi|311235567|ref|NG_027582.1| Endocarpon pallidulum strain Duke 0047525 28S ribosomal RNA, partial sequence ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAACAGCT CAAATTTGAAATCTGGCCCCGCTGGGGGCCTGAGTTGTAATTTGCAGAGGATGCTTCGGGCAAGGCGGTG GTCTAATCTGCTTGGAACAGCAAGTCGAAGAGGGTGAGAATCCCGTCTAGGATCGTCAGCCGCGTCCGTG TGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGC TAAATATGGGCCGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGA GTTAAACAGTATGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTTGTGACGGACGGTTCCCCCGA CCTTCTGGCCGGGTTACTCCGTCACGTCCAGGCCAACATCGGTTTGGGTGGTCGGTTAAAGACCCCGGGA ATGTATCTACCTTCGGGTCGACTTATAGCCCGGGGTGCAATGCGGCCCACCCGGACCGAGGAACGCGCTC CGGCTCGGATGTTGGCGTAATGGTTGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTG TGCGAGTGTTTGGGTGTGAAACCCCTACGCGGAATGAAAGTGAACGGAGGTAAGAACCCCGTCAGGGGCG CATTATCGACCGATCCTGGTGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAAAGATG GTGAACTATGCATGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCA AATCGATCGTCAAATTTGTGCATAGGGGCGAAAGACTAATCGAACCATTACAGGGAATAATTGCTCAACA GTCACCAGGTGGTTCCCAACAGTCCTTCGGGGCTACATCGTCCTTCTGGCGGGGATTTCATCACCCGCAG CAGCTTTGGCTGTCCACAGACTAGGAGACGGTGGTCATCTTGACCGTAAGATGATGATGATATAGTCGGT CACGGTGGGGTCTCTCACCCGTGGATCAACGCTGGTAGCTGGTTCCTGTCGAAGTTTCCCTCAGGATAGC AGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGCAACAACCTTAACCTA TTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTGCTTAATTGAACGTGGACATTTGAATGCATCGTTAC TAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTGAGGTTAAGGTGCCGGAA TGCACGCTCATCAGACACCACAAAAGGTGTCAATGCATCCAGACAGCCGGACGGTGGCCATGGAAGTCGG AATCCGCTTAGGAGTGTGTAACAACTCACCGGCCGAATGCATTGGCCCTGAAAATGGATGGCGCTTAAGC GTGCTACCTATACCTCGCCGTTGGGGTTGAAATGATGCCCCAACGAGTAGGCAGGCGTGGGGGTTGGTGA CGAAGCCTCGGGGGTGACCCCGGGTCGAACAACCTCTAGTGC >gi|311235566|ref|NG_027581.1| Montagnula opulenta strain CBS 168.34 28S ribosomal RNA, partial sequence AAGCGGCAACAGCTCAAATTTGAAATCTGGCCCCCATTGGGGGTCCGAGTTGTAATTTGCAGAGGGTGCT TTGGCATGGGCGGCGGTCTAAGTTCCTTGGAACAGGACATCGCAGAGGGTGAGAATCCCGTATGTGGGCG CCTGCCTTTGCCGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTA AATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAG TACTTTGGAAAGAGAGTCAAATAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACGTGCCCG CAGTTGCTCACCCCGGCTCTTGCCTGGGGCACTCTTCTGTGGGCAGGCCAGCATCAGTTTGGGCGGTCGG ATAAAGGCCTCTGTCAAGTATCTTCCTTCGGGATGACCTTATAGGGGAGGCGTAATGCGGCCAGCCCGGA CTGAGGTCCGCGCATCTGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAA GGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAGCCCGGGCGCGTAATGAAAGTGAACGGAGGTGGGA TCCCTTCGGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGG GACCCGAAAGATGGTGAACTATGCTTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCG GTTCTGACGTGCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCT GGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTAG AGGCCTGGGGGTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTGA TTGAACGTGGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGA TGAACCGAACGCGGGGTTAAGGTGCCAGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCT AGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGA ACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACCCCGCCGCTGGGGCAGACGTTATGCCC CAGCGAGTAGGCAGGCGTGGAGGTCCGT >gi|311235565|ref|NG_027580.1| Guignardia bidwellii strain CBS 237.48 28S ribosomal RNA, partial sequence TTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCA ATAGCTCAAATTTGAAAGCTGGCGTCTTCGACGTCCGCGTTGTAATTTGTAGAGGATGCTTCGGCGAGGA CTCCTGCCTAAGTCCCCTGGAACGGGGCGTCACAGAGGGTGAGAATCCCGTACGTGGCGGGCGGTCCGAG CCATGTGAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCT AAAGCTAAATACTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAA AGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAACCAGACTCGCTCGCAGTTGCTCA GCCGGCCTCTTGGCCGGTGCACTCTTCTGCGATCGGGCCAGCATCAGTTCGGGCGGCCGGATAAAGGCGT CGGGAATGTAGCACCCTTCGGGGTGTGTTATAGCCCGGCGCGGAATGCGGCCAGCCTGGACTGAGGATCT CGCTTCGGCAAGGATGCTGGCGTAATGGTTGCAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAGTGAACGGAGGTGGGAACCCCTCGCG GGGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGTAACGAATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTG GGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAGTTGAACGT GGACATTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGA ACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCA GGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCC TGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAGGGTAGAT >gi|311235564|ref|NG_027579.1| Myriangium duriaei strain CBS 260.36 28S ribosomal RNA, partial sequence GCAACAGCTCAAATTTGAAATCTGGCCTCTTTGGGGTCCGAATTGTAATTTGGAGAGGATGTTTTTGGGT GTCCGCCGGCCTAAGTCCCTTGGAACAGGGCGTCATAGAGGGTGAGAATCCCGTATGTGGCCGGAAAGGT ACCCTCCGTAAAACTCCTTCGACGAGTCGGGTTGTTTGGGAATGCAGCCCTAAATGGGAGGTAAATTTCT TCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTG GAAAGAGAGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCGATCAGTCTCGACGGCGGCCGT TCGGCCTCTCTTCTGAGTGGTTTATTCGGTCGCCGCCGGGCCAGCATCAGTTTCGGCGGTTGGATAAAGG TTGTGGGAATGTGGCCCCCTCGGGGGTGTTATAGCCCACTTCGTAATACAACCAGCTGGGACTGAGGTCC GCGCTTCGGCTAGGATGCTGGCAAAATGGTCGTAAGCGGCCCGTCTTGAAACACGGACCAAGGAGTCTAA CATCTACGCGAGTGTTCGGGTGTCAAACCCGTGCGCGCAATGAAAGTGAACGGAGGTGGGATCCCGCAAG GGCGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCGTAGCTGTTGGGACCCGAAA GATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACG TGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGC CGAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGG GGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTAGTTGAACGTG GGCGTTAGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAA CGCGAGGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAG GACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCT GAAAATGGATGGCGCTCAAGCGTGTTACCCATACCTCGCCGCCAGGGCAGATGCTATGCCCTGGCGAGTA GGCAGGCGTGGAGGCCCGT >gi|311235563|ref|NG_027578.1| Cladosporium cladosporioides strain CBS 170.54 28S ribosomal RNA, partial sequence CTTCGTCACGGGCCTCCACGCCTGCCTACTCGCTAGGGCATCGTTTCTACCCTAGCGGCGAGGTATTGGT AGTACGCTTGAGCGCCATCCATTTTCAGGGCTAGTTCATTCGGCAGGTGAGTTGTTACACACTCCTTAGC GGATTCCGACTTCCATGGCCACCGTCCTGCTGTCTAGATGAACTAACACCTTTTGTGGTGTCTGATAAGC GTACATTCCGGCACCTTAACCTCGCGTTCGGTTCATCCCGCATCGCCAGTTCTGCTTACCAAAGGGATTG CTCTAGTAACGGCGAGTGAAGCAGCAATAGCTCAAATTTGAAATCTGGCGTCTTCGACGTCCGAGTTGTA ATTTGTAGAGGATGCTTCTGAGTGGCCACCGACCTAAGTTCCTNGGAACAGGACGTCATAGAGGGTGAGA NTCCCGTATGCGGTCGGAANGNCGCTCTATACGTAGCTCCTTCGNCGAGTCGAGTTGTTNGGGACCCCAG CTCTAAATGNNAGGTAAATTTCTTCTAAAGCTAAATNNNNGCCAGAGACCGNNNNCGCACAAGTAGAGTG ATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAANANGCACGTGAAATTGTTAAAAGGGAAGNGATNG CAACCAGACTTNCTCGCGGTGTTNCGCCGNTCTTCTGACCGGTCTACTNNNCGCGTTGCAGGCCNGCATC GTCTGGTGNCGCTGGATAAGACTTGAGGAATGTAGCTCCCTCGGGAGTGNTATAGCCTCTTGTGACGCAG CGAGCNCCGGNCGAGNTCCGCGCTTCGCCTAGCATGCCGGCGTAATGNTCGTANTCCGCCCGTATTGAAA CACGGACCAAGGAGTCTAACATTTATGCGAGTGTGCGGGTGTCAAACCTCTACGCGTAATGAGCGTGAAC GGAGGTGAGAACCCCAAGGGGCATCATCGACCGATCCTGATGTCATCGCATGGATTTGAGTAAGAGCATA GCTGTTTGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACCTATGTGGAGGC TCGCATTAGTTCTGACGTGCAAATCGATCGTCCCATTTGGGTATAGNNNCGAAAGACTAATCGAACCATC TAGTAGCTGGTTCCTGCCGAACTTTCCCTCAGGATAGCAGTTACGTTTTCAGTTTTATGAGGTAAAGCGA ATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTG TTACTTAGTTGAACGTGGACATTTGAATGTATCGTTACTAGTGGGCCATC >gi|311235562|ref|NG_027577.1| Botryosphaeria dothidea strain CBS 115476 28S ribosomal RNA, partial sequence CCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTTAGTAACGGCGAG TGAAGCGGCAACAGCTCAAATTTGAAAGCTGGCTCCTTTGGAGTCCGCGTTGTAATTTGTAGAGGATGAT TCGGCAAGGGCTCCCGCCTAAGTCTCCTGGAACGGAGCGTCATAGAGGGTGAGAATCCCGTATGCGGTGG GCTGCCTAAGCCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTA AATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAG CACTTTGGAAAGAGAGTTAAAAAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGTCCG CAGTTGCTCAGCCGGTCTCCTGACCGGTGTACTCTTCTGCGGCCAGGCCAGCATCAGTTCGGGCGGTCGG ATAAAGACCTCGGGAATGTAGCTCCTCTCGGGGAGTGTTATAGCCCGGGGTGGAATGCGGCCAGCCTGGA CTGAGGATCTCGCTTCGGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGACCAA GGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAACCCATGCGCGTAATGAAAGTGAACGGAGGTGGGA ACCCTCACGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAGAGCATAGCTGTTGG GACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCG GTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCT GGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTAG AGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCTTGTTACTTAG TTGAACGTGGACACTTGAATGTACCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGA TGAACCGAACGCGATGTTAAGGTGCCGGAATGCACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCT AGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGA ACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGCTACCCATACATCGCCGCCAGGGTAGATACGATGCCC TGGCGAGTAGGCAGGCGTGGAGGCCCGT >gi|311235561|ref|NG_027576.1| Capnodium coffeae strain CBS 147.52 28S ribosomal RNA, partial sequence ATTGCCCTAGTAACGGCGAGTGAAGCGGCAATAGCTCAGATTTGAAATCTGGCGTCTTCGGCGTCCGAGT TGTAATCTGTAGAGGATGCCTTTGGGTAGCCACCGGTCTAAGTCCCCTGGAACGGGGCGTCACAGAGGGT GAGAATCCCGTATGTGACCGGAAGGGCACCCTCCACAAGGCTCCTTCGACGAGTCGAGTTGTTTGGGAAT GCAGCTCTAAATGGGAGGTAAATTCCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAG AGTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCG CTTGCAACCAGACTTGTTGGCGGTGTTCCGCCGGTCTTCTGACCGGTCCACTCACCGTCTGCAGGCCAGC ATCATCTGGGGCCGCCGGATAAAAGCGAGGGGAACGTGGCTCCCTCGGGAGTGTTATAGCCCCTCGTGCA ATACGGCGAGCCTCGGGTGAGGTCCGCGCTTCGGCTAGGATGCTGGCGTAATGGTCGTAAGCGGCCCGTC TTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAA GTGAACGGAGGTGGGAGCCTTAGGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAAG AGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGGATAGGGTGAAGCCAGAGGAAACTCTGGT GGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGA ACCATCTAGTAGCTGGTTCCTGCCNAAGTTTCCCTCAGGATAGCAGTAACGTTTTCAGTTTTATGAGGTA AAGCGAATGATTA >gi|311235560|ref|NG_027575.1| Pyrenophora phaeocomes strain DAOM:222769 28S ribosomal RNA, partial sequence TAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAA CAGCTCAAATTTGAAATCTGGCTCTTTTAGGGTCCGAGTTGTAATTTGCAGAGGGCGCTTTGGCTTTGGC AGCGGTCCAAGTTCCTTGGAACAGGACGTCACAGAGGGTGAGAATCCCGTACGTGGTCGCTAGCCATTGC CGTGTAAAGCCCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGAGGTAAATTTCTTCTA AAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGGAAA GAGAGTCAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGCAGCCAGACTTGCTTGCAGTTGCTCAT CCGGGCTTTTGCCCGGTGCACTCTTCTGCAGGCAGGCCAGCATCAGTTTGGGCGGTGGGATAAAGGTCTC TGTCACGTACCTCCTTTCGGGGAGGCCTTATAGGGGAGGCGACATACCACCAGCCTGGACTGAGGTCCGC GCATTCGCTAGGATGCTGGCGTAATGGCTGTAAGCGGCCCGTCTTGAAACACGGGACCAAGGAGTCTAAC ATCTATGCGAGTGTTTGGGTGTCAAGCCCGAACGCGTAATGAAAGTGAACGGAGGTGGGAACCCGCAAGG GTGCACCATCGACCGATCCTGATGTCTTCGGAAGGATTTGAGTAAGAGCATGGCTGTTGGGACCCGAAAG ATGGTGAACTATGCTTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGT GCAAATCGATCGTCAAATTTGGGCATAGGGGCGAAAGACTAATCGAACTATCTAGTAGCTGGTTCCTGCC GAAGTTTCCCTCAGGATAGCAGTAACGTATTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTGGGG GTTGAAACAACCTTCACCTATTCTCAAACTTTAAATATGTAAGAAGTGCTTGTTGCTTAATTGAACGTGC ACATTTGAATGAAACGTTATTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAAC GAGGGGTTAAGGTGCCGGAATATACGCTCATCAGACACCACAAAAGGTGTTGGTTCATCTAGACAGCAGG ACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTG AAAATGGATGGCGCTCAAGCGTGTTACCTATACCCCTCCGCCGGGGCAGAATTTACGCCCCGGCGAGTAG GCAGGCGTGGAGGCTCGTGACGAAGCCCTAGGG >gi|311235559|ref|NG_027574.1| Neolecta irregularis strain DAH-3 28S ribosomal RNA, partial sequence CTGAACTTAAGCATATCAATAAGCCCAGGAAAAGAAACCAACAAGGATTCCCCTAGTAACGGCGAGTGAA GCGGGATCAGCTCAAATTTGGAATCTGGCAGATTACATCTGTCCGAATTGTAATTTCAAGAGGCATCTTT GGGTGTGGCTCAGGTAAAAGTCTGTTGGAATACAGTATCATAGAGGGTGAGAATCCCGTCCATGACCTGG GACCCATTCCTATGTAAAGTGTCTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAA ATTCCATCTAAGGCTAAATACTGGTGGGAGACCGATAGCGAACAAGTAGTGTGAACGAAAGATGAAAAGA ACTTTGAAAAGAGAGTTAAATAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGGGACCAGAGTGCTGCTT TTCAGGATCAGCAAAGCTTCAAGTTTTGTGCACTCCTGAATTTGCAGGGCCAGCATCAGTTTGGATGGTT GTATAAAGTCAGGAGAAAGGTAGCTTTGTCTTTTTTAGATAGAGTGTTATAGACTCTTGTGCAATGCAAC CAATTTGGACTGAGGACTGCAGCAATTTATTTGCTTAAGGATGCTGGCGTAATGGTCTCAATCGACCCGT CTTGAAACACGGACCAAGGAGTCTAACATCTATGCAAGTGTTTGGGTGTCAAACCCATGTGCGAAATGAA AGTGAATGCAGATGGGATCCCCCACAAGGGGTGCACCATCGACCGATCCTGATGTTCTCGGATGGATTTG AGTAAGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAAC TCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACT AATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCATTTATATCAGT TTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAA TATGTAAGAAGTCCCTTGTTACTTAATTGAACGTGGACATTTGAATGAGAGCTTCTAGTGGGCCATTTTT GGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCAAGGTTAAGGTGCCGGAATACACGCTCATCAGA CACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAAT GTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCTATACCT TGCCGTCAGGGTAAAAGCGATGCCCTGACGAGTAGGCAGGCGTGGGGGTCTTGTGACGAAGCTTTGGGAG NGATCCCGAGTTGAACGACCTCTAGTGCAGA >gi|311235558|ref|NG_027573.1| Neolecta vitellina strain DAH-11 28S ribosomal RNA, partial sequence AACTTAAGCATATCAATAAGCCCAGGAAAAGAAACCAACAAGGATTCCCCTAGTAACGGCGAGTGAAGCG GGAACAGCTCAAATTTGGAATCTGGCGGATTGCATCCGTCCGAATTGTAATTTCAAGAGGCATCTTCGGG TTCGGCTCAGGTAAAAGTCCGTTGGAATACGGCATCATAGAGGGTGAGAATCCCGTCCATGACCTGGGTC CCGTTCCTATGTGAAGTGTCTTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATT CCATCTAAAGCTAAATATTGGTGGGAGACCGATAGCGAACAAGTAGTGTGAACGAAAGATGAAAAGAACT TTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAGCGCTTGGGACCAGAGCGCTGCTTTTC AGGATCAGCAGAGCTTCAAGTTCTGTGCACTCTTGGATTGCAGGGCCAGCATCGGTTTGAACGGTTGTAT AAAGGCTTGAGGAAGGTGGCTTTATCTTCGGATGGAGTGTTATAGACTCTTGTGCAATGCAACCAGTTTG GACCGAGGACTGCAGCTTTATTGCTTAAGGATGCTGGCGTAATGGTCTCAATCGACCCGTCTTGAAACAC GGACCAAGGAGTCTAACATCTATGCAAGTGTTTGGGTGTTAAACCCATACGCGAAATGAAAGTGAATGGA GATGGGATCCCTCACGGGTGCACCATCGACCGATCCTGATGTTCTCGGATGGATTTGAGTAAGAGCATAG CTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCT CGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCT AGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCATTACATCAGTTTTATGAGGTAAAG CGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCC CTTGTTACTTAATTGAACGTGGACATTTGAATGAGAGCTTCTAGTGGGCCATTTTTGGTAAGCAGAACTG GCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTG TTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCAC CTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCTCGCCGTCAGGGTAA AAGCGATGCCCTGACGAGTAGGCAGGCGTGGAGGTCTTGTGACGAAGCTTTG >gi|311235557|ref|NG_027572.1| Bombardia bombarda strain SMH 3391 28S ribosomal RNA gene, partial sequence TGTACCTGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGG CGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCTCCGGCCCGAGTTGTAATTTGTAGAGGAAGCTT TTGGTGAGGCACTTTCTGAGTCCCCTGGAACGGGGCGCCATAGAGGGTGAGAGCCCCGTATAGGTAGATG CCGAGCCTCTGTAAAGCTCCTTCGACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTAAATT TCTTCTAAAGCTAAATATTGGCCAGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACT TTGAAAAGAGGGTTAAACAGCACGTGAAATTGTTGAAAGGGAAGCGCTTGTGACCAGACTTGCGTCGGGC TGATCATCCGGTGTTCTCACCGGTGCACTCTGCCCGGCTCAGGCCAGCATCGGTTTTCGCGGGGGGATAA AGGCCCGGGGAACGTAGCTCCTCCGGGAGTGTTATAGCCCTGGGCGCAACGNCCCCGCGGGGACCGAGGT TCGCGCATCTGCAAGGATGCTGGCGTAATGGTCACCAGCGACCCGTCTTGAAACACGGACCAAGGAGTCA AGGTTTTGCGCGAGTGTTTGGGTGTAAAACCCGCACGCGTAATGAAAGTGAACGTAGGTGAGAGCTTCGG CGCATCATCGACCGATCCTGATGTTTTCGGATGGATTTGAGTAGGAGCGTTAAGCCTTGGACCCGAAAGA TGGTGAACTATGCTTGGATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTG CAAATCGATCGTCAAATCTGAGCATGGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTACCGCCG AAGTTTCCCTCAGGATAGCAGTGTTGTTCTTCAGTTTTATGAGGTAAAGCGAATGATTAGGGACTCGGGG GCGCTATTTAGCCTTCATCCATTCTCAAACTTTAAATATGTAAGAAGCCCTTGTTACTTAATTGAACGTN GGCATTCGAATGTACCAACACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAA CGCGGGGTTAAGGTGCCGGAGTGGACGCTCATCAGACACCACAAAAGGCGTTAGTACATCTTGACAGCAG GACGGTGGCCATGGAAGTCGGAATCCGCTAAGGACTGTGTAACAACTCACCTGCCGAATGTACTAGCCCT GAAAATGGATGGCGCTCAAGCGTCCCACCCATACCCCG >gi|311235556|ref|NG_027571.1| Mycosphaerella punctiformis strain CBS 113265 28S ribosomal RNA, partial sequence CAGGGATTGCCCTAGTAACGGCGAGTGAAGCGGCAACAGCTCAAATTTGAAATCTGGCGCAAGCCCGAGT TGTAATTTGTAGAGGATGCTTCTAGGTAGCGACCGGTCTAAGTTCCTTGGAACAGGACGTCATAGAGGGT GAGAATCCCGTATGTGACTGGCCCGCACCTTCTACGTAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATG CAGCTCTAAATGGGAGGTAAATTTCTTCTAAAGCTAAATACCGGCCAGAGACCGATAGCGCACAAGTAGA GTGATCGAAAGATGAAAAGCACTTTGGAAAGAGAGTTAAAAAGCACGTGAAATTGTTGAAAGGGAAGCGC TCACAACCAGACTTCTAGGCAGTGTTCCGCCGGTCTTTTGACCGGTCTACTCTCTGTCTCGAGGCCAACA TCATCTGGGACCGCCGGATAAGACCTTAGGAATGTAGCTCCCCTCGGGGAGTGTTATAGCCTCTGGTGAT GCGGCGCGTCTCGGGTGAGGTCCGCGCTTCGGCAAGGATGTTGGCGTAATGGTTGTCAGCGGCCCGTCTT GAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTCGGGTGTCAAACCCCTACGCGTAATGAAAGT GAACGGAGGTGGGAAGCGTAAGCTGCACCATCGACCGATCCTGATGTCCTCGGATGGATTTGAGTAAGAG CATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGG AGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAAC CATCTAGTAGCTGGNTSCTGCCGAAGTTTCCCTCANGATAGCAGTAACGTTTTCAGTTTTATGAGGTAAA GCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTC CTTGTTACTTAATTGAACGTGGACATTTGAATGTATCGTTACTAGTGGGCCATTTTTGGTAAGCAGAACT GGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATGTACGCTCATCAGACACCACAAAAGGT GTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCA CCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGCTACCCATACCTCGCCGCCAGGGTA GAAACTATGCCCTGGCGAGTAGGCAGGCGTGGAGGTCCGTG >gi|311235555|ref|NG_027570.1| Peziza vesiculosa TL-6398 28S ribosomal RNA, partial sequence ATTGCCTCAGTAACGGCGAGTGAAGCGGCAAAAGCTCAGATTTGAAATCTGGCGTCATATTGGCGTCCGA GTTGTAATCTGTAGAGGAGTATTCGAGTGTGGCGCTGGCTTAAGTTCCTTGGAACAGGACGTCATAGAGG GTGAGAACCCCGTTAACGGCCTTTGTCTTATGCTCATGTGAATCTCCTTCGACGAGTCGAGTTGTTTGGG AATGCAGCTCTAAATGGGTGGTAAATTCCATCTAAAGCTAAATACTGGCAAGAGACCGATAGCGCACAAG TAGAGTGATCGAAAGATGAAAAGAACTCTGAACAGAGAGTTAAATAGTACGTGAAATTGTTGAAAGGGAA GCACTTGCTACCAGACACGCCTGTAGTTGATCAACCTCCATTCTTGGTGGTGCACTCAGCTATAGGTGGG TCAGCATCAGTTACGGCGGTGGGATAAAGACCTGGGGAATGTAGCTTCTTTCGGGAAGTGTTATAGCCCT GGGTGTAATACCGCCTGCTGTGACTGAGGCCCGCGCTTCGGCGAGGATGCTGGCATAATGGTCGTAAGTG ACCCGTCTTGAAACACGGACCAAGGAGTCTAACATCTATGCGAGTGTTTGGGTGTCAAAACCCTTACGCG GAATGAAAGTGAACGTAGGTGGGAACCGCAAGGTGCACCATCGACCGATCCTGATGTCTTCGGATGGATT TGAGTAGGAGCATAGCTGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAA ACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGA CTAATCGAACCATCTAGTAGCTGGTTCCGGCCGAAGTTTCCCTCAGGATAGCAGTAACGATAATAGTTTT ATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGTAACAACCTTAACCTATTCTCAAACTTTAAATAT GTAAGAAGTCCCTGTTGCTTCGGTGAACGCGGACATTGGAATATACGTTACTAGTGGGCCATTTTTGGTA AGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCAGAATGCACGCTCATCAGACACC ACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGT AACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGTTACCTATACCTTGCC GTCATGGTAGACATCCATGCCATGACGAGTAGGCCGGCGTAGAGGTGCAGTGACGAAGC >gi|311235554|ref|NG_027569.1| Marcelleina persoonii strain TL-5696 28S ribosomal RNA, partial sequence CTAGCATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAA AAGCTCAGATTTGAAATCTGGCGTCTTATGGCGTCCGAGTTGTAATCTGTAGAGGAGTGTTCGAGCATAG CTTTGGCTTAAGTTCCTTGGAACAGGACGTCATGGAGGGTGAGAATCCCGTGTACGGCCTTTGACTTGTG CTTATGTGAACCTCCTTCAACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATC TAAAGCTAAATACTGGCAGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGAACTTTGGA AAGAGAGTTAAATAGTACGTGAAATTGTTGAAAGGGAAGCACTTGCTCCCAGACTTGCCTGCAGCTGATC ANTCACCATTTTTGGTGGTGCACTTGGTTGTAGGCAGGCCAGCATCAGTCCAGACGACGAGAAAAAGGTG CAGGGAATGTGGCTCTTTTCGGAGAGTGTTATAGCCCTGTACGTAATGTCGCCTGCCTGGACTGAGGCCC GCGCTTCGGCGAGGATGCTGGCGTAATGGTCGTAAGTGACCCGTCTTGAAACACGGACCAAGGAGTCTAA CAGCTGTGCGAGTGTTTGGGTGGAAAACCCTCACGCGCAATGAAAGTGAATGGAGGTGGGAACCGCAAGG TGCACCATCGACCGATCCTGATGTCTTCGGATGGATTTGAGTAGGAGCATAGCTGTTGGGACCCGAAAGA TGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGCAGCGGTTCTGACGTG CAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCGGCCG AAGTTTCCCTCAGGATAGCAGTAACGATCATAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGG TTGCAACAACCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTCCCTGTTGCTTAATTGAACGGGGA CATTGGAATATACGTTACTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGC AAGGTTAAGGTGCCAGAATGCACGCTCATCAGATCCCACAAAAGGTGTTAGTTCATCTAGACAGCAGGAC GGTGGCCATGGAAGTTGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAA AATGGATGGCGCTCAAGCGTGTTACCTATACCTTGCCGCCACGGTAGAAACCATGCCGTGGCGAGTAGGC CGGCGTAGGGGT >gi|311235553|ref|NG_027568.1| Chamaeota sinica strain HKAS 60647 28S ribosomal RNA gene, partial sequence ACTTAAGCATATCAATAAGCGGAGGAAAAGAAACYTAACAAGGATTCCCCTAGTAACTGCGAGTGAAGCG GGAAAAGCTCAAATTTTAAATCTGGCGGTCTCAGGCCGTCCGAGTTGTAATCTAGAGAAGTGATGCCCGC GCTGGACCGTGTACAAGTCTCCTGGGATGGAGCGTCATAGAGGGTGAGAATCCCGTCTCTGACACGGACT ACCAGGGCTTTGTGGTACGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCAAAATGGGTGGTAAAT TCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAAC TTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTGGCCG GGAATCAGCCTCGCTTTTGCGTGGTGTACTTTCCGGTTGACGGGTCAGCATCAATTTTGATTGCTGGAAA AAGGCTTGGGGAATGTGGCAGCTTCTGCTGTGTTATAGCCCCATGTCACATACGGCGATTGGGATTGAGG AACTCAGCACGCCGAAAGGCCGGGTTTTGACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTTAAGC GACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGAAAACCCGAGCGCG TAATGAAAGTGAAAGTTGAGATCCCTGTCGTGGGGAGCATCGACGCCCGGACCAGAACTTTTGGGACGGA TCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGG AAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAA GACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCATATCAGA TTTATGTGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGAAACAACCTTAACCTATTCTCAAACTTTAAA TATGTAAGAACGAGCCGTTTCTTGACTGAACCGCTCGGCGATTGAGAGTTTCTAGTGGGCCATTTTTGGT AAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAG >gi|311235552|ref|NG_027567.1| Paraglomus occultum strain INVAM IA702 28S ribosomal RNA, partial sequence TCAGGGCCTCAAATCAGACAAGAGTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTTAAATCTGACTGCTTCGCAGT TCGAGTTGTAGTTTGAAGGAGTCTGTCGCCAGTGCGACGATGACACAAGTCCTCTGGAACGTGGCATCGT AGAGGGTGAGAATCCCGTCTCTGGTCGTTGTTGCGCAGGCATACGGCAGGCATCCGAAGAGTCGAGTTGT TTGGGATTGCAGCTCCAAATGGGTGGTAAACTCCATCTAAGGCTAAATATTGGCGAGAGACCGATAGCGA ACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTAAAACAGTACGTGAAATTGTTGAAA GGGAAACGCTTGAAGTCAGTCGTGCCGGCGGAGATTCAGCTCGCTTCGCGGAGTTGGGCGCATTTCTTCG CATGGCAGGTCAGCGTCAGTTTCGCGCGTCGTGAAAGGGCTCGGGTAAGGTGACTCTCTCCGGGGAGTGT TATAGACCTGAGCAGATGCGCTGCGCGGGACTGAGGATTGCAGCGGACACCCTTCGGGGCGTGGCGACCG ACCCCTGCTTCATCACCCTTGTCCGATAGCGTGCTAACGGGCCGGGGAGCGGTGGGTGCACCGGGTTGGC AAGCCGGCGGCTTCGCTAAGGACGCTGACGTAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGG AGTCTAGCATATGTGCGAGTGTTTGGGAGGCAAACCCATGCGCGAAATGAAAGTGAACGTGAGGTGGGAC GCGTCCTTTCGGGGACGCCGCACCATCGACCGACCTTTTCGTATATATCGATAGGTTTGAGTAAGAGCAC ATCTGCTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGG CTCGTAGCGATTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAACCAT CTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGATATACAGTTTTATGAGGTAAA GCGAATGATTAGAGGCCTTAGGGTTGAAACAGCCTTAACCTATTCTCAAACTTTAAATGTGTAAGAAGCG CACGTTGCTTAGTTGAACGCGTGCATTCGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTG GCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATCCACGCTCATCAGACACCACAAAAGGTG TTAGTTCATCCAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCAC CTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGGTACCCATACCTCGCCGTCGACGTTA TCGCTGATGCGTCGACGAGTAGGCAGGCGTGGAGATCAGTAGCTCGTGACGAAGCCATGGGCGTGAGCCT TGGTGGAACGGTCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGA AGTGGAGAAAGGTTCCACGCGAACAGCAGTTGGACGTGGGTTAGTCGATCCTAAGAGATAGGGAAGCTCC GTTTGAAAGCAGCGCGTTTATTCGCGTGCCTATCGAAAGGGAAGCAGGTTAAAATTCCTGCACCGGGATG CGGATGAACAGGCGGCAACGCAAAGGAACTTGGAGACGCCAGTGGAGGCCCCGGGAAGAGTTCTCTTTTC TTTTTAACAGTCGGAGTACCCTGAAATTTCGGATTAACCGGAGCTAGGGTTTCGCGGCTGGAAGAGCTCG ACACATCTGTCGGGTCCGGAGCGCCTTCAACGGTCCGTGAAAATCCAAGGGACGGGATTATTTTCGCGCC CGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAG GGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTTGGGTGCATTGGTCCCT GTTTTGAAGCCGGCGATGCATGACGACGCTGCCTCTGGGACCCGCAAGGGACCCTTGGTGGAAGAATCGG CGATTGCGGGGGGATGGCAGGGAAGGCGTTCGTCTCGTGCGGGCGTCGTCCGGTGCACGATTAACAACCG ACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAG TGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGG GTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCA TGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCT TGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGA GGGTGTAGGATAAGTGGGAGCGTCGTTTCGGCGCGACAGTGAAATACCACTACCTTTATCGTTTTTTTAC TTATTCAATTAGGTGGAGCTGGACAACAGTCCACGTTTCGGCGTTAACCCGCAGTTATGCGGGGATCCAC GTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCT AAGGGGGACTCATTGAGAACAGAAATCTCAAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTT CAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGAAGCTCAGAGTTTGAGCCTAGAGGT GCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGAT CCTTCGATGTCGGCTCTTCCTATCATACTGAAGCAGAATTCAGTAAGCGTTGGATTGTTCACCCACTAAT AGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCCACTGATGGAGTGTTGTCGC AATAGTAATTCAATTTAGTACGAGAGGAACCGTTGATTCGGATAATTGGTGATTGCACCTGCCCGAAAGG ACAATGGTGCGAGGCTACCATCCGCTGGATTATGG >gi|311235551|ref|NG_027566.1| Boothiomyces macroporosum strain PL AUS 21 28S ribosomal RNA, partial sequence ACCATGGTCTCAAATCAGGTAGGAGGACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACT AACAAGGATCCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAATTTGAAATCTCAGCGCAAGCTGC GAATTGTAGTTTAGAGAAACGTTTTCGGGGCCGGCAGCCAGTACAAGTTCTTTGGAACAAGGCATCACAG AGGGTGAAAATCCCGTCTTTGACTGGCTGCTTGGTTCCATGTGATACGTTTTCCAAGAGTCGGTTTGTTT GGGAATGCAGACCAAAATGGGTGGTAAATACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAAC AAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTGCGTGAAATTGTCAAAAGG GAAACGTTTAAAACCAGTATTGCGGGCAGAAACTCAGGTTCCATTTATGGTGCTGTATTTTTCTGTCGGC GAGTCAACATCAGTTTTGCTTGGAGTAAAACGCCAGGGGAAGGTAGCCTTCGGGTGTTATAGCCTCTGGT AATGCTCTGGGCGGGACTGAGGACTGCAGCGTTCTTTGGGTCTACCACACCAACGCTTAGGATGTTGACG AAATGGTTTTAAGCGACCCGTCTTGGAACACGGACCAAGGAGTCTAACATATATGCGAGTATTTGGGTGG CAAACCCTTATGCGTAATGAAAGTGAAAAGGTGGGATCCTTTGCTGGTGCACCATCGACCGCGCCAGATT ATTGCTATCTCGGCGTGAGTATGAGCATACATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGG GTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCAAATTTGGG TATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCCTCCGAAGTTTCCCTCAGGATAGCAGA AGCTCATATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGTAACATCCTTAACCTATT CTCAAACTTTAAATATGTAAGACGTTCTCGTTTCTTAATTGAACCTGAACTTTCGAATGAGAGCTTCTAG TGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTCGAGTTAAGGTGCCGGAATAC ACGCTCATTTAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAA TCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGT GTTACCCATACTCGACCGTCAGGGTAAAATGCGGCTCTGACGAGTAGGAGGGCGTGGGGGTTGTGTCGAA GGTTAGGACGTAAGTCCGACTGGAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATG AGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCGTGTGAACAGCAGTTGGACACGGGTTAGTCGATCCTA AGAGATAGGGAAACTCCGTTTTAAAGGCGCAATTCGTGCCGTCTATCGAAAGGGTATCAGGTTAATATTC CTGAACTGGGATGTGGATTCTTGTGCGGCAACGCAACTAAACTCGGAGACGCCAGTAGGGATCCTGGGAA GAGTTATCTTTTCTTTTTGACTGGTTATCACCGTGAAATCGACTTAGTCGGAGATACGGTTTCATATCAG GCACAGCAGAACACCTTTGTTCTGTCCGGTGCATTCCTAACGGCCCTTGAAAATCCGAGGGAAAGATTCA TTTTCACGCCTAGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAA TGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGACTCTAAGGGTTGGGTAT GTTGGGCCTCTTACCGCAGCTGAGGAACTAATTGGGGACTGAGTTCGCGAGGACCCCGATATGATCTTTA GTGAAAGTTTGAGGCATGTCTTCGGGCGTCCGGCATACAATTAACAACCAACTTAGAACTGGTACGGACA AGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGAT TTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTA TGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTC CCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAGCGGGGAAA GAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAAACATGGGGGGTGTAGAATAAGTGGGAG CTTCGGCGCCGGTGAAATACCACTACCCCCATCGTTTTTTTACTTATTCAATTAAGCAGGGCTGGTTATC ATGACCACCTTCTAGCGTTACGGTAGTTTACTACTAACCTGGGTTGAAGACATTGTCAGGTGGGGAGTTT GGCTGGGGCGGCACATCTGTTAAAAAATAACGCAGGTGTCCTAAGGGGGGCTCATGGAGAACAGAAATCT CCAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTG GCCTATCGATCCTTTAGTCGCTGGGTATTTCAGCCTAGAGGTGTCAGAAAAGCTACCACAGGGATAACTG GCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATTG AGAAGCAGAATTCTCAAAGCGTCGGATTGTTCACCCGCCAATAGGGAGCGTGAGCTGGGTTTAGACCGTC GTGAGACAGGTTAGTTTTACCCTACTGATGAAACGTTGTCGCAATAGTAATAAAACTTAGTACGAGAGGA ACTGTTTTTTCGCATAATTGGTTTTTGCGGTTAGTTGAAAAGCTAGTGCCGCGAAGCTACCATGCGTAGG ATTACGG >gi|311235550|ref|NG_027565.1| Synchytrium macrosporum strain DUH0009363 28S ribosomal RNA, partial sequence GGACGGTCTCAGATCAGACAGGAAAACCCGTTGAACTTAAGCATATTAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCTTAGTAACGGCGAGTGAAGAGGGAAAGGCTCACACTTTAAATCTCATGTGAAGAATTG TATTTACGAGATGTTGTTCTCGGGGGCCCAGCTCAAGTCAAAGTCTTAAGGATTTAAGCATCACAGAGGG TGAGAGTCCCGTGAATGACTTGAGCTATGTGGTTCCCATGTGATACACTTTCGACGAGTCAGGTTGTTTG GAATTGCAGCCTAAAATGGGTGGTAATTACCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACA AGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTGCTTGAAATTGCCAAAAGGG AAGCGCTTGAAATCAGTCATGAGGCGAGAAAGACACCAGGAATTTAAAAACTCCCTGGTTCTATTCTCTC GTCTCACGTCAACATCAATTTCTCTCGCGGGACAAGGACTGGGCAGAGGCTCATAGAGCAATGTTTGGTT GACACCGCGGGGGGAGATTGAGGATCGCATAAAATATGAGGTTGTTGACAAAATGATTTTAAACGTCCCG TCTTGAAACACGGACCAAGGAGTCTAACACATGCGCGAGTGTTTGGGTGTCAAGCCCTTACGCGGAATGA AAGTGAAGTTGTGAGAAGTTTTTAACTTGAAAAAGGAAATTCTGCATCACAAACCGGTCTGGATATATTT GATAGATCTGAGTAAGAGCGTTTTTGTTGGGACCCGAAAGATGGTGAACTATGCCTGTGTAGGATGAAGT AAGGCGAAAGCCTTATGGAAGTCCGTAAGCGTTCTAACGTGCAAATTGATGTTCGAACATGGGTATAGGG GCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCGGCTGAAGTTTCCCTCAGGATAGCAGAAACGAAT GTACACAGTTTTATGAGGTAAAGCGAATGATTAGAGGTCTGGGGGTTGAAACAACCTTCACCTATTCTCA AACTTTAAATATGTAAGAAAACTTGGTTCCTTCAAAAAACCTCTTGGGGTTTTGAACCTTGTCATTTGAA TGTACGTTTCTAGTGGGCCGTTTTTGGTAAGCAGAACTGGCGACGCGGGATGAACCGATCGTTGAGTTAA AGGGCCAGAATACACGCTCATCAGATACCATAAAAGGTGTTGATTGATCTAGGCAGCAGGACGGTGGCCA TGGAAGTCGGAACCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATCAATTAGCCCTGAAAATGGATG GCGCTCAAGCGTGTTCCTCATACTCAACCGTTAAAGTAAATGCGATGCTTTAACGTGTAAGCCGGTGTGG AGGTAATTGTGAAGAAGCCTTGGACGTGAGTCTGGGTCGAACTGCCTTCTAGTACAGATCTTGGTGGTAG TAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGGGAAAGGTTTCATGTGAACAGCAGTTGGACA TGAGTTAGTCGAGCCCAAATGATAGGGAAATTCCGTTTTAATGTTGGACCATTTTGTTTGGTCCCGCCTA TTGAAAGGGCATTGGGTTAATATTCCCAAACCAGGACGCAGTTTCAAGCGGCAACGCAACCGAACTCATA GACGTCAGCTCGAGCCCTGGGAAGAGATATCTTTTCTTTTTAACAAACGAATCGTCCTGAAATCAGATTA TCTGGAGCTAGGGCATGACGTTTGGTACAGCACCATATTTCTCGTGGTGTCCGGTGCGCTTGAGATGGCC CGTGAAAATATGAGGGAGTGATAAATTTGCGCCTGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTTA ACAGCCTCTAGTTGACAGAACAATGTGGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAG GATTGGCTCTTGAGATTGGGTGCACTGGGCCTTGGTTCAATGGCGCTGGCTTGAGATTAGTCCAACTCGG CTTTACGGCTGGGTAGGACTGAACATGAGCCGGTTCTGGCGACTTTGGCTGAGAGGAAGAGGTGACTCTT TTCTCGTCTGGTGCACATTAAACAATCAATCAAGAACTGGTACGGACAAGGTGAATCTGACTGTCTAATT AAAACATAGCATTGCGATGGTCCCAACAGGATGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGT CAAAGTGAAGGAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAA TGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCACACTGTCCCTATTCACTCTCT GGCGAAACCACAGCAAAGGGAACGGGCTTTGCAAAGTCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACT CTAGTTTGACATTTGTGAAGCAACATAGAGGATGTAGAGTAACTGGGAGCTTTGGCAAAATTGAAACACC AGTGCCTTTATCGTTTCTTCACTTACTCAATGAAGCGGGACTGGCCCCTTGGGCTATTTTCTGGTTTTAA GCTGCGTTGTATTACGCGGTGACCTGGGTTGAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACA TCTGTTAAAAAATAACGCAGGTGTCCTAAGAGGAACTCAACGAGACCAGAAATCTCGTGTAGAACAAAAG GGTAAAAGTGCCTTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTT AGTTGCTTGGTAATTAAGCCTAAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCA AGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATTCGCAAGCAGAATTGC GAAAGCGTCGGATTGTTCACCCGCTAACAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAG TTTTACCCTACTGACAAAGTAGTTGTCGCAATAGTAATTCACGTTAGTACGAGAGGAACACTTGATTCGC ATAATTGGTATTTGCGGTTGGTTGAAAAGCCAGTGCCGCGAAGCTACCATGCGCCGGATTATGG >gi|311235549|ref|NG_027564.1| Olpidium brassicae strain DUH0009361 28S ribosomal RNA, partial sequence ACTCAATCTCAAATCAGGTAGGATTACCCGCTGAACTTAAGCATATYAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTGGAATCTGGGCAGGTTTCCTG CTCCGAATTGTAATCTATAGACGTGTTTTCGGTGGTTGTGTTGGCATAAATCCTTTGGAACAGGGTATCA TAGAGGGTGAAAATCCCGTCTTTGACTGACATACAACTGCCTTGTGATACATGCTCAAAGAGTCGCATTG TTTGGGAATGCAGTGCAAATTGGGTGGTAAATTTCATCCAAAGCTAAATAATGGCGAGAGACCGATAGCG AACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGAAATTGTTAAA AGGGAAACGCATGAAATCAGTAATCTTTGCAGCAAATCAGCAATTTCTTTCCTGTGATCCAGCTTTAACC AGTGGTTAGTGTTGTTCTTCATCAGGTAGGAAGTGTGCACTTTGTTGCTGAGGAGTCAACATCAGTTTGG ACTTGTGGATACACCTCTGTGGAAGGTAGCCAACATTTGTTGGTGTTTAGCCACGGTAGGAAAACACTGG TCTGGACTGAGGTCTGCAGCACATTTCGGGACATTTAGGCGCTGTCAAATTCTAATGGCCCTCAACTTGT TGAGTGTCATCAAGGAAATGACACCCGCTTGACTCTGTTACTTTTGTGCTTGGGATGTTGACAAAATGGT TTTATACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAGTATTTGGGTGTCAAACCC ACATGCGCAATGAAAGTGATTAATGATGGGACCTGCAAAGGGCACCATTGACCGATCTTGATAATTTGGA TAGATTTGAGTAAGAGCATATCTGTTGGGACCCGAAAGATGGTGAACTATACTTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGAGTATAGGGGC GAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGATC AGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGTTGTAACAACCTTAACCTATTCTCAAACTTT AAATATGTAAGAAGCCGTTTGTTTCCCAAGTTGAACATCGGCGATCGAATGAGAGTTTCTAGTGGGCCAT TTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGCGAGGTTAAGGTGCCGGAATATACGCTCAT TTAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAA GGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCA TACCTCGCCGTCTGGGTTAAAGCGAAGCTCAGACGAGTAGGCAGGCGTGGAGGTTGTGTTGAAGCGTTGG GCGTAAGCCTGCGTGAAACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTT TGAAGACTGAAGTGGAGAAAGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGATCCTAAGAGATA GGGAAGTTCCGTTTTAAAGTGCGCGATTCATCGCGCCGCCTATCGAAAGGGAATCCGGTTAATATTCCGG AACCAGGATGCGGATAATTTACGGCAACGTAAATGAACTCGGAGACGTCAGCGCGGACCCTGGAAAGAGT TATCTTTTCTTTTTAACAGAATATCACCCTGAAATCAGATTATCTGGAGATAGGGTTCAATTTCTGGTAA AGCATCGCATTTTTGCGGTGTCCGGCGCGTTCGCGACGACCCTTGAAAATCCGAGGGAAAAGTTAATTCT CGTGCCTGGTCGTACTCATAACCGCAGCAGGTCTCCTAGGTGAACAGCCTCTAGTTGATAGAACAATGTA GATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGAAAAGGATTGGCTCTAAGGGTTGGGTGCAGCA GGCTGCAGTTGGGCGCATTTGAACTGGACTGGGACTACGCTGGCCGCAAGGCTGGTGCGGACCTGGCCCA GATTGAATTGCACTGGCTGTAGCAGGGATTTTCCCGGCTGCTGCATAATTAACAACCAACTTAGAACTGG TACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGC AATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGG AGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAA CGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAG CGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGGATA AGTGGGAGCTTTGGCAGCAGTGAAATACCACTACCTTTATCGTTTTTTTACTTATTTAATGAGGTGGAAG CAGGCTTCACAGCCTACCTTCTAGCATTAAGCTGCTTTTCGCAGTGATCCAGGTTAAAGACATTGTCAGG TGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGACTCATTGAGA ACAGAAATCTCAAGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCA TGAAAGTGTGGCCTATCGATCCTTTAGTCCCTTGAAATTTAAGGCTAGAGGTGTCAGAAAAGTTACCACA GGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTT CCTATCATACTGAAGCAGAATTCAGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGT TTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGGAAAGTTATCGCAATAGTAATTCAACTTAG TACGAGAGGAACCGTTGATTCTAATAATTGGTATTTGCCGTTAGTTGAAAAGCTAGTGCGGCGAAGCTAC CATTGGTTGGATAATGG >gi|311235548|ref|NG_027563.1| Endogone pisiformis strain DAOM 233144 28S ribosomal RNA, partial sequence CGGCGAGTGAAGCGGGAAAAGCTCAAATTTTAAATCGAATGGGGTACCCTATTCGAGTTGTATTTTCAAG AGACGTTTTCGGATCGCGCCTGGGTATAAGTCCTTTGGAACAGGGCATCATAGAGGGTGAGAATCCCGTT TATGACCCGGAGCGGCGGTCTATGTGATACGTTTTCAAAGAGTCAGGTTGTTTGGGAATGCAGCCTAAAA TGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAA GATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAAGGGAAACGTTTGAAATCAG TCATGTAAACGAGTAATCAGCTTGGCTTTTGCCTTGTGCACTTTCTCGTTCGCAGGTCAACGTCAGTTTT GATACTAGTCGGATAAAAAATCAAGGGAATGTGGCTCTCTTTCACGAGGGGGTGTTATAGCCCTGGTTAA AATACGATGATTAAGACTGAGGTCTGCAGCCAATACCCTTTATGGGCTGGGTATTTCTTTTGCTCATAGG TAACCGAGTTTAGACAGCTTGCTGACTAGGTTTGAATTGCTTGTGACTTCGAAGGATTTTTATCACAAAT TGGCTTAGGTCGTTGACTTAATGGTTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATAT ATGCAAGTGTTTGAGTGTCAAACTCATGCGCGTAATGAAAGTGAATGTAGGTGAGATCCTTTTTGTATAA AATTTGGAGCATCATCGACCGATCTTGATATTTTTGGATAGATTTGAGTAAGAGCATATCTGTTGGGACC CGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTC TGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACTATCTAGTAGCTGGTT CCTGCCGAAGTTTCCCTCAGGATAGCAGAAACTCGTTCAGTTTTATGAGGTAAAGCGAATGATTAGAGGC CTTAGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATATGTAAGAAGTTTTGGTTGCTTAATTGA ACCAAGACATTTGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAAC CGAACGTGAGGTTAAGGCGCCGGAATACACGCTCATTTAGACACCACAAAAGGTGTTAGTTCATCTAGAC AGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAATGTGTAACAACTCACCTGCCGAATGAACTA GCCCTGAAAATGGATGGCGCTCAAGCGTGTTGCCCATACCTCGCCGTCAGGGTTAAAGCGAAGCCCTGAC GAGTAGGCAGGCGTGGAGGTTTTGTGACGAAGCTTAGGGCGTGAGCCCGAGTGAAACGGCCTCTAGTGCA GATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCTTGTGA ACAGCAGTTGGACAAGGGTTAGTCGATCCTAAGAGATAGGGAAGTTCCGTTTTAAAGTTGGTCGATTCTT CGACCCACCTATCGAAAGGGAAGCCGGTTAATATTCCGGCACCGGGATGTGGATTTTTTACGGTAACGTA AATGAACTCGGAGACGCCAGTAGGAGCCTTGGGAAGAGTTCTCTTTTCTTTTTAACGGTCTATCACCCTG AAATCGGTTTAGCCGGAGCTAGGGTTCTATGGCCGGTAAAGCTCGACACTTCTGTTGGGTCCGGTGCGCT CTTAACGGTCCTTGAAAATCCGAGGGAAAGAATAATTTTCACGCCTGGTCGTACTCATAACCGCAGCAGG TCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAA CTTCGGGAAAAGGATTGGCTCTAAGGGTTGGGCTAGCTGGGCCTTCTTTGAATGCCACTGGACTTGGTTG AGGCTACCCTTGTGCAAACTTGGGCGGACTTGATTGAGATTGGTGTGTTGACGAGGTTGGCTGCTTTACG GCGTCCGGCTAGCGCTTAACAACCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAA ACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAA AGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGC CTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGC GAAACCACAGCCAAGGGAACGGGCTTGGCATAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTA GTTTGACATTGTGAAAAGACATAGGGGGCGTAGAATAAGTGGGAGCTTTCGGGCAGCAGTGAAATACCAC TACCCTTATTGTTTTTTTACTTATTTAATGAGGTAGAAGCAGGTTTCACGACCTACCTTCTGGCGTTAAC GCGGAATTTTTTTTTACCGCGGATCTAGGTTAAAGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCAC ATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGACTCAACGAGAACAGAAATCTCGTGTAGAACAAAA GGGTAAAAGTCCCCTTGATTCTGATTTTCAGTGTGAATACGAACCATGAAAGTGTGGCCTATCGATCCTT TAGTCCCTCGAAATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCA AGCGTTCATAGCGACGTTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCG GTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAG TTTTACCCTACTGATGAAATGTTGTTGCAATAGTAATTGAAGTTAGTACGAGAGGAACCCTTCATTCGGA >gi|311235547|ref|NG_027562.1| Basidiobolus ranarum strain NRRL 34594 28S ribosomal RNA, partial sequence TCTTGATCTCAAATCAGGTAGGATTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTAAAATCTGTAAGGTTCAACCT TGCCGAGTTGTAGTTTGAAGAAGTGTTTTCCGCGGCGGCTGCAGTACAAATCCTTTGGAACAGGGTATCA GAGAGGGTGAGAATCCCGTCTTTGACTGCAGACTAGTTGCACTGTGATACACTTTCTAAGAGTCGAGTTG TTTGGGAATGCAGCTCAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCAAGAGACCGATAGCG AACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAATAGTACGTGAAATTGTTAAA AGGGAAACGCTTGAAGTCAGTGTTGCCGGCGGAAAATCAGCTTCAGACTGGAGACTTGCGTGGGTGGAGG GAGTGTTAAAACCCCTTGCCTACGTACAGGAACTTGGATGGAGTGCACTTTTCAGTCGGCAGGTCAACAT CAATTTCAGCCGGTGGAAAAAAGCTAGCGGAACGTAGGTTGGAGCAATCTAACTGTTATAGCCGCMAGCC AATACACTGGGTGGGATTGAGGACAGCAGTGCAGGCCATTATGGCGGAAGCTCAGTGTCATTCTCCGGGG GGCATGTCAAGACAGCTTGCTGACTTGGTGTGTACACTCTTGGGAACGATGCGGATGTACTTCTCCTGCA CTAAGGATGTTGACGAAATGGCTTTAAACGACCCGTCTTGAAACACGGACCAAGGAGTCTAACAAATATG CGAGTATTTGGGTGGCAAACCCATATGCGCAATGAAAGTGAATGTAGGTGGGATCTCACGCTTCGGCGAG GGTGCACCATCGACCGATCTGGATTATTTTATGATAGATTTGAGTAAGAGCATATCTGTTGGGACCCGAA AGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGAC GTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTG CCGAAGTTTCCCTCAGGATAGCAGAAACTCATTGAACAGTTTTATGAGGTAAAGCGAATGATTAGAGGAT TTAGGGATGAAACATCCTTAACCTATTCTCAAACTTTAAATATGTAAGACGTCCATGTTACTTAATTGAA CGTGGACTATCGAATGAGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACC GAACGTGAGGTTAAGGTGCCGGAATACACGCTCATTTAGACACCACAAAAGGTGTTAGTTCATCTAGACA GCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAG CCCTGAAAATGGATGGCGCTCAAGCGTGTTACCCATACCTCACCGTCAAGGTTAAAGCGAAGCCTTGACG AGTAGGCAGGCGTGGAGGTTGTGAAGAAGCTTCGGGAGTGATCCCAAGTCGAACGGCCTCTAGTGCAGAT CTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCGTGTGAACA GCAGTTGGACACGGGTTAGTCGATCCTAAGAGATAGGGAAGCTCCGTTTTAAAGCGTGCGATTCACCGCA CCACCTATCGAAAGGGAATCAGGTTAATATTCCTGAACCAGGATACGGATTATGTATTACGGCAACGTAA ATGAACTCGGAGACGCCAGCACATGCCCTGGGAAGAGTTTTCTTTTCTTTTTAACAGCTTATCACCCTGA AATCAGATTAACTGGAGCTAGGGTTCAATAGCTGGTAGAGCACTACAACTCTGTAGTGTCCGGTGCGTAT GTGACGGCCCTTGAAAATCCGAGGGAAAGAATCAGTTTCGTGCCTGGTCGTACTCATAACCGCAGCAGGT CTCCAAGGTGAACAGCCTCTAGTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAAC TTCGGGAAAAGGATTGGCTCTAAGGGTTGGGTAGTCTGGGCTGTGTTTAGAAGCCGCGGGACTGCACTTG GACTACGACTGCCGCAAGGCGGTTGCGGACCGGGAGCGGATCTGCGTGTGGAAGAGCACGGTTTCCCYCG CAAGGGGGAAGACTGGGCTACGCTGAACAACCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTC TAATTAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTG AATGTCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAG CCAAATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTAC TATCTAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAAAATCAGCGGGGAAAGAAGACCCTGTTGAGCT TGACTCTAGTTTGACATTGTGAAAAGACATAGAGGGTGTAGAATAAGTGGGAGACTTCGGTCGACAGTGA AATACCACTACCTTTATCGTTTTTTTACTTATTTAATGAGGTAGAAGCGGGCTTCATCGCCCACCTTCTA GCGTTAAGGTTCCATTTACTTGCGAACTGATCTAGGTTAAAGACATTGTCAGGTGGGGAGTTTGGCTGGG GCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGGGACTCATTGAGAACAGAAATCTCAAGTAG AACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATC GATCCTTTAGTCCCTTGAAATTTAAGGCTAGAGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTG GCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTGAAGCA GAATTCAGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGAC AGGTTAGTTTTACCCTACTGATGAATTGTTGTTGCAATAGTAATTCAACTTAGTACGAGAGGAACCGTTG ATTCAGATAATTGGTATTTGCCCTTGGCTGACAAGCCAATGGGGCGAAGC >gi|311235546|ref|NG_027561.1| Rozella allomycis strain UCB 47-054 28S ribosomal RNA gene, partial sequence AAATGATCTCAAATCAGACAAGAGTACCCGCTGAACTTAAGCATATCAGTAAGCGGAGGAAAAGAAAATA ACTATGATTCCCTTAGTAACGGCGAGTGAACCGGGAAAAGCTCAAATTTGTAATCGGGGCGGCGTTGCTT CCCCGAGTTGTAATTTGAAGAGTCGTGGTCAGAGAAAGCCAGGTCTAAGTCTCTTGGAACAGAGCACCAT AGAGGGTGAGAGTCCCGTTCATGGCCTTGGTCTTACTCGTTGTGACGCGTACTCAAAGAGTCGAGTTGTT TGGGAATGCAGCTCAAAATGGGTGGTAAATTTCACCTAAAGCTAAATATTTGCAGGAGACCGATAGCGTA CAAGTACCGTGAGGGAAAGATGAAAAGCACTTTGAAAAGAGAGTGAAAAGCACGTGAAATTGTTAAAGGG GAAACGTTGGAAACCAGTATTGGTCGCTAAGAATCAACTTGGCGTAGGGTTCTCCTGCGTCAGGCGCACT TCTTAGTGCCAAGTCAACATCAGTTGGTGAGCTGGCATACTGGTTTGCGGAATGTAGCCTATCTCTCGGG ATAAGTGTTATAGCCGTGAGCAGATACCAGTGAACTGACTGAGGAATCGCGATACGAAGTAGCTTGGAGA TACAGGCCTTGTGTGAGCCGTTCAATGCGCAGCTAAAACTGACTTTGGATTGTTTATGCTTGGTTTGTGT TTTCGGTCTTAGTATCAAGGATGTTGGCGAAATGGTATTCAGCGACCCGTCTTGAAACACGGACCAAGGA GTCGAACAATTATGCGAGTGTTTGAGTGTTAAACTCATACGCGTAATGAAAGTAATTTTATTGACGAGAA CTGCGCAAGCGGTGCACCGTCGACCGATCTTTTCATTTATGAATTGGTTGAGTTATAGCATAATTGTTCG GACCCGAAAGATGGTGAACTATGCCTGCTTAGGGCGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCG GTTCTGACGTGCAAATCGATCGTCAAAAGTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCT GGTTCCCTCCGAAGTTTCCCTCAGGATAGCAGGAGCTCAATAAACAGTTTTATCAGGTAAAGCGAATGAT TAGAGGCTTTAGGGTTGTAACAACTTTAACCTATTCTCAAACTTTAAATGGGTAAAAACACCTTGTTTCT TAATTGAACTTGGATGTTGAATGAGAGCTCCTAGTGGGCCGTTTTTGGTAAGCAGAACTGGCGATGCGGG ATGAACCGAACGTTGAGTTAAGGTGCCGGAATACACGCTCATGAGACACCACAAAAGGTGTTAGTTCATC TAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATG AACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGTTACCTATACTCAACCGTCACAGTAACTGGTATACT GTGACGAGTAGGAGGGCGTGCTGGTTGTGACGAAGCTTAGATAGTAATATCAAGTGGAACAGCCATTAGT GCAGATCTTGGTGGTAGTAGCAATTATACAAATGGGAACTTTGTAGACTGAAGTGGGGAAAGGTTCCATG AGAACAGCAATTGTTCATGGGTTAGTCGATCCTAAGGTGTAGGTCAACTCTGGTAAAGTGTACAATTGTA CCGCCTACCGAAAGGGAATCCGGTTAATATTCCGGAACTGGAGTGAGGGACGTTTAACGGCAACGTTATT GAACTTGGAGACGCTGGCAGGAGCCCCGGGAAGAGTTATCTTTTCTTTTTAACAATCTATTGACCCTGGA ATCGGATTAACCGGAGAAGGGGTTAAATGATTGGGAAAGCATGTCATTTTTTGATGTGTCCGGTGCGCTT TTGACGGCCCTTGAAAATCCAGGGGAAATTATGTCTTCTCATCTAGTCGTACTGATAACCGCATCAGGTC TCCAAGGTTAACAGCCTCTAGTTGATAGAACAATGTAGGTAAGGGAAGTCGGCAAAATAGATCCGTAACT TTGGGATAAGGATTGGCTCTTAAGGCTGGGTACAACGAGTTGGTAGATGAAGCAGGTGGACTGGACAGGC TATTTCGGTAGACTGTCTGGACTGCTTGTGGAGTCTGTCAATAGACTTTTCGGAGTTGAATTGTTGTACG ATCAACAGCTACTTAAGAACTTTTAATGAGAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGA CGGCCAGAAATGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGTAGAAATTCAA CCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTA GTGACGTGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAG GGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTCCGACTTTGTGAA GAAACATAAGGGGTGTAGAATAAGTGGGAGGGAAACCGACAGTGAAATACCACTACCCTTATTGTTTCTT TACTTATTTGATAAAGTAGAAATGGGTTGCAAGACCTACTTTCTGGTGTTAAGGTTCTTTATGAACTGAT CTAGGTTAAAGACATAGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTG TCCTAAGGTGAGCTCAATGAGACCAGAAATCTCATGTAGAACAAAAGGGTAAAAGCTCACTTGATTTTGA TTTTCAGTGTGAATACAAACCGAGAAATCGTGGCCTATCGATCCTTTAGACCCTTAAAATTTAAGGCTAG AGGTGTCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTT TGATCCTTCGATGTCGGCTCTTCCTATCATTGTGAAGCAGAATTCACAAAGTGTTGGATTGTTCACCCAC TAACAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATAAAGTGTCA TTGCAATAGTAATTCAACTTAGTACGAGAGGAACCGTTGATTCGGATAATTGGTATTTGCTCTTAGTTGA AAAACTAGTGGAGCGAAGCTACCATCCGGAGGATTACGG >gi|311235545|ref|NG_027560.1| Spiromyces aspiralis strain NRRL 22631 28S ribosomal RNA, partial sequence TTTTGACCTCAAATCAGGTAGGAGGACCCGCTGAATTTAAGCATATTAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGCGGGAACAGCTCAAGCCCTTAATCGGCTGTGGATTTGAC CGCAGACGAGTTGTAGCTTGAAGGTTGGCACTTTGAGGTGGCACCGACATAAGCCTTTTGAATAGGGCGC CGGAGAGGGTGCAAGCCCCGTCTTTTGTCGGATGCTGTCCCGTTGTATGTGCCTTCCAGCGAGTCGGGTT GTTTGGGAATGCAGCCCTAACTGGGTGGTAAATTTCATCCAAGGCTAAATATTTGCCAGAGACCGATAGC GAACAAGTACCGTGAGGGAAAGATGAAAAGCACTCTGGAGAGAGAGTGAAATAGTACGTGAAATCGCTGT AAGGGAACCGCTTGCTTGTCCGAGGCCACGACTTTTTAGCTGTGGCGGCTAACACCAGTTTGGTCTCTCG GACAGCCAGTGACGGAAGGTAGGCATTGCTTCGGCGGTGCTGTTATAGCCGTCACGAGGGTGTAGTACGT GGGGACTGGACTGAGGCGCGGCGGTGCGTGCCCCTCGTGGGCGGCCGGCCATCCCTGCTCGCTATGCACA CGTCTCAGACAGCATGCTGACTGAGGGTGCAAAACGCGTGGTGACTCGGGGGTGTGTCTGGTCTAAGAAG CACCAAGGGTGTTGGCTTAAGGGCAGTAAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATACA TGCGAGTGTTTGGGTGACTAAACCCATGCGCGCAATGAAAGTGAGAGCCCTGTGTGCTCGTGGTGCCAGG CCGTACGTTCGCGTATGGCTGCAGCATCGGCCGACCGTGAGGCCCCCGTGCCGAAGGTTTGAGCAGGAGC ATGTATGCTAGGACCCGAAAGATGATGAACTATACCTGAATAGGGCGAAGCCAGAGGAAACTCTGGTGGA GGCTCGTAGCGGTTCTGACGTGCAAATCGATCGTCGAATTTGGGTATAGGGGCGAAAGACTAATCGAATC ATCTAGTAGCTGGTTCCTGCCGAAGTTTCCCTCGACTTATTGATATATCCTGGGGGATAAGAGTCAGCTA AAAGGGCTGGCTAGTCGCAGTCATAGGCGGCAACACCTTCAAATTGCGGGGACGCCCTAAAGCCTTCAGT ACCAAGCTGTGGTGGAAACATCATGGTGGCCGGGGTAATGACCTAGGGTACGGTAAAAACCTGAAGGATG CAACAATGGGTAATCCGCAGCCAAGTCCTAAGTGGTTTTATATTGAGAGCCATATGGATGCAGTTCACAG ACTAAATGTGGGTGGGCTTCTGTGTAAATTACAGAGGCTTAAGATATAGTCGGACCACTCTCGAAAGGGA GTCCCGGTGAGGAGCTAACGGGGTGACTTATGACGGTTGCTGCTACTAGTAGTAGCAACACTCGCCCTGT CTGCAGAGCACCTGGGGGATCTGGGACACACACATACACAACACTACTCGCGGCACTGCCCAAGGGTTGT TGTTGTTGTTGTTGTGTGTATGTCACAGGTCTGGAGTTTATTAATCGCAGGATAGCAGAGACTCATGGAG CAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGCTGAAACAGCCTTAACCTATTCTCAAACTT TAAATGTGTAAGAACCCCTCGTTGCTTAATTGAACCAGGGGATTCGAATGAGAGTCTCTAGTGGGCCATT TTTGGTAAGCAGAACTGGCGCTGCGGGATGAACCGAACGTGGAGTTAAGGTGCCGGAATGCTCGCTCATT TAGACACCACAAAAGGTGTTGGTTCATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAATCCGCTAAG GAGTGCGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGGATGGCGCTCAAGCGAGCTACCTAT ACTCCACCGTCAGGGGGAGCGCGGTCAAACGGATCCCCTGACGAGTAGGCAGGCGTGGGGGTTGTGTCGA AGGTCAGGGCGTGAGCCCGACTGGAACGGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAGT GAGATCCTTGAAGACTGAAGTGGAGAAGGGTTCCATGTGAACAGCAGTTGGACATGGGTTAGTCGATCCT AAGAGACAGGGTAGTTCTGTCAAGAGGGGCAATTCGATTTGCCCGTGCTCTCGAAAGGGAAACCGGTTAA TATTCCGGTACCAGTATGTGGGAGTAAGCGGCAACGCGATGAACTCGGAGACGCCAGCACGAGCCCTGGG GAGAGTTTTCTTTTCTCTTTAACAGCCCAATGACCCTGGAATCAGGTTGCCTGGAGAAGGGGTCCGGCGG TTGGTAGAGCAGGTCACCTCTGACCTGTCCGGAGCGCGCGTGATGGCCCGTGAAAATCCGAGGGAATGTT TTTCCACGACTGGTCGTACCAATAACCGCAGCAGGTCTCCAAGGTGAACAGCCTCTAGTTGATAGAACAA TGTAGGTAAGGGAAGTCGGCAAAATGGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTTGGGCAT GCTGGGGCCGCCAGGGTGGCCGTGCGGTTGACCGGGGAGTGCCTGCTGCCTGTTGCCCTCGGGTGACGGG CGGTGGGCGTTCCTCGGCCGGACTACGCGGCCGGCCTGGTGGTTGATAACTGGCATGCGCTAAGCAACCA ACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCATAACG TGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAACGTGAAGAAATTCAACCAAGCGCGG GTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCA TGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAATGGGCT TGGCAGAAACAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGGAGAGACATAGA GGGTGTAGAATAAGTGGGAGACTTTGGTCGACAGCGAAATACCACTACCTTTATTGTTTCTCTACTTACT CGGTGAGGAGGTGCTAGGCCTCGTGCCTATCTTCTGGACTTACGGTCATTTACTGGCCAAACCTGGTCGA GGACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAACAATAACGCAGGTGTCCTAAGGG GGGCTCATTGAGAACAGAAATCTCAAGTAGAACAAAAGGGTAAAAGCCCCCTTGATTTTGATTTTCAGTG TGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGACCCTGGAAATTTCAGGCTAGAGGTGTCAG AAAAGTTACCACAGGGATGAACCATATGTATAGTAGTTGTATGCCACAACTAGTATCGGTAACTATAAAA TTGTATATACGTCCCAGGGGCCTGCAACAAAAAGGGGCAGAGGGGCGGGATGCAGTACATATGAGTGAGT TTATATGTGTTGTGTGTCGTGTCTTTGCTCTCGCCAGCGGCCTCTAGTCACCCGTATATAACGGGTGGCG ACACAGTCGGATGCGGGGAACACTTGCTAGGCGATCAGTACCAAGCTTCCTGGATAACGCCCAGGTTGTG GAGCGCTTTGGCGGGCGCGGGTAATAATCTGATCGATAGAGTCAATCCGCAGTAGAGTGGGCTTAAGGCT TATCCCTCTGATCATATCACAGCATATGACATGTGTTGTGTGTGTACGAGAGAGTGGTAGGGGCAAACAG CTCGCCTATTCAACGCACGCAAGGCTGTGGGTCTCCTGTGCCGCCGTTACCCATCATCATCACTCTATGT GGTGGTGGGAGCAGCAGCAGCGAGGCTTAAGGTACGTGCTATTCCCACTCGAGAGAGTGCGGGCCAGTAA CCCTGCGAACCCAGTCACAACTATAGTAGTAATACTAGTGGATGGTAGTAGCTCGGCCAGGGGTCCGGGC CAGTGATCCCGGGAGGAAATGCCCGGGTGAGTATTAATGGCTGGTAGCAAAGAACTGGCTTGTGGCAGCC AAGCGTTCATAGCGACGTTGCTTTTTGATCCTTCGATGTCGGCTCTTCCTATCATACTGAAGCAGAATTC AGTAAGCGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTA GTTTTACCCTACTGTTGAGTTGTCGTCACAATAGTAATTCAATTTAGT >gi|311235544|ref|NG_027559.1| Phycomyces blakesleeanus strain NRRL 1555 28S ribosomal RNA, partial sequence ATTGGATCTGAAATCAGGTGGGATTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCCTAGTAACGGCGAGTGAAGAGGGAAAAGCTCAAAGTTGGAACCTGTTTGGCTTAGCTA AACCGGATTGTAAACTAAAGAGCCGTTTTCCAGACGAGCTAAGCAAAAAAGTCCCTTGGAACAGGGCATC ATAGAGGGTGAGAATCCCGTCTTTGGCTTAAGCGATTTCGTCTTTATGTGATACGGCTTCAAAGAGTCAG GTTGTTTGGGAATGCAGCCTAAAGTGGGTGGTAAATCTCATCTAAAGCTAAATATTGGCGAGAGACCGAT AGCGAACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTATGTGAAATTGC TGAAAGGGAACCGTTTGAGGTTAGACTAGCTGGTCAGTAATCAATCTTGGTTTCGACCATGATGCACTTG CTGGCCTTTGGCTAGCCAACGACAGTTTTTTCTGTAGGAAAAAATGTGCAGGAATGTGGCTCTTCGGAGT GTTATAGCCTGCTATAGAATACTACGGAAGAGACTGAGGCTCGCAGCGAACGCTATTATGGCGAGGATCA GGTTAACTTTGTGATAATGTGTGCTACTACTCAGCTTGCTGCGGTAATGCATGTTGTTGTTTGGTATTGG CTTGTTTACCTTTAGTTCGCTTGGGTCGTTGGCTTAATGACCTTAAATGACCCGTCTTGAAACACGGACC AAGGAGTCCACCATAAATGCGAGTATTTGGGTGCCAAACCCATATGCGAAAGGAAACTGAATGGATATGA ATCCCTTGAGGAGGCAATATCATCCGGCTTTGACGTTTTAACTGAAGAGACCGAGATTGAGCATTTATGA TGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTA GCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTA GCTGGTTCCTGCCGAAGTTTCCCTCAGGATAGCAGAAGCTCAAAGGCAGTTTTATGGGGTAAAGCGAATG ATTAGAGGCCTTGGGGGCGAAAAGCCCTTAACCTATTCTCAAACTTTAAATATGTAAGACGCCAGGTTTT CTTAATTGAAGCCATGGCTATGAATGTCGAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATG CGGGATGAACCGAACGTGAAGTTAAGGTGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTT CATCTAGACAGCAGGACGGTGGCCATGGAAGTCGGAAACCGCTAAGGAGTGTGTAACAACTCACCTGCCG AATGAACTAGCCCTGAAAATGGATGGCGCTTAAGCGTGTTACCCATACTTCACCGTCATGGTAAAAGCGA AGCCATGACGAGTAGGCAGGCGTGGAGGTTTATTAAACTGTTAAGAAGCATTTGGTGTGAACCTATGTGA AACAGCCTCTAGTGCAGATCTTGGTGGTAGTAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGA GAAAGGTTCCTAGAGAACAGTATTTGGTCTAGGGTTAGTCGATCCTAAGAGATAGGGAAGCTCCGTTTTA TCAAAGTAGCCAATTTATTGGCTCGCCTATCGAAAGGGAAACCGGTTAATATTCCGGTACTAGGATGAGG ATTCTCTGCGGCAACGCAAATGAATTTGGAGACATCAGTGTGGATCCCAGGAAGAGTTCTCTTTTCTTTT TAACAGCCTGTGTTTGCCATGAAATCAGTTTAGCTGGAGAAATGGCTAACCGGTTGGTAGAGCATCGTAC TTTTTGCGGTGTCTGGTGCATTCACAACGATCCTTGAAAATCCAAAGGAAAGATTAATTTTCTCGCCTAG TCGTACTCATAACCGCAGCAGGTCTCCAAGGTGGAAAGCCTCTAGTTGATGGAACAATGTAGATAAGGGA AGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGATTGGCTCTAAGGGTTGGGTAAGTTTGGGCTGATG GTAATCGGCTGGCTAGCGATTGGTTTTGGGCTTTACGGCCTGAGGCTGGTTGCCAAGCTGGTCAGGCACT GTTAGATTCCGGCTTACAATTAACAACCAACTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAAT TAAAACATAGCATTGCGATGGCCAGAAAGTGGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATG TCAAAGTGAAGAAATTCAACCAAGCGCGGGTAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAA ATGCCTCGTCATCTAATTAGTGACGCGCATGAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATC TAGCGAAACCACAGCCAAGGGAACGGGCTTGGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGAC TCTAGTTTGACATTGTGAAAAGACATAGGGGGTGTAGCATAAGTGGGAGCTTCGGCGCCAATGAAATACC ACTACCCTTATTGTTTTTTTACTTAAATAATCATGTGGGATTGGGCTTCACGGCCCACCTTCTGGTTTTA AGCGCCTTTATGGCGTGACCCACGTTATTGACATTGTCAAGTGGGGAGTTTGGCTGGGGCGGCACATCTG TTAAAAAATAACGCAGGTGTCCTAAGGGGGACTCAGCGAGAACAGAAATCTCGCGTAGAATAAAAGGGTA AAAGTCCCCTTGATTTTGATTTTCAGTGTGAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGAT CCTCAAGATTTGAGGCTAGAGGTGCCAGAAAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGT TCATAGCGACGTTGCTTTTTGATTCTTCGATGTCGGCTCTTCCTATCATACAGAAGCAGAATTCTGTAAG CGTTGGATTGTTCACCCACTAATAGGGAACGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTA CCCTACTGATGGTATCGGTATCGTAACAGTAATTGAAGTCAGTACGAGAGGAACCCTTCATTCAAATAAT TGGTATTTGCGGCTGGTGAAAGGCCAATGCCGCGAAGC >gi|311235543|ref|NG_027558.1| Umbelopsis ramanniana strain NRRL 5844 28S ribosomal RNA, partial sequence TTTTGATCTGAAATCAGGTAGGATTACCCGCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTA ACAAGGATTCCCTCAGTAACGGCGAGTGAAGCGGGAAGAGCTCAAATTTAAAATCTGGTTTACTTGTAAG CCCGAGTTGTAGTCTGAAGAAACGTTTTCCATAAGCACTGAGGCAAAAGTCCCTTGGAACAGGGCATCAT AGAGGGTGAGAATCCCGTCCATGGTCTCAAGTTGTTTATTTTGTGATACGTTTTCAAAGAGTCAGGTTGT TTGGGAATGCAGCCTAAAATGGGTGGTAAATTTCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGA ACAAGTACCGTGAGGGAAAGATGAAAAGAACTTTGAAAAGAGAGTTAAACAGTACGTGAAATTGTTGAAA GGGAACCGTTTGAAGCCAGTCTTACTTGCTCGTGATCAATTTTTGCCTCGGCATGAATGCACTCTCGGGT ATGGTAGGCCAACGACAGTTTAGAATGCGAGAAAAAAATAGGGGAAATGTGGCCTTCGGGTGTTATAGTC CCTTATAAAATATCGTGTTCTGGACTGAGGATCGCAGCAAAAATGTGGGCAGGTGGATTTCTGTGGTAAC TGTCGGTTAGGACAACTTGTTGACCTAGTCTTCCTTAGCCTCACTATTTACCTTGCTTCTAATTTGCTTA GGTCGTTGGCATAATGGCTTTAAATGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATATATGCGAG TATTTGGGTGGCAAACCCATATGCGCAATGAAAGTGAAAYTAGGTGCCAAACCTTCACGGGTGGCAGCAT CGGCCGGCTYTGACGTTTTAACTGACGAGTCTGAGCAGAAGCATACATGTTGGGACCCGAAAGATGGTGA ACTATGCCTGAATAGGGTGAAGCCAGAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATC GATCGTCAAATTTGGGTATAGGGGCGAAAGACTAATCGAACCATCTAGTAGCTGGTTCCTGCCGAAGTTT CCCTCAGGATAGCAGAAACTTGTATCAGTTTTATGAGGTAAAGCGAATGATTAGAGGCCTTGGGGATGAA ACATCCTTAACCTATTCTCAAACTTTAAATATGTAAGACGCTTAGCTTTCTTAATTGAAGCTAGGCATAC GAATGAAAGTTTCTAGTGGGCCATTTTTGGTAAGCAGAACTGGCGATGCGGGATGAACCGAACGTAGAGT TAAGGCGCCGGAATACACGCTCATCAGACACCACAAAAGGTGTTAGTTCATCTAGACAGCAGGACGGTGG CCATGGAAGTCGGAATCCGCTAAGGAGTGTGTAACAACTCACCTGCCGAATGAACTAGCCCTGAAAATGG ATGGCGCTCAAGCGTGTTGCCCATACTCTACCGTCAATGTAAAAGCGAAGCATTGACGAGTAGGCAGGCG TGGAGGTCAGTGAAGAAGGCGTTGGTGTGAACCTCGCTGAAACGGCCTCTAGTGCAGATCTTGGTGGTAG TAGCAAATATTCAAATGAGAACTTTGAAGACTGAAGTGGAGAAAGGTTCCTTGTGAACAGCAGTTGGACA AGGGTTAGTCGATCCTAAGAGATAGGGAAGCTCTGTTTCAAAGTAGCCAATTTGGCTCATCTATCGAAAG GGAAACTGGTTAATATTCCAGTACCAGGATGCAGATTTTTTGCGGCAACGCAATTGAACTCGGAGACGTC AGCAGGAGCCCTGGAAAGAGTTTTCTTTTCTTTTTAACAGTGGACTTGACCTTGAAATCGGCTTAGCCGG AGCTAAGGTTGAGCAACTGGTAGAGCATGGTATTTTTTGCCGTGTCCGGTGCGCTTCTGACGACCCTTGA AAATCCGAGGGAAAGAATAATTTTTGCGCCTGGTCGTACTCATAACCGCAGCAGGTCTCCAAGGTGAACA GCCTCTAGTTGATAGAACAATGTAGATAAGGGAAGTCGGCAAAATAGATCCGTAACTTCGGGATAAGGAT TGGCTCTAAGGGTTGGGCTTGTTGGAGCTTGATGCGACGTTGGGAGGACTCGATAGGGACTATTRCTGGG CAACTGGCAACGGACCTTGTTGGGACCACTCTTCATAGCGTCTTGTTTCTGACCTGCAATTAACAACCAA CTTAGAACTGGTACGGACAAGGGGAATCTGACTGTCTAATTAAAACATAGCATTGCGATGGCCATAAAGT GGTGTTGACGCAATGTGATTTCTGCCCAGTGCTCTGAATGTCAAAGTGAAGAAATTCAACCAAGCGCGGG TAAACGGCGGGAGTAACTATGACTCTCTTAAGGTAGCCAAATGCCTCGTCATCTAATTAGTGACGCGCAT GAATGGATTAACGAGATTCCCACTGTCCCTATCTACTATCTAGCGAAACCACAGCCAAGGGAACGGGCTT GGCAGAATCAGCGGGGAAAGAAGACCCTGTTGAGCTTGACTCTAGTTTGACATTGTGAAAAGACATAGGG GGTGTAGAATAAGTGGGAGCTTCGGCGCCAGTGAAATACCACTACCCTTATCGTTTTTTTACTTACTTAA TAATGTGGAATTGGGCTTCACGGCCCACATTCTGGTTTTAAGGTCGCATTAGCGGCCGATCCAGGTTAAA GACATTGTCAGGTGGGGAGTTTGGCTGGGGCGGCACATCTGTTAAAAGATAACGCAGGTGTCCTAAGGGG GACTCAACGAGAACAGAAATCTCGTGTAGAACAAAAGGGTAAAAGTCCCCTTGATTTTGATTTTCAGTGT GAATACAAACCATGAAAGTGTGGCCTATCGATCCTTTAGTCCTTCGAAATTTGAAGCTAGAGGTGCCAGA AAAGTTACCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCGACGTTGCTTTTTGATTCTTCG ATGTCGGCTCTTCCTATCATACCGAAGCAGAATTCGGTAAGCGTTGGATTGTTCACCCACTAATAGGGAA CGTGAGCTGGGTTTAGACCGTCGTGAGACAGGTTAGTTTTACCCTACTGATGAAGTTGTTATCGCAACAG TAATTGAAGTTAGTACGAGAGGAACCCTTCATTCACATAATTGGTATTTGCGGTTGTCTGAGAAGACAAT GCCGCGAAGCTACCATGTGCTGGATTATAG >gi|311235542|ref|NG_027553.1| Lycoperdon pyriforme strain DSH 96-054 28S ribosomal RNA, partial sequence GCTGAACTTAAGCATATCAATAAGCGGAGGAAAAGAAACTAACAAGGATTCCCCTAGTAACTGCGAGTGA AGCGGGAAAAGCTCAAATTTAAAATCTGGCGGTCTATGGCTGTCCGAGTTGTAATCTAGAGAAGTAATGC CCGCGCTGGACCGTGTACAAGTCTCCTGGAATGGAGCGTCATAGAGGGTGAGAATCCCGTCTTTGACACG GACTACCAGGGCTTTGTGGTATGCTCTCAAAGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGT AAATTCCATCTAAAGCTAAATATTGGCGAGAGACCGATAGCGAACAAGTACCGTGAGGGAAAGATGAAAA GAACTTTGGAAAGAGAGTTAAACAGTACGTGAAATTGCTGAAAGGGAAACGCTTGAAGTCAGTCGCGTTG ACTAGAACTCAGCTTCACTTTTGTGGGGTGTACTTTTTAGTTGACGGGTCAGCATCAATTCTGACTGCTG GAAAAAGGCTTAGGGAATGTGGCAGCTCCGGCTGTGTTATAGCCCTTTGTCACATACAGCTGTTGGGATT GAGGAACTCAGCACGCCGCAAGGCCGGGTTTCGACCACGTTCGTGCTTAGGATGCTGGCATAATGGCTTT AAGCGACCCGTCTTGAAACACGGACCAAGGAGTCTAACATGCCTGCGAGTGTTTGGGTGGTAAACCCGAG CGCGTMMTGAAAGTGAAAGTTGAGATCCCTGTCGTGGGGAGCATCGACGCCCGGACCTGACCTTTTGTGA CGGATCCGCGGTAGAGCATGTATGTTGGGACCCGAAAGATGGTGAACTATGCCTGAATAGGGTGAAGCCA GAGGAAACTCTGGTGGAGGCTCGTAGCGATTCTGACGTGCAAATCGATCGTCAAATTTGGGTATAGGGGC GA needletail-0.6.3/tests/data/PRJNA271013_head.fq000064400000000000000000035235301046102023000166670ustar 00000000000000@SRR1749083.HWI-ST1309F:161:C584UANXX:3:1101:2000:1995.1 HWI-ST1309F:161:C584UANXX:3:1101:2000:1995.1 length=125 NGACTCGTCTTTTTTCTGTTCACCCAGTTTAAATGGACCTGTGCAATCAAATGATTTAACGCCATTCTTAGTTCCATCATCCTTAAAATCTTTAGGTGATACAAATACATATGGAGATCGGAAGA +SRR1749083.HWI-ST1309F:161:C584UANXX:3:1101:2000:1995.1 HWI-ST1309F:161:C584UANXX:3:1101:2000:1995.1 length=125 #<Bad headerneedletail-0.6.3/tests/data/bad_test.fa000064400000000000000000000000401046102023000161020ustar 00000000000000This is not a valid FASTA file. needletail-0.6.3/tests/data/random_tsv.fq000064400000000000000000000007541046102023000165250ustar 00000000000000@HISEQ:99:C5LAVANXX:5:2316:9999:92443 GCGAGTGACGATGGCATGCAAGGTTAAACCGAAG + CCCCCGGGGGGGGGGGGGGGGGGGGGGGGGGGGG @HD VN:1.0 SO:unsorted @SQ SN:NODE_1_length_182_cov_1.263736 LN:242 @SQ SN:NODE_2_length_134_cov_1.544776 LN:194 @SQ SN:NODE_3_length_201_cov_1.432836 LN:261 @SQ SN:NODE_4_length_301_cov_2.870432 LN:361 @SQ SN:NODE_6_length_280_cov_1.742857 LN:340 @SQ SN:NODE_7_length_319_cov_1.840125 LN:379 @SQ SN:NODE_8_length_335_cov_1.740299 LN:395 @SQ SN:NODE_9_length_273_cov_1.754579 LN:333needletail-0.6.3/tests/data/test.fa000064400000000000000000000000351046102023000153000ustar 00000000000000>test AGCTGATCGA >test2 TAGC needletail-0.6.3/tests/data/test.fa.bz2000064400000000000000000000001011046102023000157660ustar 00000000000000BZh91AY&SYÒâåLÏ€(€ !*yOSG¨@ $±C:ØÖ<"ߧÅÜ‘N$4¸¹Sneedletail-0.6.3/tests/data/test.fa.gz000064400000000000000000000000651046102023000157220ustar 00000000000000‹}L|[test.fa³+I-.ártwqw qvwä² q……¸8Û&needletail-0.6.3/tests/data/test.fa.xz000064400000000000000000000001301046102023000157340ustar 00000000000000ý7zXZæÖ´F!t/å£>test AGCTGATCGA >test2 TAGC @‚ßÖžk©5D±á¶ó}YZneedletail-0.6.3/tests/data/test.fa.zst000064400000000000000000000000521046102023000161160ustar 00000000000000(µ/ý$é>test AGCTGATCGA >test2 TAGC gzL×needletail-0.6.3/tests/format_specimens.rs000064400000000000000000000054031046102023000170100ustar 00000000000000use std::fs; use needletail::errors::ParseError; use needletail::parser::parse_fastx_file; use serde_derive::Deserialize; #[derive(Debug, Deserialize)] struct TestCase { filename: String, // origin: String, tags: Option>, // comments: Option>, } #[derive(Debug, Deserialize)] struct TestIndex { valid: Vec, invalid: Option>, } fn test_fastx_file(path: &str) -> Result<(), ParseError> { let mut reader = parse_fastx_file(path)?; while let Some(rec) = reader.next() { let _ = rec?; } Ok(()) } #[test] fn test_specimen_fasta() { let raw_index = fs::read_to_string("tests/specimen/FASTA/index.toml").unwrap(); let index: TestIndex = toml::from_str(&raw_index).expect("Could not deserialize index"); for test in index.valid { // what kind of sicko puts comments in FASTAs? if test .tags .unwrap_or_else(Vec::new) .contains(&String::from("comments")) { continue; } let path = format!("tests/specimen/FASTA/{}", test.filename); assert_eq!(test_fastx_file(&path), Ok(())); } } #[test] fn test_specimen_fastq() { let raw_index = fs::read_to_string("tests/specimen/FASTQ/index.toml").unwrap(); let index: TestIndex = toml::from_str(&raw_index).expect("Could not deserialize index"); for test in index.valid { if test.filename == "wrapping_original_sanger.fastq" || test.filename == "longreads_original_sanger.fastq" || test.filename == "tricky.fastq" { // may god have mercy upon us if someone ever tries a file like this // (sequences are one-line, but quality scores are line-wrapped) continue; } let path = format!("tests/specimen/FASTQ/{}", test.filename); assert!( test_fastx_file(&path).is_ok(), "File {} is bad?", test.filename ); } for test in index.invalid.unwrap_or_default() { if test.filename == "error_diff_ids.fastq" { // we don't care if the sequence ID doesn't match the quality id? continue; } // We don't check for ascii validity since it's a big hit perf wise // This means some invalid sequences are considered ok but it's not a big issue // in practice if test.filename.starts_with("error_qual_") || test.filename == "error_spaces.fastq" || test.filename == "error_tabs.fastq" { continue; } let path = format!("tests/specimen/FASTQ/{}", test.filename); assert!( test_fastx_file(&path).is_err(), "File {} is good?", test.filename ); } } needletail-0.6.3/tests/specimen/FASTA/AAC12660.fasta000064400000000000000000000010611046102023000175440ustar 00000000000000>AAC12660 TAK1 binding protein [Homo sapiens]. MAAQRRSLLQSEQQPSWTDDLPLCHLSGVGSASNRSYSADGKGTESHPPEDSWLKFRSEN NCFLYGVFNGYDGNRVTNFVAQRLSAELLLGQLNAEHAEADVRRVLLQAFDVVERSFLES IDDALAEKASLQSQLPEGVPQHQLPPQYQKILERLKTLEREISGGAMAVVAVLLNNKLYV ANVGTNRALLCKSTVDGLQVTQLNVDHTTENEDELFRLSQLGLDAGKIKQVGIICGQEST RRIGDYKVKYGYTDIDLLSAAKSKPIIAEPEIHGAQPLDGVTGFLVLMSEGLYKALEAAH GPGQANQEIAAMIDTEFAKQTSLDAVAQAVVDRVKRIHSDTFASGGERARFCPRHEDMTL LVRNFGYPLGEMSQPTPSPAPAAGGRVYPVSVPYSSAQSTSKTSVTLSLVMPSQGQMVNG AHSASTLDEATPTLTNQSPTLTLQSTNTHTQSSSSSSDGGLFRSRPAHSLPPGEDGRVEP YVDFAEFYRLWSVDHGEQSVVTAP needletail-0.6.3/tests/specimen/FASTA/EFTU_BACSU.fasta000064400000000000000000000006771046102023000202550ustar 00000000000000>sp|P33166|EFTU_BACSU Elongation factor Tu; MAKEKFDRSKSHANIGTIGHVDHGKTTLTAAITTVLHKKSGKGTAMAYDQIDGAPEERER GITISTAHVEYETETRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREH ILLSKNVGVPYIVVFLNKCDMVDDEELLELVEMEVRDLLSEYDFPGDDVPVVKGSALKAL EGDAEWEAKIFELMDAVDEYIPTPERDTEKPFMMPVEDVFSITGRGTVATGRVERGQVKV GDEVEIIGLQEENKKTTVTGVEMFRKLLDYAEAGDNIGALLRGVSREEIQRGQVLAKPGT ITPHSKFKAEVYVLSKEEGGRHTPFFSNYRPQFYFRTTDVTGIIHLPEGVEMVMPGDNTE MNVELISTIAIEEGTRFSIREGGRTVGSGVVSTITE needletail-0.6.3/tests/specimen/FASTA/HUMBETGLOA.fasta000064400000000000000000000060551046102023000202200ustar 00000000000000>HUMBETGLOA Human haplotype C4 beta-globin gene, complete cds. ACCTCCTATTTGACACCACTGATTACCCCATTGATAGTCACACTTTGGGTTGTAAGTGAC TTTTTATTTATTTGTATTTTTGACTGCATTAAGAGGTCTCTAGTTTTTTACCTCTTGTTT CCCAAAACCTAATAAGTAACTAATGCACAGAGCACATTGATTTGTATTTATTCTATTTTT AGACATAATTTATTAGCATGCATGAGCAAATTAAGAAAAACAACAACAAATGAATGCATA TATATGTATATGTATGTGTGTACATATACACATATATATATATATATATTTTTTCTTTTC TTACCAGAAGGTTTTAATCCAAATAAGGAGAAGATATGCTTAGAACTGAGGTAGAGTTTT CATCCATTCTGTCCTGTAAGTATTTTGCATATTCTGGAGACGCAGGAAGAGATCCATCTA CATATCCCAAAGCTGAATTATGGTAGACAAAACTCTTCCACTTTTAGTGCATCAACTTCT TATTTGTGTAATAAGAAAATTGGGAAAACGATCTTCAATATGCTTACCAAGCTGTGATTC CAAATATTACGTAAATACACTTGCAAAGGAGGATGTTTTTAGTAGCAATTTGTACTGATG GTATGGGGCCAAGAGATATATCTTAGAGGGAGGGCTGAGGGTTTGAAGTCCAACTCCTAA GCCAGTGCCAGAAGAGCCAAGGACAGGTACGGCTGTCATCACTTAGACCTCACCCTGTGG AGCCACACCCTAGGGTTGGCCAATCTACTCCCAGGAGCAGGGAGGGCAGGAGCCAGGGCT GGGCATAAAAGTCAGGGCAGAGCCATCTATTGCTTACATTTGCTTCTGACACAACTGTGT TCACTAGCAACCTCAAACAGACACCATGGTGCATCTGACTCCTGAGGAGAAGTCTGCCGT TACTGCCCTGTGGGGCAAGGTGAACGTGGATGAAGTTGGTGGTGAGGCCCTGGGCAGGTT GGTATCAAGGTTACAAGACAGGTTTAAGGAGACCAATAGAAACTGGGCATGTGGAGACAG AGAAGACTCTTGGGTTTCTGATAGGCACTGACTCTCTCTGCCTATTGGTCTATTTTCCCA CCCTTAGGCTGCTGGTGGTCTACCCTTGGACCCAGAGGTTCTTTGAGTCCTTTGGGGATC TGTCCACTCCTGATGCTGTTATGGGCAACCCTAAGGTGAAGGCTCATGGCAAGAAAGTGC TCGGTGCCTTTAGTGATGGCCTGGCTCACCTGGACAACCTCAAGGGCACCTTTGCCACAC TGAGTGAGCTGCACTGTGACAAGCTGCACGTGGATCCTGAGAACTTCAGGGTGAGTCTAT GGGACCCTTGATGTTTTCTTTCCCCTTCTTTTCTATGGTTAAGTTCATGTCATAGGAAGG GGATAAGTAACAGGGTACAGTTTAGAATGGGAAACAGACGAATGATTGCATCAGTGTGGA AGTCTCAGGATCGTTTTAGTTTCTTTTATTTGCTGTTCATAACAATTGTTTTCTTTTGTT TAATTCTTGCTTTCTTTTTTTTTCTTCTCCGCAATTTTTACTATTATACTTAATGCCTTA ACATTGTGTATAACAAAAGGAAATATCTCTGAGATACATTAAGTAACTTAAAAAAAAACT TTACACAGTCTGCCTAGTACATTACTATTTGGAATATATGTGTGCTTATTTGCATATTCA TAATCTCCCTACTTTATTTTCTTTTATTTTTAATTGATACATAATCATTATACATATTTA TGGGTTAAAGTGTAATGTTTTAATATGTGTACACATATTGACCAAATCAGGGTAATTTTG CATTTGTAATTTTAAAAAATGCTTTCTTCTTTTAATATACTTTTTTGTTTATCTTATTTC TAATACTTTCCCTAATCTCTTTCTTTCAGGGCAATAATGATACAATGTATCATGCCTCTT TGCACCATTCTAAAGAATAACAGTGATAATTTCTGGGTTAAGGCAATAGCAATATCTCTG CATATAAATATTTCTGCATATAAATTGTAACTGATGTAAGAGGTTTCATATTGCTAATAG CAGCTACAATCCAGCTACCATTCTGCTTTTATTTTATGGTTGGGATAAGGCTGGATTATT CTGAGTCCAAGCTAGGCCCTTTTGCTAATCATGTTCATACCTCTTATCTTCCTCCCACAG CTCCTGGGCAACGTGCTGGTCTGTGTGCTGGCCCATCACTTTGGCAAAGAATTCACCCCA CCAGTGCAGGCTGCCTATCAGAAAGTGGTGGCTGGTGTGGCTAATGCCCTGGCCCACAAG TATCACTAAGCTCGCTTTCTTGCTGTCCAATTTCTATTAAAGGTTCCTTTGTTCCCTAAG TCCAACTACTAAACTGGGGGATATTATGAAGGGCCTTGAGCATCTGGATTCTGCCTAATA AAAAACATTTATTTTCATTGCAATGATGTATTTAAATTATTTCTGAATATTTTACTAAAA AGGGAATGTGGGAGGTCAGTGCATTTAAAACATAAAGAAATGAAGAGCTAGTTCAAACCT TGGGAAAATACACTATATCTTAAACTCCATGAAAGAAGGTGAGGCTGCAAACAGCTAATG CACATTGGCAACAGCCCTGATGCATATGCCTTATTCATCCCTCAGAAAAGGATTCAAGTA GAGGCTTGATTTGGAGGTTAAAGTTTTGCTATGCTGTATTTTACATTACTTATTGTTTTA GCTGTCCTCATGAATGTCTTTTCACTACCCATTTGCTTATCCTGCATCTCTCAGCCTTGA CTCCACTCAGTTCTCTTGCTTAGAGATACCACCTTTCCCCTGAAGTGTTCCTTCCATGTT TTACGGCGAGATGGTTTCTCCTCGCCTGGCCACTCAGCCTTAGTTGTCTCTGTTGTCTTA TAGAGGTCTACTTGAAGAAGGAAAAACAGGGGTCATGGTTTGACTGTCCTGTGAGCCCTT CTTCCCTGCCTCCCCCACTCACAGTGACCCGGAATCTGCAGTGCTAGTCTCCCGGAACTA TC needletail-0.6.3/tests/specimen/FASTA/P02456.fasta000064400000000000000000000002371046102023000173650ustar 00000000000000>sp|P02456|CO1A1_RABIT Collagen alpha-1(I) chain (Fragment) OS=Oryctolagus cuniculus GN=COL1A1 PE=1 SV=1 SYGYBZKSAGVSVPGPMGPSGPRGLPGPPGAPGPZGFZGPPGZPGZPGSSGPM needletail-0.6.3/tests/specimen/FASTA/alnfile.fasta000064400000000000000000000004461046102023000202010ustar 00000000000000>BS1-fragment 7fab light chain variable region TISCTGSSSNIGAGNHVKWYQQLPG >BS2-fragment 2fb4 light chain variable region VTISCTGTSSNIGSITVNWYQQLPG >BS3-fragment 2fb4 heavy chain variable region LRLSCSSSGFIFSSYAMYWVRQAPG >BS4-fragment 7fab heavy chain variable region LSLTCTVSGTSFDDYYSTWVRQPPG needletail-0.6.3/tests/specimen/FASTA/amino.fasta000064400000000000000000000006761046102023000176770ustar 00000000000000>CYS1_DICDI fragment SCWSFSTTGNVEGQHFISQNKLVSLSEQNLVDCDHECMEYEGE >ALEU_HORVU MAHARVLLLALAVLATAAVAVASSSSFADSNPIRPVTDRAASTLESAVLGALGRTRHALRFARFAVRYGK SYESAAEVRRRFRIFSESLEEVRSTNRKGLPYRLGINRFSDMSWEEFQATRLGAAQTCSATLAGNHLMRD AAALPETKDWREDGIVSPVKNQAHCGSCWTFSTTGALEAAYTQATGKNISLSEQQLVDCAGGFNNFGCNG GLPSQAFEYIKYNGGIDTEESYPYKGVNGVCHYKAENAAVQVLDSVNITLNAEDELKNAVGLVRPVSVAF QVIDGFRQYKSGVYTSDHCGTTPDDVNHAVLAVGYGVENGVPYWLIKNSWGADWGDNGYFKMEMGKNMCA IATCASYPVVAA needletail-0.6.3/tests/specimen/FASTA/aster.fasta000064400000000000000000000002171046102023000177010ustar 00000000000000>gi|3298468|dbj|BAA31520.1| SAMIPF GGHVNPAVTFGAFVGGNITLLRGIVYIIAQLLGSTVACLLLKFVTNDMAVGVFSLSAGVGVTNALVFEIV MTFGLVYTVYATAIDPKKGSLGTIAPIAIGFIVGANIneedletail-0.6.3/tests/specimen/FASTA/badfasta.fasta000064400000000000000000000020251046102023000203270ustar 00000000000000>CEESC12R gcacgagtccatctccatatgccaccacaacantggtcctgtcgaaccaa caaccagcttggctcaatgacaaaatgcttcgcgcgccanaatgccaaca aatcccgtgccaccagagccaccggcgcgatatgcagatcataccgctgg aagacgatctcgatcgagccgtgcatccgatgggagaggaactctgaatg gcggactccatcaccggactagcggaagtcaacggtcggatagtccacct cacacagatgtgagctatgttcagcttcactcatccgatggaactggtag tagtaaggaaagaantngggagcggagaacaccaccgaataaa >CEESC13F cttgcttgaaaaatttatataaatatttaagagaagaaaaataaataatc gcatctaatgacgtctgtccttgtatccctggtttccattgactggtgca ctttcctgtctttgaggacatggacaatattcggcatcagttcctggctc tccctcctctcctggtgctccagcagaaccgttctctccattatctccct tgtctccacgtggtccacgctctcctggtgctcctggaataccttgagct ccctcgtgccgaattcctgcagcccgggggatccactagttctagagcgg ccgccaccgcggtgggagctccagcttttgttncctttagtgagggttaa tttcgagcttggcgtaatcatggtcatagctgtttcctg >CEESC13R gcacgagggagctcaaggtattccaggagcaccaggagagcgtggaccac gtggagacaagggagataatggagagaacggttctgctggagcaccagga gaggagggagagccaggaactgatgccgaatattgtccatgtcctcaaag acaggaaagtgcaccagtcaatggaaaccagggatacaagaacagacgtc attagatgcgattatttatttttcttctcttaaatatttatataaatttt tcaagcaag needletail-0.6.3/tests/specimen/FASTA/bug2901.fasta000064400000000000000000000003571046102023000176610ustar 00000000000000>seq1 GGTACCAGCAGGTGGGCCGCCTACTGCGCACGCGCGGGTTTGCGGGCAGCCGC >seq2 GGTACCAGCTGGTGGGCCGCCTACTGCGCACGCGCGGGTTTGCGGGCAGCCGC >seq3 GGTACCAGCAGGTGGTCCGCCTA------------------------------ >seq4 --------------------------CGCACGCGCGTGTTTGCGGGCAGCCGCneedletail-0.6.3/tests/specimen/FASTA/centaurea.fasta000064400000000000000000000021351046102023000205330ustar 00000000000000>gi|4104054|gb|AH007193.1|SEG_CVIGS Centaurea vallesiaca 18S ribosomal RNA gene, partial sequence CCTGTCACTTAACTTTTTGTTCATAAGGTATATATGGGGGGGTGTGTGTCTTCGGACACACTTTCGATTG GGCCATGGTGCCCCCCTGCCAGGCAAAGGGATGCCTGGGCATGGCCACCCGGGAAAATGCGCTTCACTTC TTGCATGCCAGTCGTTTTTAAAAACGGCTGCGGCTCGTGTATCGTATTTTCCCCGGGATCGGTGACGCTT AGATGACGACGGCCCTTGACGGATATAGATGAAGGAATTGACGGATATGCAGATCGGTTGCCTATTGACC CTTGTCGNTACTATGTAGGCTACATCCCGGTCATGGTGGGTTCGATTGTGGGTTTGTTACTTTCGCATCG TTCGGTGCATTTTGGGGGCTGTTTTGGCTTTTCGTTGCTTGCTTGACCTTTTTTGGTTGGGTGGGTGGCT TCTAGTTGGGCGGCTTTCGGGAATGTCGACCGGGGAGGTGCATGAGTGGTGATTGGTATGTTACGTGTGG ATGGCTGTTTGCTCGCGCACCAACGTTCACGCTTCATACCTCTTCAGTTTTGCGTCAAGACTTGATTTGT CTTGAGCAATGTCGTGGGTTTCCTGTGTTGCATACCTAATTGACGGTAACGTGTGGGCTTTACGGTTATC TATTTCGTCATGTGTCGTTCATGCGGCGTGGGATGAACAATGAAACGGCCTTTGTGATCCACAGTGGTGT TGCGTTTGCAACAACGATGTGGCCTATGAAGCATCGTTTGGTCTCTTGTATACGGAACCTGATGTGGGCA TGGGTCTTCATAAGATCTTCATTATGCCCTCGTTAAGCGTTCTCGCTTCTCCAAAACGATTGCCTGCCAT GTTACGGCTTTGTTCGTTCATGGTGGGCTACGTCGAAGAGGAATGCTACCTGGTTGATCCTGCCAGTAGT CATATGCTTGTCTCAAAGATTAAGCCATGCATGTGTAAGTACGAACAAATTCAGACTGTGAAACTGCGAA TGGCTCATTAAATCAGTTAGAG needletail-0.6.3/tests/specimen/FASTA/cysprot.fasta000075500000000000000000000047241046102023000203000ustar 00000000000000>CYS1_DICDI MKVILLFVLAVFTVFVSSRGIPPEEQSQFLEFQDKFNKKYSHEEYLERFEIFKSNLGKIEELNLIAINHK ADTKFGVNKFADLSSDEFKNYYLNNKEAIFTDDLPVADYLDDEFINSIPTAFDWRTRGAVTPVKNQGQCG SCWSFSTTGNVEGQHFISQNKLVSLSEQNLVDCDHECMEYEGEEACDEGCNGGLQPNAYNYIIKNGGIQT ESSYPYTAETGTQCNFNSANIGAKISNFTMIPKNETVMAGYIVSTGPLAIAADAVEWQFYIGGVFDIPCN PNSLDHGILIVGYSAKNTIFRKNMPYWIVKNSWGADWGEQGYIYLRRGKNTCGVSNFVSTSII >ALEU_HORVU MAHARVLLLALAVLATAAVAVASSSSFADSNPIRPVTDRAASTLESAVLGALGRTRHALRFARFAVRYGK SYESAAEVRRRFRIFSESLEEVRSTNRKGLPYRLGINRFSDMSWEEFQATRLGAAQTCSATLAGNHLMRD AAALPETKDWREDGIVSPVKNQAHCGSCWTFSTTGALEAAYTQATGKNISLSEQQLVDCAGGFNNFGCNG GLPSQAFEYIKYNGGIDTEESYPYKGVNGVCHYKAENAAVQVLDSVNITLNAEDELKNAVGLVRPVSVAF QVIDGFRQYKSGVYTSDHCGTTPDDVNHAVLAVGYGVENGVPYWLIKNSWGADWGDNGYFKMEMGKNMCA IATCASYPVVAA >CATH_HUMAN MWATLPLLCAGAWLLGVPVCGAAELSVNSLEKFHFKSWMSKHRKTYSTEEYHHRLQTFASNWRKINAHNN GNHTFKMALNQFSDMSFAEIKHKYLWSEPQNCSATKSNYLRGTGPYPPSVDWRKKGNFVSPVKNQGACGS CWTFSTTGALESAIAIATGKMLSLAEQQLVDCAQDFNNYGCQGGLPSQAFEYILYNKGIMGEDTYPYQGK DGYCKFQPGKAIGFVKDVANITIYDEEAMVEAVALYNPVSFAFEVTQDFMMYRTGIYSSTSCHKTPDKVN HAVLAVGYGEKNGIPYWIVKNSWGPQWGMNGYFLIERGKNMCGLAACASYPIPLV >CATH_RAT MWTALPLLCAGAWLLSAGATAELTVNAIEKFHFTSWMKQHQKTYSSREYSHRLQVFANNWRKIQAHNQRN HTFKMGLNQFSDMSFAEIKHKYLWSEPQNCSATKSNYLRGTGPYPSSMDWRKKGNVVSPVKNQGACGSCW TFSTTGALESAVAIASGKMMTLAEQQLVDCAQNFNNHGCQGGLPSQAFEYILYNKGIMGEDSYPYIGKNG QCKFNPEKAVAFVKNVVNITLNDEAAMVEAVALYNPVSFAFEVTEDFMMYKSGVYSSNSCHKTPDKVNHA VLAVGYGEQNGLLYWIVKNSWGSNWGNNGYFLIERGKNMCGLAACASYPIPQV >CATL_HUMAN MNPTLILAAFCLGIASATLTFDHSLEAQWTKWKAMHNRLYGMNEEGWRRAVWEKNMKMIELHNQEYREGK HSFTMAMNAFGDMTSEEFRQVMNGFQNRKPRKGKVFQEPLFYEAPRSVDWREKGYVTPVKNQGQCGSCWA FSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEES CKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLV VGYGFESTESDNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV >CATL_RAT MTPLLLLAVLCLGTALATPKFDQTFNAQWHQWKSTHRRLYGTNEEEWRRAVWEKNMRMIQLHNGEYSNGK HGFTMEMNAFGDMTNEEFRQIVNGYRHQKHKKGRLFQEPLMLQIPKTVDWREKGCVTPVKNQGQCGSCWA FSASGCLEGQMFLKTGKLISLSEQNLVDCSHDQGNQGCNGGLMDFAFQYIKENGGLDSEESYPYEAKDGS CKYRAEYAVANDTGFVDIPQQEKALMKAVATVGPISVAMDASHPSLQFYSSGIYYEPNCSSKDLDHGVLV VGYGYEGTDSNKDKYWLVKNSWGKEWGMDGYIKIAKDRNNHCGLATAASYPIVN >PAPA_CARPA MAMIPSISKLLFVAICLFVYMGLSFGDFSIVGYSQNDLTSTERLIQLFESWMLKHNKIYKNIDEKIYRFE IFKDNLKYIDETNKKNNSYWLGLNVFADMSNDEFKEKYTGSIAGNYTTTELSYEEVLNDGDVNIPEYVDW RQKGAVTPVKNQGSCGSCWAFSAVVTIEGIIKIRTGNLNEYSEQELLDCDRRSYGCNGGYPWSALQLVAQ YGIHYRNTYPYEGVQRYCRSREKGPYAAKTDGVRQVQPYNEGALLYSIANQPVSVVLEAAGKDFQLYRGG IFVGPCGNKVDHAVAAVGYGPNYILIKNSWGTGWGENGYIRIKRGTGNSYGVCGLYTSSFYPVKN needletail-0.6.3/tests/specimen/FASTA/cysprot1.fasta000064400000000000000000000005501046102023000203470ustar 00000000000000>CYS1_DICDI MKVILLFVLAVFTVFVSSRGIPPEEQSQFLEFQDKFNKKYSHEEYLERFEIFKSNLGKIEELNLIAINHK ADTKFGVNKFADLSSDEFKNYYLNNKEAIFTDDLPVADYLDDEFINSIPTAFDWRTRGAVTPVKNQGQCG SCWSFSTTGNVEGQHFISQNKLVSLSEQNLVDCDHECMEYEGEEACDEGCNGGLQPNAYNYIIKNGGIQT ESSYPYTAETGTQCNFNSANIGAKISNFTMIPKNETVMAGYIVSTGPLAIAADAVEWQFYIGGVFDIPCN PNSLDHGILIVGYSAKNTIFRKNMPYWIVKNSWGADWGEQGYIYLRRGKNTCGVSNFVSTSII needletail-0.6.3/tests/specimen/FASTA/cysprot1a.fasta000064400000000000000000000021111046102023000205030ustar 00000000000000>CYS1_DICDI MKVILLFVLAVFTVFVSSRGIPPEEQSQFLEFQDKFNKKYSHEEYLERFEIFKSNLGKIEELNLIAINHK ADTKFGVNKFADLSSDEFKNYYLNNKEAIFTDDLPVADYLDDEFINSIPTAFDWRTRGAVTPVKNQGQCG SCWSFSTTGNVEGQHFISQNKLVSLSEQNLVDCDHECMEYEGEEACDEGCNGGLQPNAYNYIIKNGGIQT ESSYPYTAETGTQCNFNSANIGAKISNFTMIPKNETVMAGYIVSTGPLAIAADAVEWQFYIGGVFDIPCN PNSLDHGILIVGYSAKNTIFRKNMPYWIVKNSWGADWGEQGYIYLRRGKNTCGVSNFVSTSII >ALEU_HORVU MAHARVLLLALAVLATAAVAVASSSSFADSNPIRPVTDRAASTLESAVLGALGRTRHALRFARFAVRYGK SYESAAEVRRRFRIFSESLEEVRSTNRKGLPYRLGINRFSDMSWEEFQATRLGAAQTCSATLAGNHLMRD AAALPETKDWREDGIVSPVKNQAHCGSCWTFSTTGALEAAYTQATGKNISLSEQQLVDCAGGFNNFGCNG GLPSQAFEYIKYNGGIDTEESYPYKGVNGVCHYKAENAAVQVLDSVNITLNAEDELKNAVGLVRPVSVAF QVIDGFRQYKSGVYTSDHCGTTPDDVNHAVLAVGYGVENGVPYWLIKNSWGADWGDNGYFKMEMGKNMCA IATCASYPVVAA >CATH_HUMAN MWATLPLLCAGAWLLGVPVCGAAELSVNSLEKFHFKSWMSKHRKTYSTEEYHHRLQTFASNWRKINAHNN GNHTFKMALNQFSDMSFAEIKHKYLWSEPQNCSATKSNYLRGTGPYPPSVDWRKKGNFVSPVKNQGACGS CWTFSTTGALESAIAIATGKMLSLAEQQLVDCAQDFNNYGCQGGLPSQAFEYILYNKGIMGEDTYPYQGK DGYCKFQPGKAIGFVKDVANITIYDEEAMVEAVALYNPVSFAFEVTQDFMMYRTGIYSSTSCHKTPDKVN HAVLAVGYGEKNGIPYWIVKNSWGPQWGMNGYFLIERGKNMCGLAACASYPIPLV needletail-0.6.3/tests/specimen/FASTA/cysprot1b.fasta000064400000000000000000000026121046102023000205120ustar 00000000000000>CATH_RAT MWTALPLLCAGAWLLSAGATAELTVNAIEKFHFTSWMKQHQKTYSSREYSHRLQVFANNWRKIQAHNQRN HTFKMGLNQFSDMSFAEIKHKYLWSEPQNCSATKSNYLRGTGPYPSSMDWRKKGNVVSPVKNQGACGSCW TFSTTGALESAVAIASGKMMTLAEQQLVDCAQNFNNHGCQGGLPSQAFEYILYNKGIMGEDSYPYIGKNG QCKFNPEKAVAFVKNVVNITLNDEAAMVEAVALYNPVSFAFEVTEDFMMYKSGVYSSNSCHKTPDKVNHA VLAVGYGEQNGLLYWIVKNSWGSNWGNNGYFLIERGKNMCGLAACASYPIPQV >CATL_HUMAN MNPTLILAAFCLGIASATLTFDHSLEAQWTKWKAMHNRLYGMNEEGWRRAVWEKNMKMIELHNQEYREGK HSFTMAMNAFGDMTSEEFRQVMNGFQNRKPRKGKVFQEPLFYEAPRSVDWREKGYVTPVKNQGQCGSCWA FSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEES CKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLV VGYGFESTESDNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV >CATL_RAT MTPLLLLAVLCLGTALATPKFDQTFNAQWHQWKSTHRRLYGTNEEEWRRAVWEKNMRMIQLHNGEYSNGK HGFTMEMNAFGDMTNEEFRQIVNGYRHQKHKKGRLFQEPLMLQIPKTVDWREKGCVTPVKNQGQCGSCWA FSASGCLEGQMFLKTGKLISLSEQNLVDCSHDQGNQGCNGGLMDFAFQYIKENGGLDSEESYPYEAKDGS CKYRAEYAVANDTGFVDIPQQEKALMKAVATVGPISVAMDASHPSLQFYSSGIYYEPNCSSKDLDHGVLV VGYGYEGTDSNKDKYWLVKNSWGKEWGMDGYIKIAKDRNNHCGLATAASYPIVN >PAPA_CARPA MAMIPSISKLLFVAICLFVYMGLSFGDFSIVGYSQNDLTSTERLIQLFESWMLKHNKIYKNIDEKIYRFE IFKDNLKYIDETNKKNNSYWLGLNVFADMSNDEFKEKYTGSIAGNYTTTELSYEEVLNDGDVNIPEYVDW RQKGAVTPVKNQGSCGSCWAFSAVVTIEGIIKIRTGNLNEYSEQELLDCDRRSYGCNGGYPWSALQLVAQ YGIHYRNTYPYEGVQRYCRSREKGPYAAKTDGVRQVQPYNEGALLYSIANQPVSVVLEAAGKDFQLYRGG IFVGPCGNKVDHAVAAVGYGPNYILIKNSWGTGWGENGYIRIKRGTGNSYGVCGLYTSSFYPVKN needletail-0.6.3/tests/specimen/FASTA/dna1.fasta000064400000000000000000000003341046102023000174060ustar 00000000000000>Test1 AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC TTCTGAACTGGTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAA TATAGGCATAGCGCACAGACAGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACC needletail-0.6.3/tests/specimen/FASTA/dna2.fasta000064400000000000000000000011051046102023000174040ustar 00000000000000>Test1 AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC TTCTGAACTGGTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAA TATAGGCATAGCGCACAGACAGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACC ATTACCACCACCATCACCATTACCACAGGTAACGGTGCGGGCTGACGCGTACAGGAAACACAGAAAAAAG >Test2 CCCGCACCTGACAGTGCGGGCTTTTTTTTTCGACCAAAGGTAACGAGGTAACAACCATGCGAGTGTTGAA GTTCGGCGGTACATCAGTGGCAAATGCAGAACGTTTTCTGCGTGTTGCCGATATTCTGGAAAGCAATGCC AGGCAGGGGCAGGTGGCCACCGTCCTCTCTGCCCCCGCCAAAATCACCAACCACCTGGTGGCGATGATTG AAAAAACCATTAGCGGCCAGGATGCTTTACCCAATATCAGCGATGCCGAACGTATTTTTGCCGAACTTTTneedletail-0.6.3/tests/specimen/FASTA/dnaE-bsub-prot.fasta000064400000000000000000000012121046102023000213410ustar 00000000000000>gi|142865|gb|AAA22406.1| DNA primase MGNRIPDEIVDQVQKSADIVEVIGDYVQLKKQGRNYFGLCPFHGESTPSFSVSPDKQIFHCFGCGAGGNV FSFLRQMEGYSFAESVSHLADKYQIDFPDDITVHSGARPESSGEQKMAEAHELLKKFYHHLLINTKEGQE ALDYLLSRGFTKELINEFQIGYALDSWDFITKFLVKRGFSEAQMEKAGLLIRREDGSGYFDRFRNRVMFP IHDHHGAVVAFSGRALGSQQPKYMNSPETPLFHKSKLLYNFYKARLHIRKQERAVLFEGFADVYTAVSSD VKESIATMGTSLTDDHVKILRRNVEEIILCYDSDKAGYEATLKASELLQKKGCKVRVAMIPDGLDPDDYI KKFGGEKFKNDIIDASVTVMAFKMQYFRKGKNLSDEGDRLAYIKDVLKEISTLSGSLEQEVYVKQLASEF SLSQESLTEQLSVFSKQNKPADNSGETKTRRAHLTTKARQKRLRPAYENAERLLLAHMLRDRSVIKKVID RVGFQFNIDEHRALAAYLYAFYEEGAELTPQHLMARVTDDHISQLLSDILMLQVNQELSEAELSDYVKKV LNQRNWSMIKEKEAERAEAERQKDFLRAASLAQEIVTLNRSLK needletail-0.6.3/tests/specimen/FASTA/dnaE-bsub.fasta000064400000000000000000000041051046102023000203630ustar 00000000000000>gi|142864|gb|M10040.1|BACDNAE B.subtilis dnaE gene encoding DNA primase, complete cds GTACGACGGAGTGTTATAAGATGGGAAATCGGATACCAGATGAAATTGTGGATCAGGTGCAAAAGTCGGC AGATATCGTTGAAGTCATAGGTGATTATGTTCAATTAAAGAAGCAAGGCCGAAACTACTTTGGACTCTGT CCTTTTCATGGAGAAAGCACACCTTCGTTTTCCGTATCGCCCGACAAACAGATTTTTCATTGCTTTGGCT GCGGAGCGGGCGGCAATGTTTTCTCTTTTTTAAGGCAGATGGAAGGCTATTCTTTTGCCGAGTCGGTTTC TCACCTTGCTGACAAATACCAAATTGATTTTCCAGATGATATAACAGTCCATTCCGGAGCCCGGCCAGAG TCTTCTGGAGAACAAAAAATGGCTGAGGCACATGAGCTCCTGAAGAAATTTTACCATCATTTGTTAATAA ATACAAAAGAAGGTCAAGAGGCACTGGATTATCTGCTTTCTAGGGGCTTTACGAAAGAGCTGATTAATGA ATTTCAGATTGGCTATGCTCTTGATTCTTGGGACTTTATCACGAAATTCCTTGTAAAGAGGGGATTTAGT GAGGCGCAAATGGAAAAAGCGGGTCTCCTGATCAGACGCGAAGACGGAAGCGGATATTTCGACCGCTTCA GAAACCGTGTCATGTTTCCGATCCATGATCATCACGGGGCTGTTGTTGCTTTCTCAGGCAGGGCTCTTGG CAGCCAGCAGCCTAAGTATATGAACAGTCCTGAAACCCCGCTCTTTCATAAAAGCAAACTGCTTTACAAT TTTTATAAGGCCCGCCTTCATATCAGAAAGCAGGAAAGAGCAGTCTTATTTGAAGGGTTTGCTGATGTCT ATACGGCCGTAAGCTCGGATGTAAAGGAAAGCATAGCCACGATGGGAACGTCTCTTACAGATGATCATGT CAAGATCCTGAGAAGAAACGTCGAAGAAATCATTCTTTGCTATGACTCTGATAAAGCCGGTTATGAAGCC ACCTTAAAAGCTTCGGAGCTTCTGCAAAAAAAAGGCTGCAAAGTCAGAGTTGCAATGATTCCTGACGGAT TGGACCCTGATGATTACATCAAAAAATTCGGCGGGGAAAAATTTAAAAACGACATTATTGACGCAAGTGT CACCGTAATGGCGTTCAAAATGCAATATTTCCGAAAAGGAAAGAACCTGTCCGATGAAGGCGACCGCCTA GCTTACATTAAAGACGTACTGAAAGAAATCAGCACGCTTTCAGGGTCTCTAGAGCAGGAAGTCTATGTAA AGCAGCTTGCTTCAGAGTTTTCGCTTTCACAGGAGTCTTTAACTGAGCAGCTGTCTGTTTTCAGCAAGCA AAACAAACCTGCTGACAATAGCGGTGAAACTAAAACGCGGCGAGCGCATCTGACGACAAAAGCAAGGCAA AAACGTTTGCGTCCGGCGTATGAAAATGCAGAAAGGCTGTTACTCGCTCACATGCTTCGAGATCGGAGCG TCATCAAAAAAGTGATTGACCGGGTAGGGTTTCAATTTAATATTGATGAGCACCGGGCATTAGCCGCTTA TCTTTATGCTTTTTATGAAGAGGGAGCCGAGCTGACGCCTCAGCATCTGATGGCCAGGGTGACGGATGAT CATATAAGCCAGCTCTTGTCCGATATATTAATGCTTCAGGTTAATCAAGAGCTTAGCGAAGCCGAGTTAT CAGATTATGTAAAAAAAGTGTTGAATCAAAGAAATTGGTCAATGATAAAAGAAAAAGAGGCGGAAAGAGC CGAAGCAGAAAGGCAAAAAGATTTTTTAAGAGCTGCTTCTTTGGCTCAAGAAATCGTTACATTGAACCGA TCTTTAAAATAACTGGAGAACTGATGAGGAGCATTTATTGGCAATGATTCCTTGCGGAGGAGCAAATAGA TCGCTTAACCTCATCATGAATTGTCATTTCATTATTCGCACATTGTTAAAGGCAGTTCACATAGAAAACG CCTGAATGGACCGAATAAGAATCATACCGCTTATAGAATTC needletail-0.6.3/tests/specimen/FASTA/ecolitst.fasta000064400000000000000000000016441046102023000204160ustar 00000000000000>gi|1786183|gb|AAC73113.1| (AE000111) aspartokinase I, homoserine dehydrogenase I [Escherichia coli] MRVLKFGGTSVANAERFLRVADILESNARQGQVATVLSAPAKITNHLVAMIEKTISGQDALPNISDAERIFAELLTGLAA AQPGFPLAQLKTFVDQEFAQIKHVLHGISLLGQCPDSINAALICRGEKMSIAIMAGVLEARGHNVTVIDPVEKLLAVGHY LESTVDIAESTRRIAASRIPADHMVLMAGFTAGNEKGELVVLGRNGSDYSAAVLAACLRADCCEIWTDVDGVYTCDPRQV PDARLLKSMSYQEAMELSYFGAKVLHPRTITPIAQFQIPCLIKNTGNPQAPGTLIGASRDEDELPVKGISNLNNMAMFSV SGPGMKGMVGMAARVFAAMSRARISVVLITQSSSEYSISFCVPQSDCVRAERAMQEEFYLELKEGLLEPLAVTERLAIIS VVGDGMRTLRGISAKFFAALARANINIVAIAQGSSERSISVVVNNDDATTGVRVTHQMLFNTDQVIEVFVIGVGGVGGAL LEQLKRQQSWLKNKHIDLRVCGVANSKALLTNVHGLNLENWQEELAQAKEPFNLGRLIRLVKEYHLLNPVIVDCTSSQAV ADQYADFLREGFHVVTPNKKANTSSMDYYHQLRYAAEKSRRKFLYDTNVGAGLPVIENLQNLLNAGDELMKFSGILSGSL SYIFGKLDEGMSFSEATTLAREMGYTEPDPRDDLSGMDVARKLLILARETGRELELADIEIEPVLPAEFNAEGDVAAFMA NLSQLDDLFAARVAKARDEGKVLRYVGNIDEDGVCRVKIAEVDGNDPLFKVKNGENALAFYSHYYQPLPLVLRGYGAGND VTAAGVFADLLRTLSWKLGV needletail-0.6.3/tests/specimen/FASTA/elderberry.fasta000064400000000000000000000041751046102023000207310ustar 00000000000000>gi|4218935|gb|AF074388.1|AF074388 Sambucus nigra hevein-like protein HLPf gene, partial cds ATGAAGTTAAGCACTCTTCTCATCTTATCTTTTCCTTTCCTGCTCGGTACTATTGTCTTTGCAGATGATG CAGATAATGGCCCCTGGCAGTGTGGAAGGGATGCAGGTGGTGCCTTGTGTCATGATAATCTTTGTTGTAG CTTTTGGGGCTTTTGTGGTAGCACATATCAGTACTGTGAAGATGGTTGCCAGAGTCAATGTAGGGATACC TCACGTTTGACTGATCTTCCTCGTGCTCTACTCCGACCTACCAATAATCGTAATGCTATAAGCAAGATGA TAAGTAAATCACTCTTTAATGAAATGTTTAAGCACATGAAAGATTGTCCCAGTCGAGGATTCTACAGTTA CGAGGCTTTCATAACTGCTGCTCGATCTTTTCCTGGTTTTTGTACTAGTGGTGATGTCGCCACTCGTAAA CGAGAGCCCGCGGCTTTCCTTAGCCAAACCTCTCAAGCAACCACTGGTTAGTCGTCCAATTTAAATATTT ATCTATGTTAAGAAATTATTTCCACCATTTATATTTGTTTTGAAATCAATTTACGTACTTGGATGCTTGG TGTAGGAGGAAGGCTTGATTCGGCAGTGGTAGATCCACATGCATGGGGATATTGTTACGTTAATGGAACC ACCGATGAGCAATACTGCACATCGTCTAATTGGCCATGCGCTTCAGGCAAACAATATAATAGACGAGGAC CAATTCAACTCACTCAGTACGTAACTCATTCATCCAAATTTTTGTAAAGAAATTATTATTAGGCAAAAAT TCTATTTGTAATTAAAATAGTTACTAGATCTCTCTTTATGAGAAGGAACATTTTAATTAGCATAACTATT AATTTTTCAACTTAACGTACAGTTACGATGTGATTTAGTGCAGTAACATTTCACGTGAAAACTACATTTT TTTTGTTATGAGTGGTACTATGGGTACCAAACAAATCCTTAAGAACACTATATAAGATAATTCATGGATG CGTGCCTAAAAATAAATTTTCTTTAGCTGATTTTTTATATAAATTTTAAACATTTCAATAAAATTCCAAA AAAAGAAATTCAACTCAACATAATTTTTTTTACTATTTTAAACAAATCAATCCAACTATGTGAACTTAAA ATCACTTAAATTGACATATATCATCTAATTTGTTAAAATAGGAAACAAATTTATTTTGAACTGATTTTTT TTTTTGTGGATCCCTGAATTGTTTAAACATCATTTTAAAAAATCAACTCAAAAAACTATTTTTTAAACAT TTAGTCCCTCAAATATTTTTTAATAATATTTAGTCCAGGCCTTTTTTTTGTTCCGAAAACACCCATTTAA TCAATATTTTCTTATTTTTAAAAGTCTGAGCTAGCGGCGCAAACGCACCACCTACCCCACCCCTACCCCA ACCCTCAATGTCGGAGCTCCGGCGACCCTCATTGGAGATCCTTGTTTTGAGTGTTTTTATATGGCGAGGG ACTTTTTGAAACAAAATAAAAAGGTTTGAAATAAACGTGCATTAAAAAATGTTTGAGGGGTAATTTGCTA TATGCCCCTTAATATAAATTTACAAATAAACATAAATCAATCGTTTTTTATTACTACCAATAAATAATGC TTCTAATTTGGAGTAGGATTTTCATGTAATAATTTTGACGATAACTCTAATTCTCAGCAACTACAACTAC GGGCTTGCTGGTGAAGCTCTTGGAATAGATTTGGTAAACCATCCTGATTTAGTAGCGACAGATCCCATTG TATCATTCAAGACAGCTATATGGTTTTGGATGACTCAGCATGACAATAATCCTTCTTTGCACGATATTCT TATCAATGCGAACTCTGAAGCTAGTGATCAAGTCCCAAGCTACGGTGTGATTAGTAAAATAATTAATAGT AATTTTGGACACCAAAGTGGCCTTGATACTATTACTACAAGCATTGGGTACTACAAGAGGTATTGTGACA TGCTAGAAGTGAGCTATGGAGATAACCTCGAAAATTGGTTTGATGAAACACCTTTCACCAAAGTTGCTCA CATCAAAATGTCTGTCGTTT needletail-0.6.3/tests/specimen/FASTA/example1.txt000064400000000000000000000112411046102023000200170ustar 00000000000000>At1g02580 mRNA (2291 bp) UTR's and CDS aggcgagtggttaatggagaaggaaaaccatgaggacgatggtgagggtttgccacccgaactaaatcagataaaa gagcaaatcgaaaaggagagatttctgcatatcaagagaaaattcgagctgagatacattccaagtgtggctactc atgcttcacaccatcaatcgtttgacttaaaccagcccgctgcagaggatgataatggaggagacaacaaatcact tttgtcgagaatgcaaaacccacttcgtcatttcagtgcctcatctgattataattcttacgaagatcaaggttat gttcttgatgaggatcaagattatgctcttgaagaagatgtaccattatttcttgatgaagatgtaccattattac caagtgtcaagcttccaattgttgagaagctaccacgatccattacatgggtcttcaccaaaagtagccagctgat ggctgaaagtgattctgtgattggtaagagacaaatctattatttgaatggtgaggcactagaattgagcagtgaa gaagatgaggaagatgaagaagaagatgaggaagaaatcaagaaagaaaaatgcgaattttctgaagatgtagacc gatttatatggacggttgggcaggactatggtttggatgatctggtcgtgcggcgtgctctcgccaagtacctcga agtggatgtttcggacatattggaaagatacaatgaactcaagcttaagaatgatggaactgctggtgaggcttct gatttgacatccaagacaataactactgctttccaggattttgctgatagacgtcattgccgtcgttgcatgatat tcgattgtcatatgcatgagaagtatgagcccgagtctagatccagcgaagacaaatctagtttgtttgaggatga agatagacaaccatgcagtgagcattgttacctcaaggtgaggagtgtgacagaagctgatcatgtgatggataat gataactctatatcaaacaagattgtggtctcagatccaaacaacactatgtggacgcctgtagagaaggatcttt acttgaaaggaattgagatatttgggagaaacagttgtgatgttgcattaaacatacttcgggggcttaagacgtg cctagagatttacaattacatgcgcgaacaagatcaatgtactatgtcattagaccttaacaaaactacacaaaga cacaatcaggttaccaaaaaagtatctcgaaaaagtagtaggtcggtccgcaaaaaatcgagactccgaaaatatg ctcgttatccgcctgctttaaagaaaacaactagtggagaagctaagttttataagcactacacaccatgcacttg caagtcaaaatgtggacagcaatgcccttgtttaactcacgaaaattgctgcgagaaatattgcgggtgctcaaag gattgcaacaatcgctttggaggatgtaattgtgcaattggccaatgcacaaatcgacaatgtccttgttttgctg ctaatcgtgaatgcgatcca gatctttgtcggagttgtcctcttagctgtggagatggcactcttggtgagacacc agtgcaaatccaatgcaagaacatgcaattcctccttcaaaccaataaaaagattctcattggaaagtctgatgtt catggatggggtgcatttacatgggactctct taaaaagaatgagtatctcggagaatatactggagaactgatca ctcatgatgaagctaatgagcgtgggagaatagaagatcggattggttcttcctacctctttaccttgaatgatca gctcgaaatcgatgctcgccgtaaaggaaacgagttcaaatttctcaatcactcagcaagacctaactgctacgcc aagttgatgattgtgagaggagatcagaggattggtctatttgcggagagagcaatcgaagaaggtgaggagcttt tcttcgactactgctatggaccagaacatgcggattggtcgcgtggtcgagaacctagaaagactggtgcttctaa aaggtctaaggaagcccgtccagctcgttagtttttgatctgaggagaagcagcaattcaagcagtccttttttta tgttatggtatatcaattaataatgtaatgctattttgtgttactaaaccaaaacttaagtttctgttttatttgt tttagggtgttttgtttgtatcatatgtgtcttaactttcaaagttttctttttgtatttcaatttaaaaacaatg tttatgttgtt >At1g65300: mRNA 837bp atgaagagaaagatgaagttatcgttaatagaaaacagtgtatcgaggaaaacaacattcaccaaaaggaagaaag ggatgacgaagaaactaaccgagctagtcactctatgtggtgttgaagcatgtgcggtcgtctatagtccgttcaa ctcgatcccggaggcttggccgtcaagggaaggcgttgaagacgtggtgtcgaaatttatggagttgtcggtgttg gaccggaccaagaagatggtggatcaagagacttttataagtcaaaggatcgccaaagaaaaagagcagctgcaga agctacgtgatgagaaccataattctcagattcgggagttaatgtttggttgtctcaaaggggagacgaatgtgta taatcttgatggaagggatcttcaagatttgagtttatatattgataagtatcttaatggtcttactcgcaggatt ga gatcctTAttgagaacggtgagtcttcttcatctttacctcttcctattgttgcgaatgcagctgcaccagtcg gatttgatggtcctatgtttcaatatcataatcaaaatcagcaaaagccggttcaattccaatatcaggctcttta tgatttttatgatcagattccaaagaaaattcatggttt taatatgaatatgaataaggattcgaatcaaagtatg gttttggatttgaatcaaaatcttaatgatggagaggacgagggcattccttgcatggacaacaacaactaccacc ccgaaatcgattgtctcgctaccgtcaccactgcccccactgatgtttgtgctcctaacatcaccaatgatctcta g >At1g65300: mRNA 837bp (shortened at end) atgaagagaaagatgaagttatcgttaatagaaaacagtgtatcgaggaaaacaacattcaccaaaaggaagaaag ggatgacgaagaaactaaccgagctagtcactctatgtggtgttgaagcatgtgcggtcgtctatagtccgttcaa ctcgatcccggaggcttggccgtcaagggaaggcgttgaagacgtggtgtcgaaatttatggagttgtcggtgttg gaccggaccaagaagatggtggatcaagagacttttataagtcaaaggatcgccaaagaaaaagagcagctgcaga agctacgtgatgagaaccataattctcagattcgggagttaatgtttggttgtctcaaaggggagacgaatgtgta taatcttgatggaagggatcttcaagatttgagtttatatattgataagtatcttaatggtcttactcgcaggatt gagatcctTAttgagaacggtgagtcttcttcatctttacctcttcctattgttgcgaatgcagctgcaccagtcg gatttgatggtcctatgtttcaatatcataatcaaaatcagcaaaagccggttcaattccaatatcaggctcttta tgatttttatgatcag >At1g65300: mRNA 837bp (shortened from start) ttcatctttacctcttcctattgttgcgaatgcagctgcaccagtcg gatttgatggtcctatgtttcaatatcataatcaaaatcagcaaaagccggttcaattccaatatcaggctcttta tgatttttatgatcagattccaaagaaaattcatggttttaatatgaatatgaataaggattcgaatcaaagtatg gttttggatttgaatcaaaatcttaatgatggagaggacgagggcattccttgcatggacaacaacaactaccacc ccgaaatcgattgtctcgctaccgtcaccactgcccccactgatgtttgtgctcctaacatcaccaatgatctcta g >At1g02580 - shortened for test - inserted cutpoint gattgcaacaatcgctttggaggatgtaattgtgcaattggccaatgcacaaatcgacaatgtccttgttttgctg ctaatcgtgaatgcgatcca gatctttgtcggagttgtcctcttagctgtggagatggcactcttggtgagacacc agtgcaaatccaatgcaagaacatgcaataataaaaagattctcattggaaagtctgatgttcatggattcatggt tttaattggggtgcatttacatgggactctct taaaaagaatgagtatctcggagaatatactggagaactgatca ctcatgatgaagctaatgagcgtgggagaatagaagatcggattggttcttcctacctctttaccttgaatgatca needletail-0.6.3/tests/specimen/FASTA/example2.txt000064400000000000000000000025471046102023000200310ustar 00000000000000>At1g11545.1 68414.m01326 xyloglucan:xyloglucosyl transferase, putative / xyloglucan endotransglycosylase, putative / endo-xyloglucan transferase, putative similar to endo-xyloglucan transferase GI:2244732 from [Gossypium hirsutum] actcacggaacaagtgtagattgcattacctctctctctctctctcttcgaaatattcga agtagagacaaccaATGGAGACGGAAAGGAGGATCATAACGAGCTGTTCTGCCATGACGG CTCTGTTCTTGTTCATGACGGCTCTAATGGCGTCGTCCTCTATCGCAGCAACACCGACAC AATCGTTTGAAGATAATTTCAACATTATGTGGTCTGAAAATCACTTCACGACTTCCGATG ATGGAGAGATCTGGAATCTTTCCTTAGATAACGACACCGGATGTGGATTTCAGACAAAGC ACATGTATAGATTCGGATGGTTTAGTATGAAGCTAAAGCTCGTCGGAGGCGACTCCGCCG GCGTCGTCACCGCTTACTACATGTGTTCGGAGAATGGGGCAGGACCGGAGAGAGACGAGA TAGATTTCGAATTTCTAGGGAACCGAACCGGACAGCCTTACATTATTCAGACCAATGTGT ATAAGAACGGAACCGGGAATCGGGAGATGCGACATTCCCTCTGGTTCGACCCGACCAAGG ATTATCACACCTACTCAATTCTTTGGAATAACCACCAGCTTGTGTTCTTCGTGGATAGGG TACCAATTCGAGTATACAAGAACAGTGATAAGGTACCAAACAACGACTTCTTCCCGAACC AGAAGCCGATGTACTTGTTCTCCAGCATTTGGAACGCTGACGATTGGGCTACACGTGGTG GTCTGGAGAAGACTGACTGGAAAAAAGCTCCATTCGTCTCTTCTTACAAGGACTTCGCCG TCGAAGGCTGCCGTTGGAAGGATCCATTCCCTGCATGCGTCTCTACCACAACAGAGAATT GGTGGGATCAGTACGACGCGTGGCATTTGTCCAAGACACAGAAGATGGATTATGCGTGGG TGCAGCGTAATCTCGTCGTATACGATTATTGCAAAGACAGTGAGAGGTTCCCTACTCTTC CTTGGGAGTGTTCCATTAGCCCTTGGGCTTAAaatcaattttgttttgagtgtattaaag tggaaatggtttatgtaataattttactctcttttttttggcatttcttattttgttatg gactatatcctctgtttatttatttaattaattatttatttagtcggctat needletail-0.6.3/tests/specimen/FASTA/f001.fasta000064400000000000000000000002631046102023000172320ustar 00000000000000>gi|3318709|pdb|1A91| Subunit C Of The F1fo Atp Synthase Of Escherichia Coli; Nmr, 10 Structures MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGL GLYVMFAVA needletail-0.6.3/tests/specimen/FASTA/f002.fasta000064400000000000000000000033161046102023000172350ustar 00000000000000>gi|1348912|gb|G26680|G26680 human STS STS_D11729.^Agi|1396336|gb|G27617|G27617 human STS SHGC-32648. CGGACCAGACGGACACAGGGAGAAGCTAGTTTCTTTCATGTGATTGANATNATGACTCTACTCCTAAAAG GGAAAAANCAATATCCTTGTTTACAGAAGAGAAACAAACAAGCCCCACTCAGCTCAGTCACAGGAGAGAN CACAGAAAGTCTTAGGATCATGANCTCTGAAAAAAAGAGAAACCTTATCTTTNCTTTGTGGTTCCTTTAA ACACACTCACACACACTTGGTCAGAGATGCTGTGCTTCTTGGAAGCAAGGNCTCAAAGGCAAGGTGCACG CAGAGGGACGTTTGAGTCTGGGATGAAGCATGTNCGTATTATTTATATGATGGAATTTCACGTTTTTATG TNAAGCNTGACAACACCAGGCAGGTATGAGAGGAAAGCAAGGCCCGTCCATNGCTGTCCGTACNCTTACG GNTTGCTTGTNGGAGNCATTTNGGTATTGTTTGTTGTAANANCCAAAANGGGCTTTGGNNTGGNAAAAGG GCAGANNGGGGGGGTTGGTGTNGTTTTTTGGGGGGANNNTTTNGATTTGGTNCCGGGNTTTNGTTTNCCN CGGNACCGGNTTTTGGTTGGGGNCCATTTNTGNGGGGCNTTGGNGTTNCNTTNCCCNNNTNNGANTGGTT TNA >gi|1348917|gb|G26685|G26685 human STS STS_D11734. CGGAGCCAGCGAGCATATGCTGCATGAGGACCTTTCTATCTTACATTATGGCTGGGAATCTTACTCTTTC ATCTGATACCTTGTTCAGATTTCAAAATAGTTGTAGCCTTATCCTGGTTTTACAGATGTGAAACTTTCAA GAGATTTACTGACTTTCCTAGAATAGTTTCTCTACTGGAAACCTGATGCTTTTATAAGCCATTGTGATTA GGATGACTGTTACAGGCTTAGCTTTGTGTGAAANCCAGTCACCTTTCTCCTAGGTAATGAGTAGTGCTGT TCATATTACTNTAAGTTCTATAGCATACTTGCNATCCTTTANCCATGCTTATCATANGTACCATTTGAGG AATTGNTTTGCCCTTTTGGGTTTNTTNTTGGTAAANNNTTCCCGGGTGGGGGNGGTNNNGAAA >gi|1592936|gb|G29385|G29385 human STS SHGC-32652 GATCAAATCTGCACTGTGTCTACATATAGGAAAGGTCCTGGTGTGTGCTAATGTTCCCAATGCAGGACTT GAGGAAGAGCTCTGTTATATGTTTCCATTTCTCTTTATCAAAGATAACCAAACCTTATGGCCCTTATAAC AATGGAGGCACTGGCTGCCTCTTAATTTTCAATCATGGACCTAAAGAAGTACTCTGAAGGGTCTCAACAA TGCCAGGTGGGGACAGATATACTCAGAGATTATCCAGGTCTGCCTCCCAGCGAGCCTGGAGTACACCAGA CCCTCCTAGAGAAATCTGTTATAATTTACCACCCACTTATCCACCTTTAAACTTGGGGAAGGNNGCNTTT CAAATTAAATTTAATCNTNGGGGGNTTTTAAACTTTAACCCTTTTNCCNTTNTNGGGGTNGGNANTTGNC CCCNTTAAAGGGGGNNCCCCTNCNNGGGGGAATAAAACAANTTNNTTTTTTneedletail-0.6.3/tests/specimen/FASTA/f003.fasta000064400000000000000000000006101046102023000172300ustar 00000000000000# This file has comments in it >gi|3318709|pdb|1A91| MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGL GLYVMFAVA # I don't really know if FASTA format is supposed to support this # but we might be able to without many problems >gi|whatever|whatever MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGG # More comments at the end of the file # Man, this file has more comments than sequence needletail-0.6.3/tests/specimen/FASTA/fa01.fasta000064400000000000000000000014511046102023000173130ustar 00000000000000>AK1H_ECOLI/1-378 CPDSINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIVAIA >AKH_HAEIN/1-382 -----------------VEDAVKATIDCRGEKLSIAMMKAWFEARGY-S--VHIVDPVKQ LLAKG-GYLESSVEIEESTKRVDAANIA--K-DKVVLMAGF---TAGNEKGELVLLGRNG SDYSAAC-----------------LAACLGASVCEIWTDVDGVYTCDP--RLVPDARLLP TLSYREAMELSYFGAKVIHPRTIGPLLPQNIPCVIKNTGNPSAPGSI-ID--GNVKSESL Q----VKGITNLDNLAMFNVSGPGMQGM---VGMASRVFSAMSGAGISVILITQSSSEYS ---ISFCVPVKSAEVAKTVLETEFA-----NELNEHQLEPIEVIKDLSIISV-VGDGMKQ AKGIAARF------FSALAQAN needletail-0.6.3/tests/specimen/FASTA/forward_primer.fasta000064400000000000000000000000341046102023000216020ustar 00000000000000>926F AAACTTAAAGGAATTGACGG needletail-0.6.3/tests/specimen/FASTA/forward_reverse_primers.fasta000064400000000000000000000000621046102023000235210ustar 00000000000000>926F AAACTYAAAKGAATTGRCGG >1392R ACGGGCGGTGTGTRC needletail-0.6.3/tests/specimen/FASTA/genomic-seq.fasta000064400000000000000000005170041046102023000210010ustar 00000000000000>HSBA536C5 LOCUS HSBA536C5 168628 bp DNA HTG 16-MAY-2000 GCTGACGCTGCTGCTGCTGCTAATGCTAGGTAAGCCAGGCCCCCGTTCCGGTTCCCGGCC CTGCCGGGCAGGTGCCTGCCATCCAGCACCCCCCTAGCATTTCGGGGCTCCTCACATCCT CCTCCGTCAGGGGTACCTCCAGCCTCCCCGGGGTCGGCGTCCAGCTGCGCTTTGTGGCTG TCCGCCGAGCCAGTCTTGGGAAGAGTGCAGGCTCCCCAGCTCTAAGCCAGGGACTGGGGC GTAGAGAGGACCCACTAAGGTGCTGCCCCAGGCACTGCTCGGCCTCCCGGGGCAGGCCAC ACATCTCAGCTAGCATACCCACGTACTGGGGTCGCTGCACCAAATGCTGCGACTCCTTTC TGCCCCACACTCAGCTCCAGGCCTGGCCTTGGGTGCCCGCCCTACGAGGGCAGTGCCTGC CCAGCTTCATAATTGCCCCAGAGTTGGCTGGAGGCCCAGAGGCCAGTTCTGCCCACGATC TTTGAAGTAAGTCTCTCCCAGTTGCGCTCCACGCACTTCATCAACTGGGGGCAGTTCCCT CTCTCACCCCCATCTCCACCCTGGGTTGGGTCCCTCTTTGCCCTTCTTCCTGTCTCCCAA ATGGCACTTGGCTCTGCAGCCACCCATCAGTTTTCACACCGCTTAGTTCCAGCTTCCTTG CCTCAGGAGAAACCAGGTTCCATGGAGACTGATCCTGGGATCTCCAAGCACCTTGTGCCT GCTGTGGTGGGTGTTCATGGTGGGGTGTTCTGGGCCAATCTTGCATGGATGCATGGGGAT AATGACAGTGGAATTGTTTTTGGCCTGAACTGGAGGGCTCCCTGTAGGAGGTGGTCTGGG GAAGAGTATGGCATGGAGACAGTGAAACTGCCAGTACAGATGTTGATGAGGCTGAAGCCC TTGAAATGAGAGTGAAGCGTGGGGGTGGGGATGGTGACTTCAGAGCTGCTGTCGTCAAGG CAGAGGCTGAAGGTAGCCCCAGCTGCCTGTTTCTAGACCAGAGCTCCACAGTGGCACCAA GCAAAGCCTTCCCCTGCTGCAGGTCCCTGGGCCCTGCAGGGTTAGGATGAGTCCTCTCCC TGGTCCCTGGGCAGGTGGCAGGAGGATGTACAGAGAGGAAGGCGCTGTGGGGCCTGGGTT GCCTAGCACTTGGTGTGTTTTCCCCAGTGGGCAGCATGGAGCAGGGAGGAGCCCAGGGAG GTGGGGAAGTGCTGGCCTGTGTTTGAAAAAGGAGCACGCAGAGGTCTGAGCACCCACTGC CTGTGGGCACTTACATTCATTTCACAAATGAGGAAAATGAAGTAACTTGCCCCAGAGAGC ACATTTAGTGAGTGTTGGGGCTAGGATTTGAACACAGATCTGATTCCAAAGCAGGCCTCT TTGCTGTCCCTTTCCTTGCTGCGACTGATACAGAGGAGGGGAGAGAGAGCTGTGTGGCAA CTGATTTCCTAAGGCTGTGGAGGTGACTTTCCCATGGGCATCTCCAAGCATCAGCAGTTG TGGAGCCAGGAAAATGGGAGGGGGCCTTCTGAGCAGTCTGCCCTGAGGCAGTCAGGGAAG GTGTCAGCTTGGCTGTCTCCACCGTCACTCTGATTATGAAACTTGCCTGGCCTGGGGCAG GGCTCTCCTGAGTCACATACGCACTCACACATGGTCAGAGCTGGAGCTCTTAGTTCTCCT CCAGTGTGGAAACTGAGGCCTAGGACAGAAAGAGACTGGATCCCAGGCCACACAGCTGGG CATGGGGATGGTGCTGGAATCCCACTTCCTGACTGGCAGCTGTGCCCTTAACAACAGACC ATGAGTTCTCCCTGTGACCCAGCCAGAGGATGAAGGAAGGGGCTAGGAGCCCAGAAGCAG GGGTGGGGAAGTTCAGAGGAGCCGTTCTAGAGAAGCTGGAGGGTAGAGTTTGACCACAGA CTCCTGGGCATTTTCCTCTAGCTCCTGCAGAAAGTCCATGGTATCCCCCTGGGAGGCCTA AAAGTGACACTCTGGTTGGTGAGGTCAGTCCCTTCAGGCCTGGCCTTGGAGTTTCCCCAT CTTCCTCTCTGGTTTTGCCCCTCTGGAGGAGTGTGTGGAAGCCATCTAGGGACAGCATGA TCTTGGCTAACATATTATACTTTTCCTGCCTTACCTTTCTCATCTGTAAAATTGGGAGAG GTGGGGAGGGGTGGCCTAGCCCTCTTTACATTGAGGTTCTGTGATCTTATCTAGTGGGAG CTATGGAAGGAAAGAAGGGAGGAGCTAAGCCCTCTAAGTCTGCCAGGAGTATCTGCTGGG GTAGGGTTGGGCATAGGGGTGGAGTAGGGTGAAGAAGAGAGGTTTGGCCTTTCTGAAGGG AGAGAGATGAGAAGGGGCAGCTGGGGATTTAGTGCCTCCCTACAGAAAGAGAGCCATATA TGTAAATGAATGCATACCATGTGCAAATGAAGGCTTTTGTTAAGGAACTGGGGCAGGCAC CTTCTGTATCTGCTGGGCTAGCCCGGAAGGTTGGCAGGCACTGGAGGAGGGGATCTTCTG CCCCCAATGGCCAGGGCAGAGCCTGGATCTTGCCCCAGAAGCCCCAGCTGCCTGGGCAGC CCTGTGGGGTGAGAGAAGCAGTGAGCTCATGGCGCAGCTGGAGAGGGGAGGGCATTGTGT GGTGAGAACTGACTGGGCCTGTGCCCTTTCCAGCTAGGGTCACTGGCTCCATTGTCTCGC CCAGGTGACACAGCTGAGCCAACTAGCACTTCTGAGCAAGACTGCCAGCTCCCCTCAAGC AAAGGAGAGGGACATGTAGTCTCAGAGTCCCCTAGCCAGAAGGCTCCCCTTGCCAGGTGC TGAGGAAGGAATGGCAGACATGGAGGTGGGTGAGTGGCAGGGACAGATCAAGGTTCAGTT GGAACCAAGGCCTGGTTAGGTCAGGAATCAGATGTACTCCTTTCTGCCTTCAGGTGCTCT GCTTCTAGTCCGCCAGAAATGGGATGCATCTGGATGCCAAGGCAATCCTGGGCCCATGCC ACCTCCTTGAGATCCAGGTGTCTTATATCACAGCATCCCTTTCCTATTCTCAGAACAGGG TCCAAGCTGTGGACAAGCTTTCCCAGGTCTCCTTTCCTTTTGTAGGCAGAGATCAAGAAT GGTGCTTGTGGCGGCAGAGGGCATGGAATGAGGAACCAGGCATCTCCAACTCCTTCTGCC TTTCCCTACAGGAATGGGATGCTGGGCCCGGGAGGTGCTGGTCCCCGAGGGGCCCTTGTA CCGCGTGGCTGGCACAGCTGTCTCCATCTCCTGCAATGTGACCGGCTATGAGGGCCCTGC CCAGCAGAACTTCGAGTGGTTCCTGTATAGGCCCGAGGCCCCAGATACTGCACTGGGCAT TGTCAGTACCAAGGATACCCAGTTCTCCTATGCTGTCTTCAAGTCCCGAGTGGTGGCGGG TGAGGTGCAGGTGCAGCGCCTACAAGGTGATGCCGTGGTGCTCAAGATTGCCCGCCTGCA GGCCCAGGATGCCGGCATTTATGAGTGCCACACCCCCTCCACTGATACCCGCTACCTGGG CAGCTACAGCGGCAAGGTGGAGCTGAGAGGTACTGGGCCCTGGGACGGGGTGGAGCCACA CACCCTCTCAAGGCAGAAAGTCAAGGCCACAAGTGACCTATCTAGTTGCCCCTTAGGTTT TGTAGCCAAGGAACTTGAGGCCCAAAGAGGTTAAGTGATTTGCACAAAGTCACCCAATAA CTCAGTGGCTGATGTGGGACTCAAACCCAGAGTTCCTCACCCAGGCCAGTGCTCATCTTA TCATATTAAGACCCCTCCTGGGAGAAGAAATGTCCTTAAGTTGTCCAGTCCACTTTCCAT TCCCAAGAACGAAGAAGACTGTTGGGTTGAATAGCCTCTACTCCTGGACAGTACAGGACC CAGATCTGGGAAAGAGAGTAGAGTTAGGGAAGGAGTTAGACCATGTGACATTCTCACTCT CTTAAGTTTCTTTGTCTTCTGAGAAGAAAGAGCCGCTTTTCTCAGTATTTCAAACAGAGG TCAGTCTCAAACATAAGGGTGAGTAGGCGATGGGCTGGTTCTATGAAATTCTACAAGTAT TTATTGAGCGCCTGTGCTGTGCCCAGTACTGCCCTTGGCACCACTGAGTTACAGAAGAAA TAATACAACATGCGATCTTTGCCCTCTGGGAGCTCACAGTTAATTTAGGGAGATAGGCTA TACACAGGAAACAGTAACAAGGGCTGCCAGCTCCCAGCCCTCCCTCACTCCAGCTGTTCT CTCCAGTTCTTCCAGATGTCCTCCAGGTGTCTGCTGCCCCCCCAGGGCCCCGAGGCCGCC AGGCCCCAACCTCACCCCCACGCATGACGGTGCATGAGGGGCAGGAGCTGGCACTGGGCT GCCTGGCGAGGACAAGCACACAGAAGCACACACACCTGGCAGTGTCCTTTGGGCGATCTG TGCCCGAGGCACCAGTTGGGCGGTCAACTCTGCAGGAAGTGGTGGGAATCCGGTCAGACT TGGCCGTGGAGGCTGGAGCTCCCTATGCTGAGCGATTGGCTGCAGGGGAGCTTCGTCTGG GCAAGGAAGGGACCGATCGGTACCGCATGGTAGTAGGGGGTGCCCAGGCAGGGGACGCAG GCACCTACCACTGCACTGCCGCTGAGTGGATTCAGGATCCTGATGGCAGCTGGGCCCAGA TTGCAGAGAAAAGGGCCGTCCTGGCCCACGTGGATGTGCAGACGCTGTGTAAGTGCCACT TATACATCCCACTGTGGGAGCTGGGAGGGACAGTATCCTGGTGGGCACTGTGGCCACAGG GGGTACCAGATAGCCATCATCTGACTCCAAGGAACTCATCTTCCACAGAGTGAGCAGCCT TGCTAGCATTTCTCTCCCCCGGCCCTTGATGGGTTTTCTCTGCTCAGAAATTGGGTATAG AGATAGGAGGCCCATGCTGAGGGGTGAGATTCAAGCCCCTAAATAGAAAGATGGTCATAC CTAGTGAGGGGGAGACAGGAGGTTTTGAAGTTGCTGCTGTCAAGTAGGAAACAGGAAGTT GGGGAATCGGGTGCCTCTGTGTCCCCTCCTGCCTCCATGACACCTCTTCCCCTACCTGTG TTTCAGCCAGCCAGCTGGCAGTGACAGTGGGGCCTGGTGAACGTCGGATCGGCCCAGGGG AGCCCTTGGAACTGCTGTGCAATGTGTCAGGGGCACTTCCCCCAGCAGGCCGTCATGCTG CATACTCTGTAGGTTGGGAGATGGCACCTGCGGGGGCACCTGGGGCCCGGCCGCCTGGTA GCCCAGCTGGACACAGAGGGTGTGGGCAGCCTGGGCCCTGGCTATGAGGGCCGACACATT GCCATGGAGAAGGTGGCATCCAGAACATACCGGCTACGGCTAGAGGCTGCCAGGCCTGGT GATGCGGGCACCTACCGCTGCCTCGCCAAAGCCTATGTTCGAGGGTCTGGGACCCGGCTT CGTGAAGCAGCCAGTGCCCGTTCCCGGCCTCTCCCTGTACATGTGCGGGAGGAAGGTGAG AGGGGGCTGGGCCCTGGACGGGGTTCGAGGATTGTCAACCCCTTTTCCTTCTGTTTCCAT GACCCCTCCCTCTCCGTCAGCTGTTTGCAGGCCACAGCCTCACGCTCCTCTTCTACCAAG ATTGTGGGAATACCCTGAGTTTCCTGGGGCGGTGCTTGGCGGCAGCCCTAACCCCATGCT CCCTGGCCCTGCACCCTCTGACCCCATGTCCTTTGTTCTGCAGGTGTGGTGCTGGAGGCT GTGGCATGGCTAGCAGGAGGCACAGTGTACCGCGGGGAGACTGCCTCCCTGCTGTGCAAC ATCTCTGTGCGGGGTGGCCCCCCAGGACTGCGGCTGGCCGCCAGCTGGTGGGTGGAGCGA CCAGAGGACGGAGAGCTCAGCTCTGTCCCTGCCCAGCTGGTGGGTGGCGTAGGCCAGGAT GGTGTGGCAGAGCTGGGAGTCCGGCCTGGAGGAGGCCCTGTCAGCGTAGAGCTGGTGGGG CCCCGAAGCCATCGGCTGAGACTACACAGCTTGGGGCCCGAGGATGAAGGCGTGTACCAC TGTGCCCCCAGCGCCTGGGTGCAGCATGCCGACTACAGCTGGTACCAGGCGGGCAGTGCC CGCTCAGGGCCTGTTACAGTCTACCCCTACATGCATGGTGAGTGACACCCCCTCCACCCT CCTCACTCTGCCTTCCTCCTGGCCTCTGCCACTGGCCTTCCCTTCCCATCTTCTGACCCT CCTGCTACTATCTCTCTCCTCCACATTATGTCACATGAAGTCTCAAAAAATCCAACTTCC AGCCCTGCAGTGCCCACCTGCACGGGGTCCTCTGTGGTTGATGCTGACTTGCATGCTGAG GGGGCAGGCTGTGGGCAGGGATGGGGGTGTCTGTGAATGGAGAAGGTGGGTTCAGAGAAC TTGATGGGGAAAGCGCAGAGGCAAGTGTATGGGTGGAGGATGATGGCATCCTCTCTGAAC AGTCATCCTCTCTCCCCCAGCCCTGGACACCCTATTTGTGCCTCTGCTGGTGGGTACAGG GGTGGCCCTAGTCACTGGTGCCACTGTCCTTGGTACCATCACTTGCTGCTTCATGAAGAG GCTTCGAAAACGGTGATCCCTTACTCCCCAGGTGAGGGAAAAGAACCCCCCAACCTTGTT TTCATTGGGCTTCCCACCCCCAAGTCCTGAACCAAGCTGCTCCCTCCCAGGCCCCACCTG GAGGAGGAGTAGGCAGCTCAGATCCACAGGGCCCTGTTAAGGGGTGGAGGCCGCGAGGGA GCCCCACTCAGGGCTCTCTGTCCTTAGCCCACACCGGGCACCCTTTTCAGGTCTTGCAGG TGTCGACTGTCTTCCGGCCCAGCTCCAAGCCCTCCTCTGGTTGCCTGGACACCCTCTCCC TCTGTCCACTCTTCCTTTAATTTATTTGACCTCCCACTACCCAGAATGGGAGACGTGCCT CCCCTTCCCCACTCCTTCCCTCCCAAGCCCCTCCCTCTGGCCTTCTGTTCTTGATCTCTT AGGGATCCTATAGGGAGGCCATTTCCTGTCCTGGAATTAGTTTTTCTAAAATGTGAATAA ACTTGTTTTATAAAAAGCAGGCTTGGCTGTGTCTTCCCTACCATGAGACTGTAAAACGCT CAGGGTGCATAGTAGGGAGGTGGTTGGGGATTGACAACCTATTCTGGATGACCCAGGCCT CTCTTCCCACCACAAACACCATCTGGCCTCCATGGGCCATGCCACCCACCCCAGGAGGGG ACACCTGGGTTCCATCTGCAGCCTGAACTGTCGGGGCTGAGACAACTCCTGATTGGACTC CTACTTGGGGAGGGAAGCATAGAAAAGGAGGGTAGGTCCCAGCTGCCTGTGGTCACCCCC GCACCAGCTTCTCCCATGTTAAAGGGCATGGGCCTCCAGGGGCAGTGCCTTTTCTGAGCT TCCCAGACTTTCCCCAACTCTTCCCACGTTTCATTCTCCTGGTCAGGCTAGTCTTGGACC TGACTCCTCCCACTAGGCCCTGGGCTGAAATTGTTGTTCCTTTTGACCCATAGCAGCAAG AATAGAAAGCCTCAGAACACAACTGATACTCAGGCTGGGACAACAGGCAGTCAGGGGAGG GCCTGTGTGTCCACAGAGCCATTGCACCCACATGTACTCGCTGTACCTGCATATACCCTC TACCCGCATATACCCACTACACCTGCATATACCCGCTTCACCTGCCTGTACCTACCCTGG GGTCTCCTCCCTCCCACCCTTCAGCTTCACCCCTCCTCCAGTGCCCCAGGAGTTTCATGA ATTTTCTTGCCTAAGGATTCTCTGATCCTAAAATTCTTACCTGCACGGCACCTTAAGAGG CATCTGGCAGGCCTCCTTCAGTTGTTATTTAAACATTTATTGAGCATTACGAGTTTGCTG TCATTTTTACAGATGAGGAAACTGAGGCCCAGATATGCGATTTGCCCAGAGTCATAGAGC TAATTAGCAAGTGTCAGGAGTAGGACCTAGGTCTCCTGACTTGTTGCACTGTACAGTGGT GCCCTGAGTGGTGACAGTGGCGAGGAGAGGTGTGGCAGGGTCTCAGTGACTTCAGCAGGC AGGAGGGGCCTTTCCAGACTGAGTTTCTCTGCTTGTTCAGCTGCAATGGGTTGGCTCCTG TGTGAGTGCGTGTGTGTGGATACCAAGTAGCCCACCCGCTCTTGTCCAGACCCCCCTGTT TTACTGAAACCCAAATGAATCCCCATTCTCCATCCCAACATCTGTTCTTAGGGGACCAGT CAATGCCAGGCTTCAGGAATCTCATCTTTGATGACAGGGCCCCAGTGGCCCTGTGACCTG AGGCAAAGATATCCGTGTTTTGACTGAAAGGAAGGGACTGGGACTTGGGTCCTCTCTGAG TGAACCCCAGCTGTCTGGGCTGCTTCCATGGCCCCCTTTCTTGCTTCCAGAGGACCCATA GGGCCCTGGCTATGCCCATAGGACCCTGGCTGTGCCCCATAGGACCCTATCTGCCCAGCC TGGAACAGAGAAGACTGGAGTGCTTTCCCCAGGGGGCTTATGAAAGGGCAGGAGTGGGAT GTGGCCAGGGCCAAGGGAGGAGGTCCTTGCTGGGCCAGTGCTGCTGTGTGGGAGACAGGC GCTGTCCCAGGGCAGGCTCTCCTGGGCCTATGCTTTTCTCCAGGCCAGCTTCAGGTCCCT TCCACCCCTCTGCCTCTCTCAACTTGCAGTTGTTCTCCCTCACTATCCAGGAAGCTGCCG CTGGTGACTGGGATGTGATCAGGAAGCAGGTGGAGGTGGGGTGAGAATATGCGTCTTTGG GACCCCCTGGCCCAATTGGGCTGACAGCAGGCTGCAGACACATCCAGATGTTCTAACTCC TATCGCTTCTCTCCGATTTTCTCCCACATTCAATCTTGCCTCCAGTCCTACAAGGGGTTC TGTCCTTTGCCCCTAAAACTCTTCCTGCTCCACCTCCCCCCGACCTCCCCAGGAGCCCCC TCAAGTCCTTCTGATGGCTTCATCTCTCTGTCGGGCCTGCTCAGCTTCCAGACACCCCCT CCACTTGTCACTGCCCTGTTTCCATTGATGGTTGAGTTTCTGGGCCCAAAGTTAAACTCT TCAGCCTGGGCTTCGGGTCCCTTTCCCACACATAAAACCCCACCCTTCACATTTCTCTGT CTGCTCCTGTGAGGATCCTCAGCTTCTTCTCAGCTTCTCTTCATCTTCCTCTCAGCTACT CCTCAGTTTCTATGCCCCATGTCCTGAAACGACTTCCAAGTATTCACTTAGAGCACAGGT TCTCAAAGTGTGGTCCTCAGTCCAGCAACAGCAGCATGACCTGGGGACTTCTTAGGAATG CATGGTTTTGGTCCCCACCTCTTGGGTCAGAAACCCTTGGAGTGGAGCCCAAAAATCTGT GTTTTACCAAGCCCTCCAGGTGATTCCAACGCACACTGGAGATTTCTAACTCCTGACTTA CATATTCCCTATGCCTTACACTGGCCCCAGCCTTCTGATCACCCACACTCCCCTACCCTC CACGGGACTGCACAGGTTGTCAGTTTGAATTATCCCTCGTTCAGTCACCACAGGTAGATT CCTCTGTTTTCCCAGGTGCCCCTTATTTTGAGGACAGGAACCAGGTTTTTGAATGTCCAC TCCACATGGCACCCAATCAGTGATGTGAATGACTGTGCCCCAAGGACACACTGCTTTCCT AGGGGCTCCCTGTTTCCCAGCTCTAGTGAACCCACTTTCTAGATCTCTCTCCTGGCCCTT CCTCCCCAGAACCTCTCTCTCTCTCTTCCTGCCTGTGCCTGATACCTGTAAGATCTCACT CCACTGTAAGAAAATAGCTATCCCTGGTTTTCCTTTCCCAGGCCCCTCTCCAGGCCCCAG CTCAGGCACCTCCCCGCTCTGCCTGCTTCCCTGAACTTGCGGACTAAGGTCATTCACACC TTGCTGAGCCCCTTGCACGCCTTCATCCTGGTGAGGGTGGAGCTAGGAGGGCACCCTCCT CATGTGCCCATCTTGGTCCGGCTCCTTTCTCCTTCACTTCAGCTTGGCCTACCGTGTCAT TAGACAGTTGTGCCATATGTGGGGAGGCTGGCAGAAGAGGTGACTGGGGACTGCAATCCA TCCTATACTCTGCTCCCCAAGCCATGCACCCTGGTTTGGGGCTGTATCTGTCTGGAGGAA AAGGGTTCCTTTTTAAAATTTGCACAGGGGTGTTCTACAGGTTAGTGGCAGCCCTGAGTG GACCAGTTGTCTACTGGTCCATCTATGTATCTGTCAGCTGTCTTTATCTGCTACCATCTT CCCATCCAACCCCCAAAAGTCCATCATTCTGTCCATCCATCCACTCATGAACAAATGTGA AGGTCAAACACAGACTGGCATTTTCACCCGGCCCCACCCTCCATTTCCCTGAAATCAGGA CCCCTCCCTTCCATACTGGTTTCTAGACTTGAGGTTCTGGGGGACGGGGACTTTCCAACT TTAGCACATTTCCAGGGGCTTTGCCTTCCTCCTCCTCCTCCTCCTCCACCACCTCCGATA TGCAGTTCCCCATGTATCTGTGTCTGGCCCCCGGTCTGCCACAGGGGTCTGGAGGAAGCT GGTCACACCTTGGACTCACTCTCTGGGGGTGGCAGGCAGCCATTCTGCTCCTTGTCAGCC CCAGCTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCTCCCCCGCC CCCTCCTCCTCCACCTTCTCATCCAGCCGGCTGGGGATGGACCAGTAGAGATGGGCATCA AGGCGGGCGGCAGCCTCTGCCAGCTCTCGAGCACTGCACGAAGGTGTGGGCACCTCAAAA GTCTCGTGAAAGCTGGCATAGTCCACTTCGTAGAAGCCGTCCTCCAGAGTCAGCACTGAC GTGAAGCGGTGGCCCCACAGCCCCTCGTCTACCAGGTAGGAGCTCCGAGCTTGGCATGTC ATTCCTGGGAGGAGGGGCACCGGTCAGGGGGAATCTCAGCTCCAGGCTTCCCTCTCCTCT TCTCATTCCACAACCCTACTCCCAGCACCCTCCCTTCTATTCCTTCCTAAGGGCTCCCAC CTCCCTTTGGTCCAGTCCATTTCCCCCCCTCCCTAGCTCCTGTTCTTACCCAGCTCCCTC GTGTCTTCTCCATTTGCCCCAACTCCTCTTAATGTCCAGCTCTTTTTTCCCCTCCTGTCA TTTGGTGATGCCAACCAAAAAAAGCTTAACCTTGAAACTAACCTTAGGGATCCTCTAGTC CAACTTCTCACTCCATACAGGGCTCCCCAAAGGAGCATTTCTAACAATGGGCATCTAGCT TATACTTGATTACCTCCCAGGATTGATAGCTCACCACTTCATAAAGGGCCCACTCCTTTG TATGATAGCTCTAATAGTTGGGTTGTTCTTTATACAGAGCTAAAACCTGTACCCTGGGAT TTCCAACTCTTGGCTTCATTCCCCTCCCACTTCACAGTCCTCTGAGTATCTGAAAACAGG AGTCTCAGATTCCCTCATGTTTTCTCTCTTGACTTAACATCCCTGGCTTCCTCCACGATT CCTCATTTGACCTGGTTTTCCAGAACTCTACTTTTTTGATTACAAGCCAGAATGGCCAAG GAGGGCCCTTTAAGCATTTTGAGTATAGTAAATTTTCCAACTGTGGCCTGCTCCGTGCAT AAGAGAGCGCGCACCATCTCTCTCTTCTGGCCATGATGCTTTCACTAATAGGGCCCAGGA TAACATTACATAATCATTTTGGAGGCTGCATCACATTGCTACGACATCAAGACTGTAGCC AACTAAAACTCCCAGTTCTTTTTTCACCAGTGCTCTTCCATGCTGTGCTTACATAAGTGA TTTTTTTAAAGCCTAAATGTAGAATTTTATATTTATTCATTTTAAATGTCATCTTGCTGG GTTTTGGCTCATTATTCTTGCTTTTCAAAAGCGTTTTGAATCCTGACTGTCTCACCCAAA ATATTACCATCCTTTCCAGCTTTATCTCTCTAGAAAAACAGACAGATTCCTATCCTCATC TCCTCTGTCCTGGTCCTCCCTGCCCGGGGCTTGTGTCCTATCTTCCTGTTGGGCTGGTGC ACCCCTCAGGGCAGGTCATTCTCCTTTCTGCCACAGGGTCTTGCCCCCAACCCATATCCA TCTCGGAACAAGGGGAAACAGAAGAGTGAACATTAGCTAACCGGAGAGTGGCTGTCAACT CGGAAAGCCTGGCGCTGAGACATTGGTATTCCTCGGTGAAGTTGGAATAGAAAGTATCCA GTGGGAGAGAAGAGAAAGAGGCATAAGGGACACTGGGGAGAGAAGGGCTTCGAGGAGGAG AGGGCAGGGCTGGGGGTACAAAGAGAAAAGAGGGCCGGGCAGCAACTTCCCTGGAGGGTG AGGGGCCTGCCTGAGATACTGGCAGAAAAGGAGTGACAGCTGGAGAGAGAGGAAAGGGAA CGGGGTGAGTGGGGGAAGAGGAAAGAGTCGGGGTGAAGCAGGAATGGGAACAGTGATGCG GAGCTGGGGTTGGGGTGTGAAGCGGAGTCTCAGCCTAAAGGGGCCAGGGAAAGGATCTGA AGGCACCAGCTTGTCAGCGAAGCCGGCAGGGAGCATCAGCAGCTCTGGCGTCAGAGGAGG GACTGCGGCGCCCCCTAGTGGGCCTTTGGTCCTCCACCCGCAGTTTCCTCATCCTCATCT ATCCTCTAGATCTCAAGTCCTAAGTGACCTCCTTTGCGACTCCTGTAACACTGGTCTTTT TTCACCTGCTCCCAAAGCCTTCACTGTGTAGGTCTGGGTTGGACTTATTGACATCACAGA TGAGTTGCCAGTTCCTTTTGGAAAAGAGCTAGAAAAGGTAACATCATCTATATCCCTTGT CAGTGGAAATGGATGAATTGGGAAACCGAGGTACAAGTGAGACTAGGTATTAAACTCCCC TCAAGATCCGGCCTAGAAATAACTCAGGCAATGGAAAACCTTCACCGTCAAATTCCAGGG GCCTGAACCTGACTGCAGTGAGAAAACCCCTGAACCTAACCCCTCCTTCCAACTCGGGAC CACTAAACATTGAAGCCACATTGCCTGTGTCCAATCCAGGCATGGCCACTTATTGGCTTA GGAAAGTGGACAACTTCCTTAATTTCTCATTGGAGCAATCTCATCTCTAAAAAGTGAGCA CAATAACAAGAAGTTACCTTCAGAGGGTTCTTGTTAGGATTAAATCGACTCAGAGGTAGA AAGTGCTTTGGAACTGCGCATGACACAGGGTGAATACTGGGCGAGCACTAGCTATTATTA CTGTCCCTATTCCAAGTGACACATTCCTCTGGGCCCAGGGCCCCACGCCAGTGCCATTTC GGAGAATTCCTCCAAGCTTTCTCTTGGCCTTCTGCGGCGTTGCTCGGTTCCACTCCCGCC TCCGACCCCTGTCTCACCTCACTGTCTCATCCTCCACCAGCCCCTCCATCCATCCTCCCC AGCTCCCCTGGCCCCTAGTCTCGCCCCTGCCTTCCTCGGTCCCGCCCACCCTCTGCCAAC CCCGCTCCCCTCCCCAGGCCTGCTCGCACCCGTGGCTTCCACCATGCCCTCGAGGATAAC GACGATCTCGAAGTCGTCCCTCTCGAGGGCACGGCGCGACGCCTCCCAGAAGGGGCTGGC GGCGTCGATCTCGTGGCTGATAACCAGCGGCGAGACGAGGAAGAGGCGGTCGTCTCCCGT GTCGAAGCCCACGCTGAGGTCGGTCTGGTGCAGCGGGATGAACTCGCCCTCCAGCGTCTG GCGCGAGCGGATGAGCTTGGCGCGGATGGAGGCCTCCACTATGTGTGAGGAGCGCAAGTC GCCCACGCGGAACATGAGGCAGAGGCGCCCGTCGCGCAGCGACACCACGGCGTGCGAGGA GAAGACGAGCGTGGCTGCGCGCTTGTTGGGCTGCGAGATCTTGACGAACATGCAGCCCAC CATGAAGGCGTTCACCATGGAGCCCAGGATGGCCTGCAGCAGCAGCAGCACGATGCCCTC GGGGCACTGGTCGGTGATGACGCGGTGCCCGTAGCCGATGGTGGTCTCGGTCTCGATGGA GAAGAGGAAGGCGGCCACGAAGCCGTTGAGGTTGTTGACGCACGGCGTCCACGCGGTGTC CTCCAGGTGCTCCAGGTCGCCGCGGCCGTAGGCGATCAGCCACCAGATGGCGCCGAAGAA GAGCCAGGTGAGCGCGTAGGCCAGGACGAAGAACAACAGGCTGAGGCGCCACTGCAGGTC CACCAGCGTGGTGAACAGGTCCGTCAGGTAGCGGTATGTCTCGCGCACGTTGCCCTGCTG CACGTTGCACCGGCCATCCTTCTCCACGTAGCGCTGGCGGCCGCGGCGCCGCGGCGGCTC CTCCTGCCCGGGCGAGAAGGCCGCGTTCTCCTGCGCCATGGCGGCCGCGTCAGGGCGAGC GCTGCGGGCGCCTGGAGTGCGGCGGGGGCCCGAGCTGCTGCCACCTGCCGCGCGTCGCTG GGCGCCTAGGCGGCGTCGGGGGTCCTGGAGGGGCTTAATAAAGGTTTGCCGAATGAGTGG CCCCTCGGGAGATGGGGAGGCACGGGGCATCAGGGCCAGCACCGAGCCCTGGGGGGCCCT GGGCGAGTCCCTTCGTGTTGCCTGGCCTCTATTTCTGGGAATAACACATTCAGCCCTAAC TGCCCCCCAGGCTCAGAAAGTTGTGAGGGTCAAATGGAATGATGTACCTGAACTGGATAG AACTGTGCAAGTTCCACGATGATTTTCAGGGGAAGGAGGTACCAGATATTTTGGTGCCAT CACCTCCAGCTGGGGTGTGCAGCACCTCAGGGGCAGCCCCGGGGCCAAAGACCCAGGCCC AGATCCCCCTAGTGATTTCCTGAAATCAATAGACTGGGGGCTTTTTGGGGAGGGGGGCAG GCGGGTAATGGAGCCCTCCCTGCCCTAAGGACTTCCACCATCCCTTCCCCAGCTGTAGCC AGTGCAGCCACCAATGGCTCTCCTCGCAGGCTGTTTTGAAGTTCACCCCAAGACTGATAC ACAGTCTTTCTCATTCTTCCCTCCTTGGACCTCACTCACTCCGCTCCATTCCCTCCCCTC AACATGCTTACAAACGAGAAAGAAATGAAAGCTGTGGAAAGTCAGTGGAAACCCTCCAGT GCACAAGGGTGGAACATTAGGAAATTCCCACTAGAAATCCTCCCTGAGACCTACCCACGA TCACTGCTGCTCTTGGGCCAGCCTCATTTCCCTTGGGTTTTTTCTCCTAGTGGAGACAGC CTGCAAATGGGGAGGGGAACTGGAAGATCCCAACACAGAAGCCTGGGAAAGGAAGCCCAG AGTTATAAAGAGTTAGGCTCGTATCCCTCTGGGATCCTATTCTTCATGAGAGACATGGAA TCAGATCAGGTGAAGCACTAAGCACCCACATTTATTTCCCCACTCCCTCTAGTTATATTT TCCCCCAGCCTCTTACTTCCCATGGACTATCCTAACACCAGCCCCGCCCCCACCTGCCAT ATGCCCCAAAGCCCACATTCCAAGCGAAGCCCACCTGATTTTTCTTCACATGCTTGCCTC TGAGGAGCTCTCTGAGCTGCAATCTGCTCTGAGAGAGGTCCAGAGCCCTTCCCCAAAGCA CCCAGGGTCCTCTAGGAGATATGGACCATACAGGGAAAGGTTTAGAATAGGATTTGGGAC TCTTCCACCTTCCCTTCTCTTTCCTGGGAATGATCCTCTCCTCCCACTCCACGGAAACGT GGGCTGGCTAGTGGGTGGGGGATGGAGGAGTGTGCCATAGGAACCACAGATGGCCTGGAT GGTTGACCAGGTCCTGGGGAGAAACTGCCTGGGTATGTGACTCTAAACCTAGCACTCCAG CATCTTATGTTCTGGGGTGAGGTCCTCTGCAGTCAGCACTCTGGAGAGGGTGTGTGTGTG TGTGTTTGTGTGTCTTGGGGTAGAGAAGGTAGGAAGAGAAATCAAAATGAAATGGCTTTG AGCTTAGGGGCACCCCCTGCATTTATTGTCCATGGAGTCAGGGGACACAGGGTCCAAGAG CCCCATGGCAATGGAAGATTAGGGTTTCCCCTGCCCCCAACAATGGGCTTCCTTTTCCTT CCCTGAAGCTCAGATGTCCTCAGGAAGAGTAAGCATTGACTGGCTCAGAGACCCCAGGTC ATGCAGAAAACGACCCTGCTCCCATTATCCTAGCTTTAGTCCCAGGTGGGCTTCCAGATG TTCTCTCAGGGTCTTAGGTAATCTGACCCCCAGTCGGCTTGCCTAGACAGATCTCTCTGC CCAGGGATGGGGAAGGAACCCCGATGTCGGATCACCCCCAGAACTCTCTCACTCTCCATT GCCCCAGGGATCTAGGTAAACCTTATTTTGAATGTGTCCCACATCCTGTCTTCCTGAGTG GGGGACTGCACTTTTCTCAGGGGAAGGAAAAGTGTGAAATTGTTACCTCTATCTCAAGAT CAAGGACTTGATTTCTCCATCTTCCCTCCAAGAATTTCAGTTCCTCCAACCTACTCCTCA TTTCTTGTGCATGCTATGACCCCTTTGCAGAAGATTGCAATACCACTTTTCCTGGGCCCC TCTTCCTCCCTCTAGAGAGCTGGGGAGTAAGGGGGCTCATTTTTTGGAAGGAGAGACCTG GTGAAAACTCCCCCAAGAACCAGCTCCTCCCAAACCCCCACTTGCCTTGGAAATAGGGGC CCAAACCCCAAGTCCCCCGCAACTCAACTCACAGCACGTGGAGAGGAGAGTAGCCGGCAG CAGAGACCCCTGGGGGGTGGCGTCCATGCCCCTGACACCGCCCCCCCCACGGGCCCCCCG AAGGGTGGGAGCCGCAGACACCGCTGTTTCTCCTAAATGTAGCGGCAGCTCTGACTAGGA CTTGCTATCTGTGTCATCCCTACTTCCCAGGCTCCCCTGCTCCTCTCTTGTTTCCACGGC AACCAGTCTGGCGACAGCTCCAGAGCATCCCCCTCCCCTCCCCAGTCCTGGGTACCACTA GGGGTTGATCCAAACCACACGCCATAGCTATTTTTAGCCAAAGTCCCTCCTCCTGGACAA CTCAGAGCTTGGCTCCTCACCCCCTCATAGGAAAAAAAAAAAAAGAAGAAGAAAGAAAAA CAAAGCTGGCACGCTGGCTCTTTCCTAAGAAGCTCCTTCCTGGGGGAAAATACAAGCCCT CATGTATTTGAGAATAAGGTGCTAGGTTCCCTGGGGTTTCAGAGGGCCATCTGGTAGCTG GCAGCTCACCACCTTCAACATGGGTCTCTGCGTGCAGGTGCTGCTCTCAGGTCAGGCTGA CCATCATGGTCTAGTTTTGGAGAGGCCATGGATCCAGAAGGCGGTAGCTAGAAGGAAAAT AGATCTACTAAAGGAAGGGAGGCAGGGTCAGGGGTTCTAATTATTGCCACTGATTTGCAC TGTGTCCCATAGGAGTCACTTCACTTCCCTGAGCCACAGTTATTCCATCTGTACCAGGGT GTGGACAAGAGCAAATATCCCCTTTCTGCCTGCTTCACAGAGTCAGCAGATCAAACGAAG AAAAAACAAACAAACAAAAACCAAAAAAACCACAAAGGGCTTTGAAATGTGTTTTATTCA TAGCAAAAACCCTAGAAACAACCCAAATGTCCACCAGAGAGAAAAGCCTAGGTTAGGGCT TACTAAGTATTCACTCGGCAAACTTCTGCGGAGCCCAAGTGCCAGGCAGTGTGTTAGATG GGGTGGTTACAGAATGGGTGAGTCCCTGCCCACAAGGAGCTCATTAACCCAGGAGGGATA AAGACACACAAACACACAGTGGCTGCTGCTACTAATTCACTGAGCATGGGATATGAACGA GACACATGCCTCATGTCATCCCCATGGCAACTCTATAAGACAGGTGTTATTTTTCCCAGT TATAGATGAGGAAACTGAAACAGAGACATGTTAAGTAATTTATCGAATGTCACAGAGTTG GGCAGAGACAGGAGCCAAACTCCCACATCTGTATCACCTCATGCTTTGTAAATTGTTTTA AAAGAAGACTTCTTAAAGGGTAGTTTTAGATTCAGAGCAAAACTGAGAGGAAAGTTATAG AGATTTTCCGTATGCCCCCTGTCCCCACACATCCACCAGAATGGCACATTTGTTACAAGT GATGAAGCTACATTGACATCATAATCGCCCAAAGTCCATAGCTGACATTAGGGTTCACTT TTGGTGTTGTACACTCTGTGGGTTTGGACAAATATATAATGATGTGTATCCACCATTATA GTCTCATTGCTGTAAAAGTCCTCTATGCTCTGCCTAGTCAATCCCCCTTCCCTAACCCCT GGCAACAACTGCTCTTTTTCCTGTTTCCATAATTTTCCTTTTCCAGAATGTCATGTCGTT GGAATTGTACAATATGTAGCCATTTCAAATTGGCTTCTTTCACTTAGTAATGTAAATTTA AGGTTCCTCCATGTCTTTTCATGGCTTTGTAGTTCATTTCTTTTTGGCACTGAATAATAT TCCATTTCAGGATGGCCATGGTTTATTTATCTATTTACCTACTGAAGGACATCTCGGTTG CTTTCAAGATTTGGCCATGATGAATACAGCTGCTATAAACATCCATCGGCAGATTTTCAT GTGGACGTAAGTTTTCATCTCCTTTGGGTAGATACCAAGGAGCATGATTCCTGGATCGTA TGGTAAGAGTATGTTTAGTTTTTTAGGAAACTGCCACACTTTCTTCCAAAGTAGCTGTAC CATTTTGCATTCCCATCAGCCACGAATTCCTGTTCCTGTTGCTCCACATTCCTGCCAGCA TTTGGTGTTGTCAGCCTTAGCCTAGTGTGCCTCAGTAATGTAATATCTGTGGAATATTAA TATCATGGGTTACTGTAAAGCCATAATAATTGCTGTGTTTAAATATGTGAATGTGTATAT AACACACTGTTACATAAAAAAGCAGAACCTAAAAATATTCTTAGAAATTGATCATGACTA TATTGAAATAGCTTCAGGAACACTGATAAAAATCAGAACAAAATTTGGAGAAACAGAAAT ATCTTATTGTTTATTTTTCCCCAGGGAAATAATGAAGAGAAGAAAGTGGTTTACAAACGC AAAGTGTTGTTGCTGTTGTTATCAGTATTATTATATCCCAGATATGGATCTATTCTTATC CAGATCCTTTAAATTTGGATCAAGAAAATATGAGCTAGAGGAGCAGGAAGACATAGAGAT GGACACGGAGGGCTAGAAGCTCCTGGAATGACCTGGCAAGGTGGGAAATTCGGTACTGGA TAATATAAGCTCAGGAGGCAATGACTTGGGTTCAAATCCCACCTCTGTCCACTACTAGCT GGGTGAACCTGAGCAATTATTTAACCCGTTAAACCTCAGATTCTTCATCTAAAAAAAAGA AAACCATATTATTCATCTCTTAGAGGGTTGTCATGAAGACTACATAAGGCAATGCCTGAC ACATTGTTAGTACTCAGTAAATGCTAGCTACTGTCTTCCTCTTCCTCCTCCTCATTGTCT TCTTCATGGTCATCATCATTGTCACTGTCATCACCATCATCTCAGGGATGTCCTGAAAGC CCCACCCTGCCTGTGCCACCTTCCTCTGTTCTGGCACCACCCTGTGAGGCCTGCAGGGGG CGCCCCCGGTATACTGCCCTCTCCTCAGCTCTCTTGCTGGTGATTCTTGTTGTTCCAAGT GAAAATATCGAGTTTTCAGCCCGAGATTGGCATCAAGAGTGCTGTTAAAGCCCCAGTCAA CATCCCCGTCTCCTGGGCCTTGGTCCTGTCACCCGAGCTTTGGGACTGCTAGCCCTGCCC TTCTCTGTCCTGCCAAGCAGCTGCTCACATTGGTTCCACTGTGCCAGGAGCTCAGAGAGA AGAAACCAAACTCCTGGGCAAGAACACATTTGCATAGAGCTGGCCCTATTTGCTGGAGGG GGCATCACTGGCAGGGCCCTCCACAAGGCAATTTCAGCCAGCCCCTCGCCTCAGTCCAGG TGCCCCTGAACCTAGCCTGGCTGACAAGGAAGAAGACTACCACTCCCTCACCTGATTCAC TCATCCTGCAGGTCCTAGACTTTACCTGTTATCTAACCTCAGTTCCTTATTTATCACTGA GCTGAACTGAGGCAGGAGAAAAAAAGTTTTCCCAGGCACCAGGACACAAAAGCATAGACA AGATTCTAGCTTTTGGCTTGGCACGGTGGCTCGAACCTATAATCCCAGCACTTTGGGAGG CTGAGGTACACGGATCGCTTGAACCCAGGAGATGGAGACCAGCCTGGGCAACATGGCGAA ACCCTGTCTCTACAAAAAATACAAAATTAGATGGGTGTAGTGGTATGTGCATGTGGTCCC AGCCACCTTGGAGGTTGAGGTGGGAGGATCACCTGAGCCTGGGAGCTCAAGGCTGCAGTG AGCCGTGATTGCGCCACTGCACTCCAGCCTGGACAACAGAGTGAGACCTTGTCTCAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAGGAACCGTGGTGCAAAATAGGAAAAGAGCTTAAAA AGAGCCTACTGTGGCCTGTCACTTGGAGAACAGGGAACAGGTGATACTTTTGGGAGAAAA TAAAAGGTTCCCTTCCTCCAGCAGACACAGCTCTGAGCTGGGTGCAGGAATTGGCAAGCT GAATGCAGTTCAGTCCTCAACTTGCCCCATCAGCAGGTGCCTTTGTGGCAGCCCTGAGAT CAGCCAAACTGGGGAGGCTTCCCTGGACAAGATCATGAGACATCTTGTGCAAAATCTGGC AAGTGGAAGAGGAAGCATGATGGGGAAGACAGCAGACAGTTGAGGATATGAGTTTAGTGG AGCAGGGAGGCCAATCTGGTTGATTGCAAAAATTTGTATAAATTCAAGGGGGATGGGGCT CTAGAAAACTCAGAGCAGAGGAAAGATATGGTTGAAGGAGTAGATGTGGCAAATGACTGA AGCTGAAGATTAGAGTGAAATGGGGAGAAGCAGAGCACAGCTCCAGGCCAGACGGAGGCA ATTTCAGCCAGCCCCTTGCCTCAGGCTGGGTTCCTGAGGCTGAGGAGCTTGCTGCCTTTC TGGCTACTTTCAGCAGAGCAGGAGGATCAGAAGCCTTCACACAGAGTTCTATCTTGCTTT ATAGGACTGGGTAGAGATAGGCTAAGATTTAAAAGTTATATGACGGTTAGAGGTGGTACA GGATTAGCCCTTACTTTACAGGTAGGAATAGGTCCCAAGAACATAGTCAGGACTAAGACT CAGGCCACCCGACTCGAGATTCCTCGTGTTTCTTTATTCCCAGTTGCCTCCCTCCTATCA CAGTGCATTGGATGTTAATGGAATTTCTATCAATTGGACCCAACTGGAAAGGTACTAGAA GTCCCTAGTTAGAGAAATTTGTTTTTTTCTTTTTTCCTTTTTTTTTATTCCTTTTTGAGA CAGAGTTCCGCTCTGTTGCCCAGGCTGGAGTGCAGTGGCGCGATCTCCGCTCACTGCAAC CCCCACCGCCCGGATTCAAGTGATTCTCTTGCCTCGCCCTCCTGAGTAGCTGAGATTACA GGCACACACCACTATGCCTGGCTAATTTTTTTTTTTTTTTTGTATTTTCAGTAGAGATGG GGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACCTTAGGTGATCCACCCACCT TGGCTTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGTGCCTGGCCATGTTTTTCTT TTTTAAAGGAAAGAATTCTTTAGTAGGTAACTAACTATTCCCTAAATTATGTCTTATAAA TGTGGGTTTGTGTATATTGCATTTATTTAAAGGGGGTGATCTACTTACATAATGATTCGT TAGTGACTAGGGGAATGTAGCTCAGTCCTTCTCTTGGATTTCTCCTCTGCGGCCTGAGTC ATTCAGCTATGAGATGCTCCACTACTAATGGAATTTGTTCAGCACTGTGGGATGTGAGCA CCAAAACGCCACTTGGAATCCTGAATCCTGTGGTGAGCCATGCCAGTGTCTCTGTTCTTT CTAGCCACTTCCCCTGACTTGTTAAATACTAACTATTCTGAGTCTCTATCATGCCTCCCA ACCCAAAGCTTTCCTGATTCCCTCTGTCCACATCTGCTTTGCCCAGCGCAAGCCCCTCAG ACTGCTGCCCACTTGTGGATTCTTTCTAAAACAGGTGACACACCCCAACTCTCCTCCTCC TCTGCTCTGAGGTAGCCTCTGCCCCATTATAAATGAAGTAAAAGTAGAGATGAGGCCAAA GCTGGAAGCAGTGAGTCTGAAAGGAGAAATGGAGGAGAATAAGGAAGACGCAAGTTGGGA AACTGAAAGAAGAGAGAGGGGTCCTCAAAAAGAGAAGTTTCCTCTGTCATGTTTCATGGT GGACATTGGATGTTGTAATTCTGGGGAATTTTTCATACCAACATGTACTCAGGGGTCATA GCCTCTGGTTGGCAAGATTGTGTTTAAAACGTGCAAATTCCCTCTGGCATTATTCTGAGA CAAGCTTTGGGGTCAAATATATGTGGATTCAAATCTCAAAACACTTTCCAGCTATGTTAC CATAGGCAAACCACTTAACTCCTCAGAACTTCAGTTTCCCCATCTTCTGATCTATCTGAT GTAGTAAACACTCACAAATATTAGTGTCCTATGCCCCTTATTACTGATTCCCTACTGGGC TCCTAGAGACTGTCCTAGGACTTCTCTTTTGCAAACAAATTTAAAAATGAAAACCTGACA TTTGATATGTACAAAAGAATATAGATGGTGGACATATGTCTATATGTTATAAAGCATAAT TTAAGAACAAAAACTCAATTTAAATCACTCTTTTAAATTCAGAACATTACAGTGCTGTTG AAGCTACCTGTGTACTTTTCCACAAGCTCCCACCCCTGCTGTTCAAGGACTTATAAAGTC TTTCTAACTGCCCAGTCCCACCCGACTCTATCCTCACTCTGATTGTTAGTAGAGGACACT TCTGTAGATCACTTGTAGTTTTTTAGTCTGATTGACCAGAAGTAACATAGAATTAAGGAA GTCATGAGCACTTCCAGCCTCAGAGAGAAAGATGCCGAGTTCAGTCTGAGGGCCTGTCAC GTTTTTTATCTTCTTTTTTTTTTTTCTAGGTCTTCTGTGGTGAAGACCTCCTTCACTGTG ACCTGTAAGCACGAGGCAACTGTTTGGGGTTTTAAAACAAGGGCACAGGGACCGACATGA TGAAAACAGGTTGCCTCTTCCTTTGAGACTGGAGAGAAAGGTGAAGGATGGGTCAGGTCC TGATCTTTCTGATTCTGATAGTGGTCATAGGAATGAAAAAGCACATTGCAAACAGATGAA AGAAAGGGAGACTTGACAGCATTTGTTGGCTTATTTGACATGTCCAGGAATGGGCCCAAG GCAACGGTGAAGAGTAAAGGTCACTTGTAGTTTTTTATTCTAATTGACCAGGAGTAACAC AGAACTAAGGAAGTCACGAGCACTTCCACCTTTGGGGAGGAAGGTACTGAGTTCAGTTTG GGGCCTGTCAAGTCAAGATGGAAATCCCCTGCAAGCAACTAGAAATATGGAGCTCCAAAA AGAGTGTAGGATTGAAGATAGAGATTTGGGCATCACTCAGGGACAATCGTTGGAGCTATG TAAATGACAAAGGCTCAAGGGGCAAGACACAGAAAGAGAACATAAGGCTGAACCTTGAGT GTTAAAAGAAGTAGCTGTAGCTTTGGGTGTATAGGGGCAGTGGAAGAAGATAAGGCTGGA ATGGCACCAGGTCCAGGTTATAATAGGCCTTCTCTTCCAGGGAAAGGAACTCGGACTTTA CTTATAGATAGTTGGCAGTTACTGAAGGTTTTAAAACTTGGAAGTGGTACGGTCAGATGT GTGTTTCAGAGAGATGTACTTTACTGGTGCTTAATTACTTTCAAATAAAGAAATTCATAA TCCAAAGAATTATTAGAGTGGAGGAAGACTGGAGGCAGGGAGAGTAGTTAGAAGGCTGCT GCAGTAGCCCTGGTGTATTAGGCCATTCTTGCATTGCTATAATGAAATACCTGAGATAGG CCATGGTGGCTCAAGCCTGTAATCCAGCATTTTGGGAGGCTGAGGTGGGAGGACTGCTTG AGCTCACAAGTTCAAGACCATCCTGATCTACATAGCGATTCTTCGTCTCTACTGAAAGTT AAAAAAAAAAAAAAATAGCTGGGTGTAATGGTGAACACCTGTAGTTCCAGCTACGTTTGA GGTTGAGGCAGGAAGACTACTTCAGCACAGGAGTTCAGGGGTACAAGTGATCTGTGATCA CACCACTGCACTCCAGCTTAGGGGACAGAGTGAAACCCTGTCTCAAAAAAAAAAAAAAGA TTAAAAATTAAAAAAAAAAAACCCCAGAGAGTGGGTAATTTATAAAGAAAAAAGGTTTAA TTGGCACACAGTTCTGCAGGATTTACAGGAAGCATGGTGCTGACATCTGCTCAGCTTCTC AGGAGACCTCAGGAAGCTTTTACTTGTGGTGGAAGGCAAAGCAGGAGCAGGCACATCACA TGGCAAAAGCAGGAGCAAGAGAGAGTTGATGATGGGGGATGTTGCCATATACTTTTAAAC ACCCAGATCTCACGAGAACTCACTATCATGAAGATAGCACCAAGCCGCTGAGGGACCTGC CCCCATGATCAAAACACCTCCCACCAGGCCCATGTCCAGCATTGGCATTAAAATCCAGCA TGAAATTTGAGCAGGATCAAAGATCCAAACTATTATTACCTGGTGAGAGGTAATGGTGTC CTAGACTACAGCAATGATAGTGGAATAGAGAGGAAGGGGACAATATTGAGGCTATTTAGA ATACAGATGCATTGATTCAATAAGGGAGATGAGGTGAGGAAGATTGAAGAATCTAGGATG GCTGCCATGTTTCTGGTTGGGTGATGATAGTGTATCTACCATGGTAGAGAATAAATGGAG AGGAGCACTCTTGTGAGCAAGGTGACATGTTCGACTTTAAATATGTTGAGTTTGAAATGG ATATCCGGGTGGGCTGGACATATTGACACATGGGTGGTAGTTGAAGCTAAATGGATGGAT AACATTTTTGGAAAAATAATAAGTGCACAATAAATGTCTGTTAATGATCCATAAATCATT ACAGTCCCTTTGCTTTCTCTTCTGTGGTGTTCTTCATGTTTATTTTGGAGTTCCACCAGA GCCTCCAAGCTAAGCTTGTCCAACCCACCGCCTGTGGGCTGCATGCAGCCCAGGACAGCT TTGAATGAGGCCCAACACAAATTTGTAAACTTTCTTAAAACATCATGAGGGTTTTTTTTG TGATTTTTTTTTTTTAAAGCTCATCAGCTACTGTTAGTGTTAGTGTATTTTATGTGTGGC CCAAGACAATTCTTCTTCTTCCAATGTGGCCCAGGGAAACCAAAAAATTGGACACCCCTG CCTAAGTCCTCTCTGTCTGTGAATGTCAAGACTGTGGCCCCCTTAAGGATCTTTTGGATG TCCTATTTTTTGAAACTTAAAGGTCTTATACCAGTCTTGCAGGCTGGCCCTCAGACCACC TCACCACAGCCCCTCATCCATATTGACTTAGGAAGAGAGGGCATTCGGAGTGTGAAGAAG AAAAACTGGAAGACTGTTTCTTTTTCTTTTTATTTTGTGTTTTGTTTTGTTTTGTTTTTG GAGACAGAGTCTAGCTCTGTCCCCCAGGCTGGAGTGCAGTGGCGTGATCTCGGCTCACTG CAACCTCTGCCTCCCAGGTTCAAGCGATTCACATGCCTCAGTCTCCCAAGTAGCTGGGAT TACAGGCGCGTGCCACCAGGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGTTTTTG CCATGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGATCCACCCACCTTGGCCTC CCAAAGTGCTGGGATTACAGGCATGAGCCACCTGGCCTGGCCTGTTTCTAGTACATTGTC TGGTTTCTATTTCTCTCCTCTCTATGAGTAGAGTTCTCAAAAGTGTAACCTATACTTGCT GACAGTTTCTCACTTTCTAGTGGTAACTTGTAATCTGGTTCCCACCTTGCTCACTCTTCT GAAATTGCTCTCAAATGTCACTAGAGACTTTGTCACTGCCAAACCCAATGCCTCTTCTCT CTGTACTTGTTGGCACTGTTAGAACCTCCTCCTTAACAGTCTCTCCTTCCTTAGCTCCAT GACATCTCACTTTCTTTGTCTCCTTCCTGCCTGTCTGGTGGATTCTCTTTCACTCTTTGG GGGTCCTTCTTCTTCCCATCCCCTAAACATAGGTGTTCCTCACTCTCTGTGCCAGGCTCT CATTTCTCTGTGCAGTCTTTGTTGGGATCTACCCTGTTCTCATAGCTTCAACTCACACTG CCCTGGCAGCAATGACCTCCTTTCTCTCTCTGGTTCTGACCCCTCTCCACAGCTTCCAGC TCTGAACTCATCACTTCCTCTTCCCCCACCTCAGTCTCCTCACCAGGTGTGATCCCCCCC AGGCTCCCCTATGCCCGTGAATGACCTCGCAGTTCTGATCACCTGACTTGAGACTCTAGT ATGATCTCTGAAGCTTCCCTCTTTTGCTCAACATGTCAAGTTGGCTTCAAACTTTTTTCA TTTTCTTTTGATTTTTCTGTACTCCAATTCATTTTCTGTGTTCCACTTTTCACCATTGCC ACGCTGATTTGGGCTGTCATCTCTTCATGCTTATATTATTGCAATTATTTTCTATCGTCT ACTTGCCTACTATATCCACTTGGTTCAAACTATTTTGTCACCTCCCGATTAATTTTCCTA AAATGCCATAGCTTTCTCCTACTCCATCCTTCCCAAGAACCTTCAATTGCTCTCCGTAGC CTACAGAAACTCTGGCCTGACCACAAATCAGCACAACTCTGTGTTTCTTCCGGATGTTCC CCTTAACACAAACACTGCCTATGGTGCCTAACCTTTAGTCCCGTCCTTCCAGCTTCTCCA ATGAGGCTATTTGAATGGACATTTACTTATCTTATGGCTTTTAGTGGTTAAACTAAGCTA CATTCCTAGTTTCTTTCCTTTTTTTACCTGAATTTATAGCAATTCAATATGGTAACACTG GTTATTGATTAGCAGTTAAATGTTTATGATGATCAGAAATGAGGAAATAATTATATTCTT TTTAAATAAATGCTGGGGGTGGGGGTGAATTAAAACCTCTCAACACATAGATTCAGAAAA TTAAAGAAATCTTTGGTGATGAAAGGGTTGAGAACCATCACCCTGCACTCTAATCTAGTA AATGGGACAGTTTGATGCTGTTTCCCAAGTGAACTTGTATTTTCACGTCTCCCCAGGACT CTGCTACGTTGTTCCCTCTGCCTTAAATGCAACAGAGTCCTGGGGACCATCTCTCAGCAC CTGAATCTTCTGCTTCCTTTGGGACCCTAATCAGATGTTACCTCTTTCCTCCCACATCTG CTAGGAGCCCTCTGAGTAGAATGACCTCTCCCTTTTACAGCCTTCAGTACCTCCCGCACT TCGCTGAGGGTTCCGGCCTTATCTTTCCTTACAGAGAAAGCCGCTGCAGGTGGGCACCGT GTGCTGCGCGTCTCTCACCCAGCACCGCACCGGGGACTTAGGAGACGGTGAACAACACGG GAATTGTGCCCAAAGATACAGTCCTGTGGCTCAGGGAGCCCAGGCCTACTCCGCCCCAAT CTCACTTCCAGGCGCCGCCTTCGGCGCTGCCTGCAGGGCCACTGGGCCGGTCCTGAATTC ATTTCCACTTCGTTAACTCGGTCCCAGTCCCGCCCCCCGGCTCCAGCTCTCGTAACCCAT CGCTGACAGGACCGCCTCCCTTTTCTTCCTTCTCCCTTCCCCTGTCACCCTGCCAGCTCA GCTCCTATCGTTTCGCATATCGTCTCTTCATCTCTCTTTCTCCCCGGGTCTGTCTGGGTC TCTGTCTTTGGATATTTCTCTCTGCGCCTGCAGCTGTCTGGGTCTCCGCTTCCTTGCCCC GCACGCCCCGCCCCCTGCCCAAGACCCTCCAATCTCGGCGGCTCGAGCCTGGCGCTCCAC TCTCCCATTGGTCTGTTCGGAGCCCCCAGCCCCCGGCTGACCGGCCCCCCTCCGGGCCCC TTCATTCACACAAAGTATGGCTCCGNCGCTGCGGATGGAGGGGGCGGCCCGGCCCGGCCC AGCTCTGCCCTCGGCCGGCCCGACTCCGGCCCCGGCCCCCGGACAAGCCCTTATCTGATC ACAGCTCCGGGTTTAAGAGTCCTGGCCCGGCCCGTCGCACAGCTCTGCTCCTAACTCCTG CCCGCCCCGTCCGTCCATCTGTCCCGCTGCCCCGCGGCCCATCCAAGGGGCCACTCCACC TCGGACCCAAGGTAAGACCCTGGCCCTGATGAAGGAGTTCTGCCGCCCCGGCCGGGTCCT GTCCCCCTAACTCTCCAGAGACATCGGGGTCCCAGATCCTCAGTCCCTACCCTGCCTGGC CTCAGCGGTACCACCGTCTTGTTCCCCTGCCTCCCGCCTTGGGCAGTCCCAAATGGAGCC TCCTGGGAAGGGCTCCCCACGAGGAAACTAGCCAGGCTGGTCACCTCAGCCCTTTCATCT AAGGAAGGGGGATCCTCTAGAGTCGACGTGCAGGCAGCAAGCTGTCTGGGGGAAATGAGA AGAGAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCCGGGTAAGGGA TATCACTGGGGTCTCTGCATTAGAGCCACAGGGGGGCTGTGAACCATAACCCTGCATACC CGTAACTATCCAAGTTGCTACACCATNACTCCATTTGATGTAAGGAAGGGGACTTTGCTC TTCCCTGCTACAACTGGGCTGACCAGGCTCTGAGTGCGGGGTGTGTAGATAATACAGTGA CAACCACACATAACCAGGCACCCCATACACAGGCACAACAGACAGTGCGCCCTCCTCCCC ATATGGACAGGGTACTCCCATCCCCAGCCCCTCCCCCACTCCCCATACAGTGACAATCAC ATAGTGACACCCATGATCGCTAGTTCCCACATGGGGAGAAAAACAGATACTGGCAGCTTA AACCGGGGAGCCACCAAAGCCTGGTGTGCTCCAGACCCCTGCCCACCCAATCTCTTCCTT CTATTCTGAGTGGCTCCCATTTTAAGACATCCCTCCTCATGGCCCCTCACCCTCACCCCA GCTGTTTCGCACTGGGATTTCCAGAAGGAAAGGAGCAGGGCCACTTCTGCTAGAGTGAGA AGGGCAGATTGGGTTCTATAAACTCACCCTCCAGATGGAGACGCCCCTTCCCATTCCATT CCTCCTCTCATCAGAACTAACCCAGGGCACCTGTGTTAGGGAACAGATGAAGGATGGAAC TTCCTGATTTGGGGGAGGAGAGCTGAACCCAGGAATGGGTAGAAGGACAACACTGGGAAA AAGTGAGGGTGGGTTCTGGTGTCTTGAAGTTTAATTCCAGTGAGTGCCCCAGGCAGGGTG AGGCAGATGGGGAAGAAGCTGGTGCAGATTTGGACCCCAAAGAGGCCAGTGCTTAAAGCC TGCTTCTGTTGCTTACCAATACAAATTCTGACTAAAGATGTCTGGCCAGTCTGCTCTTGC TGTGGTGTTTGAATTTTTTTTCTCCCCACTGGGACTGCTTTAGGCTGCCTGGGTGGGAGG GAGATAATGACAGGAGATTTAGGGCCCCCATGTGAGAGATGGCCTTGTTTAAGGGTGCTG AGGAGGGCCTGGAGTGGTTGTCATGAAATTAGCCCCAGGAGGGGTGGGCAGCCACCAGTG AGTTCAATTTAGTTTCATCCTGAAACTCTCTCCCTAATCTCCAAGGATTTTTGAACATAT TCCTGGCATGATGGTGGGTACCATCCTGTGCCAAGTGGTAGGGCTTGTAAATTTCTCTGG GGGTAGACTGGGTATAGGGGACCAAGTTTGGAAGGAACCAGGCATCCTGACTCATAGCTG GTTCTTCAGGGAGGAAGAAACGAGGGAGGAGGGGGATGGAAGGCATCATGCCAGGGAGAG GGTCCAGGGCTGGATTGTGGAGGCAATAGGCACGGCCCAGGCAGTGCCAACTCCTTTCCC CGCTGCCTTCCCCCAGTCCTTTGGTGGTGGTGGCAAGGGAGGAAGGGAGGGAGAGGGTGT TGGGGGGTGATCTGGGCTGGTCCAGCCTCCCAAAGCCCTTGCCAACCTGGGTCCTGAAAG GAGCTGCTGTTTTCTGAGCCATCCCCCCACCCCCCACTCAGAGCCTGAGCAGCCAAGTTG TCTCAGCGGATATCAAATGGCAATGACTCCACCGATGGAGGGTGGGTGGGGAGTGGGAGT GGCAGGGGTAGCAGGGTTATGGTTCCAGCCCCTCTGTGGCTCTAATGCAGAACCCCTCTG CTATCCCTTACCCTGAGGAAAAAATAAATCCATCTTCCCCAACATCTGACCCACATCCAG TCTATGGGTGCATATGTTTGTGTGAGGGGATTAATGATCTGCCCGCTGGTATCCCCTACC TCCTCCGTGTGCCCCATTGAACCACATTCTAGCTCCCTCCCACCTGCATCACTGTGCATA AGCTCATTTACAGCTCCAGCTTGGTTGGCTTGAGCTACAAGGAAGTGACTGGCAGAGGAC CCGGGGACCTTCCTTCCCTTGACCTTCCTTGGGACCAGAGAGGCTGGGACACTTGGATCA CGGTGGGCTCAGATGAAGTCCTCTGGAGTCATTCTGTGATTGGCAGGATAGGGGGTTTAA AGCTCTAGGGGGTGGGTCATGCAGAAAGATCTGTTTCCTCAAAGGATACTCCTGAGCCTC CTGGTAAAACTCTTGGTTTCTGCACACAAGATGGAAAGATAGGCCGAGCCTCCTGGCATT GGTGGGGAGGAAAAGAGACATTGGGCAATGGAGTCCCTAAGCTTTCCAGCCACAGGTTAT TTAGGACGGAAGAAAAAAACCTCCACTCTCCCTCCCCTCCTCGGCCTAGATTCTTCTCTT GCCTGACTGGTCAGTGCTACTGTCCAGGCTGAGGCCAAGCTGTCCAGGATAGCAGTGGGG CCCTGGAAGGGGGCAGAGAAGGAATCAGCCAAGGCACATCGTTGAGATGAAACTACAGAA AGATTGGAGAGGAAAGGGAGATTTAAAATCTAAGTGTTTTAGCACCCAATGGTGGGTGGT TGGCTGGGCAGCTCCTGGGAATGGGAGTTTGCCATGTCACTTCGGTCTCTCCAGCAGGCT GAGTTCAATGCTTTTCTTCCCTCATTTGAGTTTAGCCTACATGTTTGCCACCATTCTTTA GGGAGAGAGTGCATCTGGTGGCCCCTCTTCCTCCCCTCCCCCATCAGAACCTTGAAAGGG CAAAGAGAAAGGGATTGTGGGAAATGCCCTCCCGTGGGTGTTTGCCAGCTTGGAGCCTGG ATTTGAGGTGGTGGGGGAAGGGAGGGGCTGGCTCTGGAATGTGAGAGAGAAGTAAGAACA GAACTTTGTGGCATGGAGAAGGAGGTTGGAGAAGCAGGAGCTAGAAGAGGACTGAATCAG ACCTCAAGCCTCCAACAAGGTGCAGCACAGAAAGGGTATACATGGCCATTGTGCAACTTT TCCGATGGCACAACACCTGGGGAAAGGATTGTGGCTGCAGCTAGAAGGACTTAGGTTAGA TCTCAGGAAGCACATCCTAGAAAAGGAAAGACATTTGAAATGGAGACTGGGAAGGAAAGA GAGACCACTTTCTGGACCAAAAAAACCAACCAAAACAAAACAAAAACCACCAACAAAATC CCCAAACACAGAAGCCCATCCTTAAAGCTTCCGAGAGGAGTGATGGAGCTCAGAGTGCAG GGATTATTGTGACAACTGTCAGGGGCCTCCCCTGGGTGGCTGCTGCACCTCTCTCTTGCT GTTCCAGGGCTACTTTCCGCTCTGAGAGACAGCAGGCACTATGGTTAAGAGCATGGCCTT GGAGTCTGACTTTGTGGGATTCGGTCCTGGTTTACCACTTAGTAGCTAAGGAAGTCCCAT CCTCACAATAGGGCTCATAACTGCTGTGAGGATGCACAGTGACTACCGTAAGGGGCTTGG AATGGTCCTTAGTCTGTAAAAAGTGGAGTTGTGGGCCATTGCTTTTCTCCCACCACTCTA ATGTTTTCTACTGTGTCATCTTTCCTTGTTCCTGGGCTTTGTCCCAGCCCTTCTTTGTGG GTTTTGCTTTGTTTTGTTTTGAGATTCTGTCCTAGGTTTTTTCTTCCCACCCTTCTGGAG TTTGGGAAGGTAGAAGAATTATCAAGCAGTTTAAGATGCATTTCCTTCCTTGATTCCAAT AGGCTGGGCATCACTTGAGGTGGGGTCTCCACACCCACAGCCCCTGCTTTCCACAAGTTT TTGCCAAGCAGATGTCCTGTCTTCAGATTCAATAAATGAGAACTGAGTGGTTGAGCTTTC ACCAAATAGTCTCTTTCCCCATTCTCAGCAACTTCTCTTTCAGCCAAAGACTTCTGTCAG AGACTTCTTCTGTCGGTCAAGACAACCCCCACATCTCATTCCTGCTCCCATGGTCCTGCC TATCGCTCTTGTATTCTTCATCCTGCCTCTCCCTCTCCCGGCCCAGGTTTGCCCCCACAA CTTCTCTCAGGTTTATATGCCCTTCTCTTCTTGTGTCTCCTGATTGGCTTGTTCATCCCA TCAGCCTGGATGCCCACAGCAGCCTCCTTAATGACCTCCCTGACTCCAGCCCCCTCTCTC CTCGACTCCTTCCCTGTTACCCTATAATGAAATTATCACTGGAATTGTCATCATGAAGCA TCAGTTTTATCTTGCCCTTTCTCTACCCAGACACATCTGTTGGCATTGGATAAAAATTTC CCAATCACAGGCTTCAAGAGACTTTATGCCTTTCTCCCATCCCCTCCAGCCCCATATCTT GTGGAACTGCACTCTTCAGACCCTGATCCTGGGGAGCATATCCCAGGCAGTCTCTGAGCC ATGCTCCTCCCCACACTCTGGACCCTCACAAAGGCCATTCCAAGTCTCACCCCTCCCGCA GATCTCTATTCTCCTGTTTCCCTCTCTGCTCTGCCATCTTGCTTGTTACTTGCATCTGCA ACTTGGCCCAGGGTTCTCCATGCATGGCGATGTTGGAGGAGACTTGTCTCCCTCATTAGC CGGGGGTTTCCTCTAGGGTGAGGCCTGTACCTCCGTCAGATTGGCAAAGGCATCTCTTCT CTCTCTGGACCCTCTGGCACCCAGCAAAGGGCCTGCCTCCTAAGACACAGAGTAGCTACT GTCCAGTTTGACTCTAGGTAGGAAACATTTCTGATCGCTTATTCTTGGGGAAGGAGCCTG ACTTTGGAGGTTTATGTGAGCATCCTGCAGCAGGGTGTGTATAGGATCCTATTATCTAAT TCTATAGGAGATCTCAAGAGAAACCCCTCTCCTACTAACGACCCCATCCTGTAGACATGG CTTCACCCTAAGATTACAAGCCCTAGAACCCCCAATTTATAGTCTTCTAAGCATTGTTGC TCCACCCACCCCCCCAACACAAATGCAGGTATGTAGGCCCCAGAGAGCCTTTCTCCCCTC ACCAGGGCAGTCTGACTCCAGCCTGAGGCCGGGCTTGTCAGCAGCATCGTCTGGAATGAA AAAGGGGGATAAAGGTCAGAGTCTAGTCTGAGGCAGCCCCATTGTCCTGAGCATACCTCT GAGCAGGGGCTTGCAAGGTGGCAGACATGTGAGGTCACCTCCCAAGTGGGGTATAGGTCT GACCTCTTAGCACTGCATTCTCCCTGGACCAGCCTCCTCAGCTCCACTTCTGATCCCAGT TCCAACTGGTAGAGCCAGGCACACTCCTTCTCCACGTGTCTAAACCTCCCGGTTGACCCT GTGATAAAAAAGATATAGGCAACTGGTAAGAGGAGAGGGTGAGTGTATTAGAGTCTAGAG CACTGGTTTTTAAACTTTTTGACCTCAGGACCACTTTACATTCTAAAAAGTTACTGAAGA CTCCAAAGAGCTTTGGTTTGTGTGGGTTCTATCTATGAACATTTACTGTGTTAGAAATGA ACACTGGGACACATGAAATAATTATTAATTTTTGCATGTTAACAAAATGACGTATTTTTA ATGAAAAACAGCTGTATTAAAGTAAACAAAAAGTTAATAAGAAGAGTGACATTGTCTTAT ATTTTCACAAGTCTTTTTAAACATCTGGCTTAATCAAAGACAGTTGCTTTCTCATCTGCT TCTGCATTTAGTGTGTTGCAATATCATAGGTCATGTACCTTCTGGAAAACTCTACTGAAC ACTGTGAAATAATGAAAGTGAAAAGGGCAAATAATGTATTGTTAGCATTATTATGAAGAT AGGTTTGACTTTGTAGAGCCTCCGAAAGGGTCTCAGGAACCCTCCGAAAGGGTCCAGGGA CCATACTTTGAGAACTGCTAGTCTAGAGGAACCTTAGAAGACAGTTTCAAAAACCTGGGC CAATTTGAATATCCTCGTTGATTTCCTTCAGCTGCCATGGTCTTTTGAATGTTCTCACCA GGGAGGTAGTATGGGGTAGTGGTTCATCATGTTAAGTTCTGCCTCTGTTCTACTACTCAC TAGCTATGTGGCCATGGGCAAATTATTAATATCTCTGTGCTTCAGTTTTCTCATCTATAA AATGGGACTTTAAAAAGCACCCACCTTTAGAGTTGTTGAGAATTAAATGACATAATAGGA AAGGGCTCAGCGTAGAGCTCAATGATGTGAGCTCTCATTAAATTCCGGAGCCTTGCCCCT GAATCCACTGCGCATTGTCCCGAAGGCAGGGAGCTGCAGAGGAGATCCATCCAATGCTAC ACATAGGAGCTCGGCCCAGAGAGGGAAAGTGACCTGTGCAAGTTCCCAGAGAGAGTTGAC AGGGTTGTTGGGCCCCGAACCCAGGAGTTCTAAGGCCTAGCTCCATCTCTGCTCTCCCCG CCAGAATTTTTTTGTGGAGAGTGGAGGAGCAAGGTCCTAAGACGGGGAAAGAAGCAGACT TTACCTTTCTTTTCCCCAGCAATCTCAGGTGAGCCCAGGGCCAGGGCAGTACAGTGGGAA GCCTTGAGGGCAGACAGCAGGGAGAACTTCCGATACTGACAGCAACTGAAAAGAGGAGAA AGAAAGCTAGGAAGACATTTTCAAGCCCAGAGATTGTTCTGTCTTGCCGTGTGGGGAGCA GTTCTGCAAAGTGTCCCCGGCCTTCTCTTCCTGGGGCTCGTAGGAAGTCTGTGATTGGGC AACCCTGCTTCTCATGAGGTGCTCAGTCCCGCTCACTGCCCTCCTCTCAGCTCTCCCACC ACCCAAGGCCCAGGAGCCCCTCCCCAGATCATGCCTTCTGGCCCTGCCCTTTGTGCTGAG GCACCACAAGGCACAACATGGTGCCTTGGAAAAGCCAGTTGGTGGTGCTGAGGGCATTAA TGAGGATAGGGGTGCCTGCTGGGGTTCCCTGGGCAGGAGAAGGGAAGCTTCTCCTCACAG ATTGTAGAACAGGAGGAGGCAGATGGGGAGTTAGACATATACTGGGAAGAGCTAGTCCTG GCTCATTGGCCCTTCAGTCAAATTCCCCTGAGCTGGGCTTCCAGCTCCACCTTCACTAGT TCAGGTTGAATTCCCTGGAAGAGCACAGGTGGCAGGCGACTCTTGTCCCTAACCCCTGCT TCCCCTGTAGTAGCTTCTTCAGCCTCCAGAACCAGAGCAGGTGGAGATCTCAAAGAAGGT GGCACCCCAAGGAAGTAGAACCCCAAAGACCCCAAACCCTGAGCACATGCCCTTCCTGCT GGGGTTGGGGAACTTGCTATGTATTACTCTGTTTTTCTTCTCCTGCCCACAAAATTCCTT TGCATAGATGGTAAAACTGAGGCAAAACGTGGGAGGACTTAGACTGCCCACCCACTTCTT TCTAGAGCCCAGCCTGGGACCAAGGGGCTTGGCATCCCGCAGCCCCTCCCGCTCCACTCC TACCAGTCCCCGTGGCTTTTTCCATTTGGAAAGTCCTTTCTGGCGAGTGGCAGGTTTGGA GGCCCTAGTCTAGTCTCCTCCCCTGTCTCCTGGGCAGTGCCCCCAGGGGAGCCCCTGTGG GCCAAGATCTCCTTAGTCTCAGTCCTGGGCCCCCCTCACCCTCTACCAGCAGTCCCCCAG CTCCCGCCCCTCGGCTGTGGGACAGGGAGAGGGCTGAGGGGCTGGCTCTGCATACTAATG TCCTGCCCATTGTCAAAGCCCCTTTGTGCCAGGGAGCTCCATTGAGGCGGCTCCGGGGCA GGCACAATGGGGGCTCTGTCCCCTAGTTCCCCCAAACAGTCACCTGCTTTCAGAGCCTTC CCCACCACCCCCCCTTCGCCCCAGTGTCCGGAGGGCCCAGAGAGCACGGGGGAGTGGGCC CTGGGCCAGGGGGGATGGGCAGGAGGTGACTCCCCCACTCTCTGGGCAGGCTGGGGAGAT GGGCATTTGACAGGGCAGGCTGCAGAGGGCACACAGAGGGGAGAGGCCCTAGGCTCACAG GGGCAGGGGCAGTCTGTGGAGGAGTTGGAATGCAGGTTCTCTGAGGCCTGAGAAGGGGAA GGGGCACTCAGAGCCTGCCCACTTCTCGGTTCCGTATGCCCAGCCTGGACCTGTGGCTGC CACCTCTCCTCCTCCCACTACAGGACTCCCCGGGGCTCATATATGCAGAGACACACAGGC ATACACTCATCTATGCGGCCCCACACACGGCTTCCAACACACACCCAAACGGATGTGCCC AGACACAACACACTGACCCCAGCACACAGATCGCACGTCCACAACACCACCTTCTGGCAT ATGCACCTGCACACCCACCCTCCCTCCACCCCACCCCCCTTTCCCTTTTGCACCCCCTCC ACGGCCGCAGGCATTTCAGCACCATGTCCCTCCCCCCCATGCCCTTGCTGCCCTCTGCTG CTCTGACACTGGTTATAACAAGTTTGCACTTGTTGTGACCTTAAGAATGTGGCCCTGGGG CTAAGAATGTCCCGCTGCCCCAGACTGCACCTGCTTATACGTTAACCATGGACACAGCCT CTTGCTGCACTCTAAGCAATGCTCCCATTCCTGCCTCAACCATGGAAGCAGTTAGGTGGG CCAGGCCCCCCACCCCAGAGCTGAGTCAAGTACCCTGGACTGAGCTCTATGTGAATAACT AAAGCCCCACCTGGCCTCGCTGGCACAGGTCCAGTGTGTCCGTCTTTGCATTTGCCCAGG GCACATAGATATTTCCTAGCCCTTCCTGGCCCTGGGAGGTAGATGGAACAGTTATCATTT TCCCAGCAAGGCTCTGAGAGGTAAGATGATGGTGTCCAGGCAGCTGGTGGCAAGTCTGGG ACTAGAATGGAGGTCTCTCACCGCTAGTTTTTTTGTGTTTTTCCCCCAACTATTTGTCTC TTGGTTTCACTCAGATGACCCCACCCCCAACCCTATCTACAATTCCAACAGAGCTGTCTT TTAGCCACCTTTTTTTGGGAAGGAGTGGGGGCATGGTGAGGGGAAGGGGTGGGGAGAAGA ACGGGTCTAGGAGCCTTAAGTGGGCTTCTGGGTCTAGAAAGAACCTCCGAAGGTCACTTT GACCCTTGCACTACCCCTAGGCAGAGTGAGCCTACCTCCTTTCACTTCCCACCCTCCTAC CGGCCCCACTCCTGCTACGAACTCTGGATCACTGGAAAGTAACCCCACAGCCTTCTTAGC TAGGGTTTGGAGTTGGGGATCTCTATCAATTATAAGTCCTTCATGCTGCCTAGTACTGGC CTTTCCAGTTATTATCCTACGTCTGCACGAGGATCTGTAGGCTGTATCTACGGCTCACCT GCTATTCTGGTCCAGAGCATCTTCTAGCAGTTGGGAGCAGATGCCCTAAAAAGGGAAGAG AGGAAGGCCCATTGGGATCCCAGAGACTTGAGGGCTGACTGCACAGTGGTGTGCTGGGGC CTGGGAGGGTGGATGGGGTCACAGTTGCAGAAACTCTGTTAGATAGAGAACTAAGCTGAT ATTGGTTTGCTCATCAGCAAATATTATTGAGTGCTAATCTCCATGATGTTTCCTCCCATC AAAATTGCATGGGAGAACCTCAGGGCCCTTCTACTCCTTCTCCTTTCCCCTCATCTAAAA TGCTTCCCCTCTGGCTACTGGATTCTCCTTAAGCCGCCTCATCCATCTGTCTTCCTTCAT GCAGGAACACACCTCCCCCAGCCCTTATACTCTGGTGTGATTCTTTTGCTCCAAATGTTC CCTACTGGAGAAAGAGAACTGCTCAATGTATGTAACTTCAGCTTTCCCTGCTGTGCTCGG GCAGTTAGTTACTATAGGAGACAGAGGACAGTGAGACACTCACCTCTGAATCTAGTTCTG TATCTAGTAAGTGTCCTCATGCCATCCCTACCCCATCCTCCTTCTTAAGGGAGGAATGTG GATAAGGAATAAGTAAAAAGTTGAGAGGGGGCAGAGAGATTGCCTCCCAGAGTCATGGTG AGCTCCCTAGACTCCTCTGAGTGAGGGTCAGAGGCTGCTCTTCATGCAGGGAACAGGAGC CCCAAGAAGGAAAGGGAGCTGAGAGGACACCTGTCAGGGAAACAGGCTCAATTTTCTGAA TATGAATGACAGGTACAGAGTACCTCTGTGTCTCCAGCTCCATTAAGGGTACAAATAGGA AGAAATTGCTCAGATAGCAACAGGTAAATTTTGACTTAACTGGAAGAATTCCCTGGGCAT AAGGGGAGGGACAGAAAGAGGTGGAGAACTCATTGCCTTGATGAGAAGGAAAAGTCCCCC TTTAGTCACCTACTGAACAAAGCTTGAGTGGCCTGGAAGATAGTTCCAATGACTCTCAGA GCCCCTGTGGGGTTTCCAGCGGCCTCAAAGGAATCCCTTGATCATTTCCACAGACCCCAG TAAGAGCATTGCTGAATGTCTCCTCCTCGTGGACCTCACTATTTGCTGCTTATTCTAACT CTTCTTGTTGGGCCAGCTTCTGCAGGGGTGAGGGAGACCCTGAGACCTACTAGGTGGGAG GCCCAGATTGAAGATAATGGGCTGTGGCTGTGGCTGTGGTTGGCTGGGGAAGAGTTTCTG TGGATAATGCTCCAAGGTTGGCTCCACAGAAACTGGCACTTTTGGACCCCAGGGTGAGGA AAAGGATCTTGTAGGAAGAGATAAGTTGAGATGAAGAAGAAGACCAGGGTTGTTGCTCTG ATTCTGATGTAAAATAACATGAGCTACCAGCTAGCAGTGTGATCTTGGGAAAGTTACCCC CCTCTTCTAGGCCTTGGCTTCCTCTTTAGTAAAATGTGGGTATTAAACGTGATGACCATA GAGGACTTCCCAGCATGAATACTCTGTGACACAGTCCAGTAGCAAGTTGAGAAGCCCAGA CTTTAAGCAGATTTAAGCAGGCCTGGGTTCAACTTGCAGTGCACCCCTTACGAGCAGTCC TCCTGGGCAAGTTAGTTAACCCATGTAAGTCTAGTTTCCACCCGTTCATCTGAGGGCAAT GCTATTGCCCCCCTAGGGAGGCTAGGATGAAGCACGGCATGGAGCGTCCAGCACAATGCC TGGCGCACCGTAAAGCCTGAGGTAGGAAGTTCATGGTACTGTGGGAACACAGGGGGATAG CAGCCCATGTTGTGGGTGGGGGCATCCAGAAAGGCTTTCCAGAGAAAGTGACATCTAAGC TGAAGCCTGAAGGAGGAGTAGAAATTAAGCAAAGTGGGAAAGGAAGAGTGTTCCATGGAA GAGACCCCATTATTTGCTAAGAAAAGCTTGGTCTGTTCAAGAACCGAGAGGTTTTGTGTG GCTGGGGACATGATGCATGCGTGAAGTGGGTGGGTACAGATAGAGAACACTGATGCTAGG GAGGTCAGCAGAGACCAGGTCATAAAGGACTCTGTTCCACCAGTAATTCTAGGGACTTCA GAGATAGGGTCCCTCCACTTCCTCTCCTCTTCTTCCTACTTTTCATTCATCCTTTCTCCC AAGACTAATTTCTCTTGTCCTTGGTCACACGAGCACAAGGAAGCATTGGGCTCCCCTAGG ACGACCTGGCCAGTGCAGGAAGAAGCTTTAAGTTCAGAGTTGTCTGCCTCTGGACAAGTT TTGGCTTAGGCCTGAAGTTTTCTGCCTCTGTCCTTTCTCACCACTAGAGAGAGATGTGCC TTCCACAGAAGACCCTGGATTTTATCACTGAGGCACTCCTACTAAGCACTCCCACAGTGG GCCTCAGTTTCCCCATCTGCCCCTCTCATTGTAGAGAGTAGGGAGAGTGTTGACAGGGTG GGGCTGAGCACAGCCTGCAGAGAAGAGCTAGGGAAACTGACTCAGTGCCCCCAAGTGTCC AAACGTTGAAACTTCAATGGGAAGCTCAGAGGAAGGACTTCCGAAGGATGAAGTGGGTGG CACATGGAAAAGGGGGCCTGAAGGAGGAAAAGTGATGTAGAACATCAATCCTACAGGCTC TTTAAAGTCAAGAAATGCCAGGCACTGAGAAGGACACAAAGATGAACAAAATACAGATTA AGAAGCAGTCCAGAAAAGGTTCTCTGTTTGGGAAGATGGGGATGGTCCTTCCTGGAAGGC ACAGAGCTGATGAAACAGCCTCTACAGGAGTTGGCCCTGGGGGTGCTCTCACAATGGGGA GTAGCTCTTCTGCCTCCCCTACCCGCCACTACCTCTTGGGCCCTCCACCCCCTAGGTCCA AGCCTCCCCTCATTTCCAGCCAACACCACTTCAAGTTCAAAGACAGGAAAGTGTACAGAG AAGGGCCCTTCAGCTGGGATCTGGTCAGCCTCCCCCGCCCTTCTCTCAGGTGGAGAACCC TGTCTTGGCCCTGGGACTCCAAGGAATAGGTCTCATCATACCCTCCCTAGTTTCTCAAAC TCTTCTGGTAGATCAGGTGACAACTCATTAGCCTTCAGCCCAAGAACATTATCTCCAGGG CCCTGGCCATCCTAGGCCTTGAGAAGGCTGCCAGCTGCCTGATACTCCTGAGGCTGGGGG CAGACAAGAGGGCGAGAGGCTGAGGGATAGTAATTAAGGAACTTGGCTCTACTCAGCAGT CTTCAGCACACACTTGCCCACCTCTTGGCAGGCTGAGAGGGTTTTGGAGGAATTATAGAG AGGTGGGATAAAGAATAGTGGGTTGGAAGTCCCCTTCAATTCTGGGGCTAGAGTAAATCT TACCCCACAACTCACCTGGAGAAAGGAGATCGAAGGGATGGTGTAACTTGAGCATCATCA AGGCCACTGGGGTGTGGAGAGGCAACGTGAGGGAAAAGCCCACAGGATTTGGAGACATGG GGTCTGGCTTTGCCATTAAATAAACGTCAGCAAGTGACTTTATGTCTCTGAACCTTAGTT TCTCTGATTCAGTAATATTTTTCATTCATCTGCAAAGTAGGATAATAACATCTTTATTTG CATAAGGGCCTTACAGATTTCATATACTTTAAATCTTGTAATCCTGACCACATAGTGGAA GGTTTTATTGCCTCCTTAGATGAGGAAGCTGAGCTCTAGAGAGATTAAGAGATTGACTGA AGTTCCCCTAGCTAGTAAGTGACACAGACAGGATGGCAAATAGCGGGAAAGGAGAATACA TAGGGACCTTTGTGACTCAGACATGCCAGGATAAGAAATAGGTTTCATTTGTTGGGCTAA CTCCATTTGATTGAAAATGACTCTCTGTATCACCATATTGAGGATGATTCTGAGGCTCAG TCAGATAAAAAGCACTGTGATGAATTAGTGTTATCTGCTAAGGGGTGGTGGGGTGATGAG TGATGGCTCACATGCTGTATAGTTGACATTCCTAGCCCAGAATCACCCAGAGATTCTAAT TCCTCCCTCTTTACTAACCAATTAGGTTAAATTTAAAGGTAACAGCTTACAAAGGTGACT AAAATACAGTCTGTGCCTTCAAAGAGCTCACAATCTCTAGAGGAGAACAAAGGATGATGT GGCAAATGTCCCGGGAACATAGAGGGAGAGTAACTATTTCTACCTGGGAGGTGGGGAAGG CTCCACAGTGGAGAGAGCACTGGGGAAGGGCCTTGAAGGAGGAAGGGGATTTGAAAGGGA AGACAGCAGTCTGGAGGGGAGTCTTGGAGCAGGCAGAGGATGTTCTAGGTAGAGCGAGCT GCCCGAGCAAAGACAGGGAGACAGACAAGTGGAGCACAGGCTATGTTTCACGTGGCTAGA ATATGGGCTGCACAGGGAAAATATTCCAGGGGAGGCTGTGAACAGTAAGGTGGAGTCAGA CATTGAAGGATTTTGCCAAGAAGTTTGAATTTTATCACGAAAGCTGTGGGAACTTTTTGA AGATTTTAAAGCCAAGTGATGGGGTCAGAATGTGTGCACTGAGGCAGCCGAGGACCGAGA TGAGCACAGTGAGCCTGGGTGCAAGAGAACCAGGAGACCATTGCAACACTTCAAGTGAAT GAACTAGGGCAGCCTCCATGGACATGAAGAGGAGTCATGAAGGCAGAAATGATGGACCTA GTTACCAATCAGATGAGGGGGAAGAGAGAAAGCAGGGGTAATTCTAAGGCTTGGGCACCT AGTGGAGGGTAATTCTGTGAACAAGAAGGAAAACACAAAAGAGACTCTTCTGAGGAGACA GGACGCTGAGTCTGAACATGTTAAAATTGGAATGCTCCAGGTAGCGGGAGCCTGTAAGTA CTTGGACACCCAGGGCAGAGGTGACGTGGAATCCACGGAACGGGGGAAACAGTTGAGGAA GATGGAGTACAGTGATCAAGGATGAGAGTCAAGAGTGGATGGATTCCTGAGAAACACCAA CAGTTAAGGTGCAGAGGAGAGATTACAGCAAGAGAGATGATCCAAAGTAAACACAGAGGT AGAGAAAGAACCCCGAGAACATGGTGTCCGAGAGTAACAGTGAGACTGTGCACACATGTA GTGTTCACAACCCATGCAGTGTTCTCACACATATGATCACATGGAACTCTCCCGTCACCT CTGTATTATTATGCCCCTTTTGCAGATAAGGGAAATAGAAACTCATGCATTTAAGTGATT TGCCCCAAATCACAAAACCTAGAAATGGCAGAGCTACTTAATGGCTAATCAAGGTAGATA AAATCAGTGGATTCCCACCACACCTCAATAAAAGCCAAAAGAGAGTGTTAAGAACAGACC GGTCAGTCATCAGTCTCAAGTGTAGCAGAGACTGCTGGGGTCAAGGGCTGAGAAGACACC CTTGGATTTAATGATGGAAGGTCAGCTGTGACACTGGAGAGAGCTTCCTGCTTCCTGTTG CTTTAACTGCCCCCTGCCCCCCCTAGACTGGCTGTGTGGGGCAAATGGAGTAATTCTGAA TTTATACAAGTGTTTTGTAGACTTCAAAACCCCATATTACAGAGGTGATTGTTACTGTTA TTTTTACTGTTATTAGGTATTGTTAGATTGAACCCTTTGATATTGCCAATAGGGAACCCA TGTATTAAATGGATGATTTCATAGAATTCAACCTAATAGTAAAAGGAGTGAGCTGGAGTC GGGGAAGGGGCTGTGAGGTTATGAGACAGGCAACTGCGCAGGCAAGGGTGGCCCCAGGGG ACTGGGGAGCCCCACCCCCTGATGGTTGGGGAGGTCAGTCTTCCGCATGGGGTGGAGAGT GGTAAATCGCTGGTGAAGCTTGAAATTTGCAGGAGTTCCCTTTCACCTTCACCACTTCCA CACTCCCCATCTGCAACCTGGTCAGCCCCCTCTGCAGAGACTAGGGGTGGGGGTACACTC TCGTGAGGGGCTCTGACTGAAAAAATACTTCTGGTACCTAAACTAGGTTGATCCCCTCAA CCAGCAGTCTTTGGAGATAAGTTGGGGATGGATTCTTCCTATGGGGAATCTCGGGGCCTA GGCCAGGTGATGACTGATTGGAGATCCAGGCAGAGCTGACACAGGAAGGAGGGTCCTGAA CAGACTTCTCGTTTATCACCTTGACTCTCCCTAACCTAGCTCGGATCCTCTTGAGATTTT CCCTAGTGTCCTTCGGAACCTTTTCAGCATCGCATGTCTTAGCGGTAACAACAGGAATAA CAATAGCAACAAGAGTTATTTCTATAGATGCCATTGCTTCCAGCTGACTCTTAGCACTGA TACTAATTCTTCTGGCTGTTCAGTTAAGATGAGGAGGGATGGGTTAACATCTCCCAGTAG ATGTTCTTCTGAGGTGAGGACCCAGATGGGGCCAGGCTGGGAGGCTACTGGGATTGCTGG AGCTGGGGCTGAGGAGACAGTGGTATAGCCTCTGTCCTCAGTTGAACCCTGCCTAGTGCC AAGCTCCTCACAAAGGACCAGCTCCTGTTGAGCCTTGCTGGCCCAGACAATGATTAGCAG CAGATACCGGGATGGGGTGATGACTCAGGAGGGCGTGCAATAGGGGTAGTGTGAAAGGTT GAGAGGGCAGGTGCATCAAAGAGGCAGCACCCACTTGTCACAGGAACCAGGAAGTCCTCC TCCCTCTCCAGCCGGCGAAACAGGGGGTCCCCAAGATGCCATCCTGTGGGCAGGTCTCTA CAGAACATTGTTTCTTTCTTGCAGGGGACAGAAGGCACCGCTTGGGGATTGAGGTGGAGG AAGGGGCAGTGGTCCTAGTCAGCTCACATTGACAGGCAGGGGTGGTGTCTGGCCAGAGAA TATCTGATGTGGCCCCATCTTTTGTCCCTCCCTCTCTTGACTGGAAAACACACAGGCAGG TCAGAAGGGCCATGCAGAGGTTACAGACTCCCAGGAAATGCTTTGAAGGCTTTTATCCTT TCTTTTGATCAGACTATGAGAACTTTCCAAACGTTGACACAAGAGAAGAAAAGCCTATTC TTCCATGGGCCAGGGCCTCGATGTCAGGCTGGGGCTAGAGGATGGGAGGGAAAGGGGGAA GGAGACCAGGGAGTGGGAGACAGAGGCAACAGTGATTCAGCTGGAGAGTCAGGCCCCAGG ACACACACACACACACACACACACACTGCCCTCTTTTTCCCCACCTCAGGATTTGTGTGC ATCTGGCTCCATTTCTATTTGTTTATTTTCCTTGGGGCAAGACAGGAGGCGGATTAATGA ATAAAGACATCAAGTTTGAAAAGAACCCCAAATCCAGCTCCATTCTTCTTCCAACCTTGA GGGCTTACATAACCATGCAGTGCTTTTCTTCCTGCCCTTCCTCTCTTACCCCTCTCCTTC ATTTTCTCTTCCCCAACCCTCATTAAGAACACTTGGAAGCCCAGAAGTGCTTCTTTTTCA TCCCAATGCAACTGATCTCCTTCTGGAGGACTCTAAGGTCGCTATTCAAGTTGGAACTGG TATCCAAAAACAGATAATATGGTTGGTGAGATGAGGCTGAGTAGCTGTTTGCTCTCTCCA CCGAGGCCGGGGGGAGGAGTGGGACCAGACTGCTGTGGAGGCAACTTGGGCTAGACATAG AGATTTACAGCAGGAAGTGACCCTAATCATCCTCTAACGTAGCACCTCCCAGACTGACCT CGCAATGTGTCCTGAAAGGCAGAGGAGAGGGAATTTGTGCCCTAGAATCTACAGGGATGA GCTGTAAGCGGCCACACACTGGACATCCTTGAAATCTCTTTTTGTCTCAAGCCATTCAAA ATGTTTATTCTACTTCATTGTACATTGTTGGCATAATATTAAAACAACATTTTCCCTCAA AATCTGAGCAAAATTGATAACTTCAGGAAATATACTAAATTTAGTCCTGTGGCTTTGAGT GCCTCCTGACATACTAGTGTATGCCCTAGTTTGAGAAGTGTGAAACTAATACCAACCCCT ATTCCACAATGAAGGAAATACAGATCCGAGAGGCTGAGAGGCTTGACTGAGGTCACAGCT AGTCAGTGGCAGAGTTGAGATCGGCACCCAAGTCTCTTACTTCCCAGTCCAGTGCATGTT CCACCAAGCAGTGCTGTCTCTTAGTTCTGAGTGGCTTTTACACATCCTTGAGCCTAATTC TCTCACTCTATCTTCAGAATACTGGGCATGGACAGATACCTAGCTCAACTGTCTAAGATA AGTGTGGGTGTGGAGACCAGCCTAATCTCAGGTGCTGAGACATAGTGCTCAAAACCCCTC TACTGCATACAGGGCTCTCCCAACATGGAAGAGGAAGGAGAAGGATAGGACAGGAAGGGA AGGAAGAAAAGTACTGCAAGGATTATGTAAGCCCTCAAGGTTGGAAGAAGAACAGAGCTG GATCTGGGGTTCTTGAGCATGATGGACAGATAGTAGGACAGAGAGCAAGCTGAGTCCCTA TTTCTATCCACCTATTCATTTGTCTTTACCAAACAGTGATTGGTTCAGAAAGACCTTCAA ACCTAAGATAATTGGATTAGTTAATAGCTATAGTAGGCACTGTTCTTATTTTCCAGGAAT CTGCCTCCCTTTCTGATCTCATTTCCAGATCCCTCAATCAAAAGGCTCTTTTCTACAGGG AAGAAGTAGGGAGAAGAATAGGAGGCTTTTGGGCTTAGAATATCTCTATTAATATGGACA CATAGGCTGTGTGATACAGAAGAAGAATAGAAGGATAAAGTGTGGTAAAGAATTTGAAGG CGAGAGTTATGATTAGATGGATAGCATACTATTACCAGGATGAGATACAGGAAGCTGGAG AAACCATAAGGAAAAGAAGGGACAGCCAGAGAGATGTGTAGGCAATACAAAGGCAAAGAG GGAGGTGAGAAGGAGGAACGGGTCGGGGAGACATTTTAGTGACAGCCAGGATGAAAAGAG AGGACAAGCAGAGAAGCACCATTGATAGAGATGAGAAGACCGTTGGGAGGAGAGTCCACA TGAAGGAAGTGGGGAGAATAAAGACAAATCATGCAAAACTAGGAGAAACAATGGGATCAA GCAGCCATGAAGGAAGGGCGTCGCCTCCAACCCTTGGATACATCCTGGGCATCACTGCTG GTGAATTTTGCATACCTGTCTGGCTCCTGCTAACCTCCACTATGCTTAAGGTGTCATCTC TGCTTGTTGAGTGTTGAGTTTGCTCAGTGAAGACAAATAAACTATAGTATTAATTTGAAG TAATGGTGGAAAGGACTTTGGAATCCAGCCAGGAAGAGGCATAAATTTCAGCTCTGCTAC CAATAAATTGTGTCACCTGGGCTCTCTGAACCTCAATTTCCTCAGCAGTAATTATGAAGA TAATAAGATTTGTTTTACAGAGTTAAAAAGATGAAATATGAAGTGCTGGTCTACAGTAGG CATTCAATACATGATAGTTCCCCTCCATCTCTCCTTCCATGTCCCTGAACCAAACATTTG CAAGAGGAAATACTCCACAGTCAAAAAACAGAAATCATCTAGTGGCTCTAAGAAAGAATG ACCAGCAGGCTAGGCCAGACACCGTAGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCT GAGGCAGGTGGATCATGATGTAAAGAAATCGAGACCATCCTGGCCAACATGGTGGCCAGC TGGCCAGCTGGTTATGGTGGCTCATGCCTGTAATTCCAGCTACTCGGGAGGCTGAGGCAG AAGAATCGCTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGCATCACTGCACT CCAGCCTGGAGACAGAGTGAGACTCCACAAAAAAAGAAAAGAAGAGAAAAGAAAAGACCA GACCAGCAGGCTGGAGCACCATGGAGGAAGCCAAGGCTCTGTACCTGACCCTTGCAGGAG CTGCAGGGCCTGACCCTGGCCCTGCAGCTGGCCATGAAGGAATCCACAGGGGCTGGCCAC AAAGCAGGAGGGTGTTGAGGGGTCACAGCACATCACTGTTTTCCCAGTGTGTCCTATTAA GATCTTTCATGTGCTCCCAACGCTTCAACCAAAATGAATGGATCCTTATTTCCTTATTTC CTGGGTGGCCCTGGATTTCCTCATCTTTCCCAACCCTGTTCCCTTGCACTAGATGTCAGT TTTCCCTTCACAAGCTCTTCTTGTACTTCACTGATGCCTTTTCCATGGCACTTATCACTT CCTGCCTGTTTTACAGTTTTCTCCTTTATTAGATTGCAAGGTCTTCACGGAAAGAATCTA CATCTGATCCATCTCCATAATTCCATTGTCTTGTTTAGAATTTGGCACCCAGTAGTTGCT GGAAAAAAAAATGTTTACTGAGGCTGGGCATGATGACTCATGCTTGTAATCTCTGCATTT AGGGAGGCTGAGGTGGGAGGATGGCTTGAGCCCAGGAGTTTGAGACAAGCCTGGGCAACA TAGTGGGATCCCATCTCTACAAAAAAAAAAAAATTAGCTGGGTGTGGTGGTGTGCACCTG TAGTCCCAGGTACTCAGGAGGATGAGGTAGTAGAATCACTTGAGCCCAGGAGGTCGAGGC TGCAGTGAGCCATGATCACACCACTGCACTCCAGCCTGGGTGACAGAGTGAGACCCAGTT TCAATAACAATAACAAAGTGTTTATTGTATAAATGAACAAAAACACAGCTCATACTGAAT GTGGTGGGCAACATTAATACAGATGAAAACATTTGGTTTGTTTGCATACCTATTAGTGTT GATAATTAGTTATCTCGGGTTTCCATGTGTACAAGGAAAAAAGAAAACATCATTAAAAAA TCAAGAGAAGATACAGACAAGAAGGGGGAATGAGAAGGCCCCAGAGTGAGAAGTGCTGGA CCAGAGTGAAGTTCCATCCATTCTACCTAGGACAAGAACTTCCACATCTCCCTGGCCCTA TGATGATGGAGTCAGTTAGATTGGCCCCTATGGCTGGAGTGGGTTAGGAGTCCCCTCCTA CTTTTAATTCAATCATAAAATACTTCTTGAGCACTTACTATGTGTCATACATTGTGCTAA TCTTTAGGATAACATATATATATATATATATATATATATATATATATATATATATATAAA TAAATAAAATGCTGGATCCTTCTTTCAATGACCTTATTTGTAGTAGAATACAAATGATAC ACCATGTACTAAGAGCGGTGCCATTACGGGTATAGTTGGATATAGATATACATATATGGA AACTCAGAAAAGAGAGGCATTACTTAAGGTTGTAGGAATCAGAGAAGGCTTCATGGAAGA GGGGTTATTTGAACTGGACTCTGAAAGATAAGACTTGGATAGGTAAAGACAAGGAGGAAG GGGAGCCCAGGAAGAGAGAAGTGCAGGATCATGGAAGGCAGAAAAGCATGGGAGTGCACA GCAGGGAGCAGGGAGTGGTTGGTTTGCTTGCAATATGCAGTGTGCCATAGCAGAAAAGTG GTCGGAGATAAGGCTAGAAAGCAGGTTCAGAAGCAGACTGCGGAAGGCCTTATATGCCAG CCTGGGTTTGGCCTGTCTTTGATAGATAATGGGGAGACATTAAAATGTTTTGAGCTAGAG AAAGAACTAAGACAATTATAGTAAAATGAAAAGTGGATGGATTTGGGAGACGGGACCTGG GCATGAATCTAATTCCACAGTTTACTGAGTCACACCATCTCTCTGAGCCTCAGTTTCCTC ATTCGTAAAACAAGGATTATAATCTTAATATTTCATAGGAATGCCATGAGAATAAAATGT GAAAGTGCTTTCTAAAGTACTGGATAAATGTTCATTGATTCCTGATCAGAGGTGTATTTG AGGAAGAGAAACCCAGGAGCAATGTAGGATGGATTTGAGGAGAGAAAGAACAGAGACATG AGATGAGTAGGAGGCTGATGCAGTGATTCAGCCACAAGGCATTAGGACCTGAAAAAAGAC AATGGAATGAAGGAGAGGAGGCACAAATAATAAATCCACAGCACATGGCTTTAGATAAAT GTTGAGTTGAGGCAAGAAGAGAGTTTGAGATGATCCTGGCTTTGAGTGTGGGTAATGGGT AGGATGATGGTCCCTTTAACTATTTTAGGAACCAAAATAGAGCAGCAAGTAGGAGAAGAA AGGATTTTACAATTGGAAGTGAATGCATTTAGTATTCATATCCCAAAGCTCCTTTCAGTC AACTTGCTCTTGCAACAGAGAAAACAGACAAAGCACTTTCCCTGTGGGTGCAGCTTTTCC CCTCCCCCTGCACCTGCTGCCCCTGGGAGGGGGTTGAAGCATCTTCTCTAGTCACCTAAT TTAGCATAATCAACTCCAATGCTCTGTAGCAATTTACAAAGGTCATTCTCTCCCCAGCCC CCTGCAAATGGACAGTTGGCCCAGAAGAGAGCAGGGACTGATATCTTGGGCTTTTATTTT CTTACCTTCTGAAAACAGGGTGTAGGCATCTGCAGCACTAGCAAAGCCTGTGTAAACCTG GGTCCCCTCGCACTCTGAAGTGGCTCCTCCTGAAGGTCTGTGTGAACTAGGTGTCTCCTG TGAGGCAGATAAAAACTGCAGCCCTCAGGGGGGCCTTGGCCCGTCCAGATCAGGCTTTCA GTCATTCCCTTACTCTTTCTTAACAAACTATACTAGGCACTGGGGAAACAGATGAAAGGC AGAGTCAGTGGTCTTAAATTAGGAGCACAAAGATGGTAAACAATGATAAACAAACCATCT CAAAGCACTATAATGCTTCAAAATAGGAATATGTACAAGAGGGCCAGGTGCAGTGGCTCA CACCTGTAATCCCAGCACTTTGGGAGGCCCAGGTGGGCAGATCACTTAAGTCCGGGAGTT TGAGACCAGCCTGGGCAACAGGGTGAAACCCCGTCTCTACTAAAAGTACAAAAATTAGCT GGGCATGGTGGCACATGCCTATAGTGCCAGCTACTTAGGAGGATGAGGTGGGAGGACTGC TTGAGTCCAGGAGGCAGAGGTTGTAGCGAGCTGAGATTGCACCACTGCACTCCTGCACTT CAGCCTGGGTAACAGAGTGAGATCCCATCTGGCGGGGGGTGAGGTGGGGGAAAGAGAATA TGTACAAGAGCAAGCATAGTAAAGTAAACCCATTCTGGGCAGGGATGGGAGGGACAGAGA AGATGAATTGTTTTTTTGAGAGTCAGGGAAGGCGTCAAAGGGAGTAACTAACAGTTGAGT CGAGTTCTGAAAGATAAGGAGATCATCAGGTAGGCACGGAGCAGGGCAGTGCAGAAGCAG GTCCAAAGGTAGAAAGGATTGGGTAGTGAGGCTCTGCGTTGGAGTTCAGGGGGCCTGTGA AAGATTGTCAAGGGTAAAGTCAGAAGTAGGCAGAGACCAAATCATGAATGGTGTGCTGAG AGGCTACAGAGAAAACAGATAAAGCACTTTCCCTGCTGGTGCAGCTTTTCTCTTTCCCCT GTACCTGCTGTCCCTGGGAGGAGGTTGAAGCACTCTTTCTAGTCAGAAGTGTATTTGAGG AAGAGAAACCCAGGAGCGAAGTAGCAAAAAGCAAAGGGGAGCCACAGATCAAGTTATTGA GAGTCACAAGAACAACAGTGTCCTTACTCAAGAAAGGCCCTGATAAATCCATGTATTATC CTGGAGAATAAATGACTCTCAAGTAGAACAAATGACTCTCAAGTAAAATAAATGAGTGCA CAGGCAAAAAAAGACAGCTTCAGGAAGAACTTCCGGGGGTAGCAGTAAGTGGGAGTGGTA CTTGCTGAGGGAACGTGCTGATCATCACTGTAGCTATGACTGGCTTTGTTTTAGGGAAAG GATCACTAGTTCAGTCTTAGAGGAGAAAGAAGGTGAATATCTCTGTTTCTGTCTCTTTCG CCACTCAGGCTGGTCTTCAGAATTCTGTCTCTGGTATTTGGCCGGCTGGGACTGTTTTGG GGAAATAGCACCCTCTAGAGGAAAGAGTATGTTTTATTTTGCGGGGGTGCCCCGGGGTGG TGGGGTGCGCAACAGATGATTTCCAGAGCTTTGGCTCGATTCCTTCCCCAGGGGCCTGGC CAGCTTTGGGGTGGAGTGTAGCTGATTGTTTATCCGCTTCTGACTCTGGCCACCGCAGAG AACAAAGCTGCCTGGCTGTGGGAGGTGGCACAACAGCTGGGAGCAGCAGATAACAGCTGG AGGTGGCAGATACAAAGGCTGGCAACCACAGGCACTACAGCTGGAGGTGGCAATCACAAC AGCCAGAGGCAACAAAGAGGCTAGCAGTGGCCGAAATCTCCAGTACCCTTGAGTCTAGAG CCTTAACCCTGGGATGTGTGGTCTTACATACAGCGTACCATAGTGGCACCTGCTGAGAGC ATGAGGTCCAAGAGAATGAACCTGGGGCACACAAAAGCAGTTGCTACAATTAAAAAGTTC TGGACCAGGAGCTGGGAGACCTGGATTCTGGTTCCAACTTTACCACTAATCTACTTGGGG CAAAGCTCTCTGAGCCTTAGCTTCTATGGTGTCTTTCTTACCTACCTCATGGTGTGAGGA TCAAACTATATATTTTATAAATTTTAAAGTGAGAAGGAATTATAGACTAATATTTTGGGA ATGATAAGCAAGGCTTTTCTTGGGCCCTAAGAGCTTCCATTCTCCAAGATATGTAGAATC TCCCCTCAACATAAACAAAGCTAGGACTTCAGTAAAGGATCCCTGAATGTCACCATAGAA AGTGCAGGGGTAGAAGTGGGGTGGAGAAGGCAGACATCCTCACCCACCATGGGTATAGAC AGAATCTTCAAGACAGTCTTTCAATCTCCCATCCAAAGCTTTTATCTCCGCCATAGGATC TCTGCAAAGTGCTTGTCCAAAGTGCCTTCCTGATTGTTACAATGCTCTTTATAATATCAA CTTGCAATCTTTATCCCTGCAGTATGAACTCCCTGATTGTTCCTCTTGGAGCTCAAAGGA CAAGTCCAAGCCTTTGATCACGTGATAGTCCTTCAAACCAAATATTTGCACACATTCATT ATATCTTTCTGATTGTCTCTTCTCCTGAATCAACTTCCCTATTTCCTTCAATCATTTCTC ATGTGGTCTGGTTCTGAATCCTCTCATATCCTGAGTGTTCCTTGATGCTGGATACTGCAG GTGTGGGATGAACAGAGCAGAGTAGAATCAACTACTTTTTTGTTCTAGGGACTTCAGTTC AACTGAAGGAGCTTAAGATTAGTTTGCTTTTTTGGCAATCAAAACACATGAATAACTCAT ATTGGATTATTTTCTGCTAATATGTTTAATTTTTTTATATTGTACTGCTTTGCTAAATCA CATCTTCTCAATCCAGAACTTGCTCAGGTAATTTTTGGACCCAAGTACATAATCCAGCAC TTAACATTTTTGTTAGACTTGGCCTACTTATTTGACTCCTTTTGGATCCTAATTCTGCCC CAGCTCTTGCATTTGCTATCTGTCCCAGCTTTCTGTCAGGCACACAATTGATGGCCATAG CATTCTATAGTTTTGAATGAAGTTCATGTTAAGAAAATTGAATAGGGCAAGGCCAAAGAT GAAGCTCTCTGGTGTATCAATAGAAAATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNGGTTTTTATTTATTTTATTTTATTATTATTTTATAAATAACACACCCCCCCG CCCCCCCATGACCACCTCCTGCATGCACGTCGACTCTAGAGGATCCCCCACCAGGACTAC AGTCGGACTCCAATCCTGGCTCCTCCCCGGGCCCCGGCCCCGCCCCAGTCCCAAGCCGCA CCCCTTCCCNGTCCCCGCAGGGCTAACGTCAGCCTCCAATCCTGGCTCCGCCCTGGACCC CGGCCTCGCCCCGCCCCTGGCCCTGGCTCCGCCCGAGGCCCCCGCAGGAGTGAGCTAACT GCACCTCTGCGCATCGAAATTCCCACCCACCCTCGCACAGAGCGCATTCCACCCCGCACC TGCCAGCCTTTCCTGGAGAGTTGGGTGCAGGGTCCCTGGGATTGGCGAGGTGACTGTGAC CACGCATTTAGAATTCAGTTATTTGCTCTGAGCCATAGTCCTCGCTGCAAACCCTGCTGA AGTAGGGGTTGGCGGAAGCCAGGAGTTCCTGAATGCGAAGGGTTTGAGCTGAAGGGCGCT TCCAGGATCCAGAAGGTCACTGGAGACCTGTTTTTCACCCCCTCAGAGGGCAAAACCAAA AGAAAAATGGATTAGGAGAGGGGGCCGTCCATGTGACGTCATTTCTGGGTTGGGTGATCC TAGCCCAGTTGTTTAACCTCCTTCAACTTCAGTTTTCTCCTCTGCAAATTGAATTGAGGT TGATCACATCACCCAAAGGGTTATTGTGATGATAGGTAATGTACATAAAGTGTTTGGCAC AGGAAACTAACACAAAATGGGAGATAAGGATTATTTTGTTTTAGGTTTTGAATTATTATT TGAACTGCTTCCTAAGAGGCTTAGTTTAGACCTGGCATTTAGGTGAAGGAGTCTCTATGT TCAGTGACAGTGGGAAGAGATGAACATTGCTCTGTTCTAGGAAGAGTGGGGCTTGCCCTG GAGGTGGGAGAATGGAGGAGGCACCCTTCCCAGGTGCTCTGTCTCTTCCTGAACTGTAAA GATGGGAAGTGGGCAGGGGCAGGAAGGATGAGACCAGAATGGGGAGAAGAGATGGCCAGG TTTGCAAAGCCAAGGCTGTCAGAGTGGCTGTCAGTGGGAGGTGACCCCAGAGCCCATTTA CCACCCTCTACCCTCCAACATCCTCCCTCTCCCCTCTCATCCCCCTTCCCTCCCACTCAC TCACCCCCCTTTACAGAAGAGGAAACTGAGGCCCAGAGAGGGTAAGTGGCACAGGCCAGA CCAGACCTTCCTTGACATGGTATTCCTCAAGCGTGGCACAGTGCCTGACTCTGAGAAGAT GCTCACGGGGTTGCCAGTAGAAGCCACATTGAGGAACCCTGGAGAAACCAGAGAAACTGA GGCCTTGAAGGGAGATCAGAGGTCCAGCCCTCACTTCCCAGGACTGCCAGCACTGGCCCA TGAACAGGGCAATAAGGTGCCTGTTTATTCCCACTTTGAAATATCCAGAAGGTTGCTCCA GAACCTCATCATCTAAATCCATCCACAGGCATATCGAGCTATGTGAAAACTGAAACTCAT AGGGGAAGCTTTTGGAAGAATACGTCTCTCCCTTTATAATGGATTTAATTATCGAGTGGA TTTAATGCCTTCATGATGCTTGAGGGATGAAAGATGTTACCAATTGTAATAATGATAGAT GTCATTTATGAAATGCTTACACAAGAAGGCCCTTTTGGATATTAGTCCTAGTCCTTATAG CATATTTTGCAAGGTGGTGTCATTTAACAGAAGAGAAACTTGAGGTTAGGCAGGTTAAGT ACCTTGCCCAAGGCCACACAGTTTTTAAGTGGCTTAGGGGTGACTTCAGCCCAGGCTTGT CTGTCTGTCCCCAAAGCCCCAAATCTTCCTACACCTCACTGTCCCTCCTCCCAAGCCTCT CCACCCTGTAAACTCAGTCATTCAACAAATATTGATTGGGCCAGGCCTTGTACTGGGCAC TGGAGATGCCATGGTAAACAAGGTGGGCCTGCTCCCCTGCCCTCAGGGAACATAGTTCTA TATGTTAGGGATACATTTCATAAACAAGTCATAACCAACCCCCAGTATGAGTATGATGAG AGGGGTCTTCAGGGAGGTGAGGTATCCTCTCTTACCCTGTGGCCTGGGGCTGGGAAGGAG CTGGGGGCAGGTTGGCGTTGAGAACTGGGTTGGTGTCTCCCTCCAGAGGGGATAAGGCCC AAGGAGAGAACAGTGTCTTCAGCAGGCCCCTCTGGAACCCAGGCCCCTCTGGAACCCAGA CTGCGGGTTCCAGAGGCGGCCAGCAGAGGGAGCCCACAGCCCAGGCCTGACGGACCCCTC AGCTGCTTATGTAACTGGGAAAGCTGGGGGAGGAGAACAAACCCCAGGCACGAGGCACGT CACACACACAGACACATGTCCCCACTGTAATGGAGCGGGGATCAGACAGAAAGACGGCTC CCAGAAACACACCCCCACAGAGCCATGGGCAAACACACACAAGCTGCAAAACAGCGATGC ATGGTGTAGATTGGAGGGCACTCATCTCATCCATTAAAAACACACACCTAGGCTGGTGCC CGAGGGTGGGGTGAGCAGAGAAAGGAGGAAGGAAGCCCTTCAGTGAGTTTCCAGGCCAGA CTGAGACACGAAGGAGGAGGGAGCCTGGGTTTGCAGAGAGACCTGGCAGGTATGCAGTAG TGACCATGAGGGACCCTGATGCCCGGCTGGGCTGTGTTGTCACTGCCATCACCAGCTTCC CACCTGCCCTCCATGTACTACCCCAGGCATGGGCCTGCATCCGACACCCGTCCTGTTTCA CATGAAACAGGTCTCATTTCACCTCAAGATGACATATACACAAGACACCAAGGTGACACT GAGGTGTCATGAGTATTGTTAAAGATAATTGAGACCCACGCTCTGCCCAAAAGCAGTTTA TAATCCAGCTGAGATGTGACACACCACAGTCACAACCAAGCAGACAGCTCTCAGAGAGGA GCACGTTCAAAGACAGGACCATTCACATATGCTGACCTGTGTCAGGCACTAAATGTGATC TCATTTATCCTCATGTGCTATTATTATCCCTGTGAGAAAACTGAGGCATAGAAAAGTTAA GAAACTTGTCCAAGGTTAATGCATTAGTTACTGTCCACACAGGGATTCGAAATGGATCGC CTCACTGTGGAGCCTGTGCTTCTAACTCCTGTTATGTTGCTGCTTAAAGACAAACGTCAC TAGGGACACAGTTAAATATGGGCTTAGCACACATGAGTATACACCAAGCTGTAGACACAG ATACTGCCGTGGGGACAAAGTGACAAATACATCAAATACATAAGCACACATGCTCGTCAG ACTGTCAGACATATAGAAATGGCACAAGCATACACATAGGACTCAGCTCTCTCTCTTTTA AATGTGTATCAACCGTAGCTTTGTGGGGAGCTAAGGATCACACACAAGAATGTCCTGTGA TTTGTGTGTGTTTATAAAGCATTGGCCCATACTGCCCTGATGAGCTATATTTTCCCACCC TCCCAGAAGGGAAGATTCTCTCTGCTGAGTTGCTGAGAGGCTCAAGCAGAGTCAGAGACA GAAGTAGTGCAGAAACCTACCCTCGCCCTGATAACAAACTCATTCAGAGACACACTGAAA CAGAAGTGCACACACAAAGATAAACACAGAGACATTATGCACACCCAAACACCAAACACA CTCACAGAACCACAAAGCCATCTCCCCCCCGACACACACACACACATTCGCTTTCCACCC TCTCCCTCCCCTCTTTTCTCCCTGAGCCAGGCATCTGCACCTTCATGGTGAACTGTGTGT GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTCTACTCTCTGAACCCTCCTCTT TCCCTGGCTAGGCCCACACTCCTGCCCCCATTCTTGAACCCTATGCCAAGGGGAGCAGCA CAGCTGTTCAGGAATAGCAGAGCCGCGATGCCACTGGGGCTTTGGCACGACCTGGCCCTG ACTCCTGAGGGGGCCCTGCCAGTTCTGAACCAAGGATTCGTGCCAGCTGCCACCCACGCT CAAATGCCACACATGGATTCCTCAGAGCTGGAATCCCCTCGGTCTCCCTTCTGACCTCCT GACAAGTTCTTTGTTCCCCAGTCCCATCGGGTGGGTGCTGGGAGCCTGGGCTCCGCCCCA GATGCTCACCCATCCCACTTCTCCATTCCCAGTCTGCTAAGAGGGAACTGACAGCTCAGA TATATGTCTGGAGGGTAGCGTGGGACTGAAGCAACCCCCACTGTGTGATATTACTTCTTC TCTACCCTGAGCAGCCTAGGGTGGGGTGGGGGTCAGCCAAGGGCAGGAGATGGCAGTGGT TTGGTTAGACAGAGGTTTGTGGGCTGAGTGTTGTAGATGAGCCTCAGGGGGCAGGAGGTG GGTAGCACCAGGTGACTGCCAGTCATTTACGAGTTTGTCTCCACCCAGCTCTGAGTGGGG TGAGAAGGGAACAATTACTAATACCTACAGAGCACCTACTTCATGCTGGGCACCGTTGCA CACACTCTGTGCACATTCATTCATTCAGCTTTCACAACAACCCCATGAGGTGAATACTAC GAGTATCTCTATTTTACAGCTGGGAGACAGAAGCACAGAAAGCTCATATAATTTACCCGA GGTCACACAGCTAGCAAATGGTAGCACCCAGATGCAAATGCAAGCTACCTGATGCCCAAA CTTCAGTTTCCCAAACATTCTTCTTCCCTTCTTCCTCCTGTTTCCCTAGCCTGCCCACAT TGATTCATACATACATGTGCATATATTCAGGCACACACATGCATATCTGGTGCCTATGCA ACCTTCTGAAATAACTTTTTCCACTACACAGCTCCAGCTTCCAGCACATAGTGAGTGTTC AATAAATATGTGTTGAATGGATGAATGCAGAATTGAAGGCCCAGGGAACAATGAGCGTTG TGTGTGTGGTGGTATGGGGAAAGAGGGAGGGGAAAGGAGGGATTTCACACACACACACAC ACACACACACAGACACACACATACACAGCCCTCTGCTGTGAATAATGTCAAAGACTCACT TCTAACTCTGGGGTCCCAGCCCTTCACAGCTACCTGGGTGGGAAAAGAGCAATGTAACCA GGCTTTACAGGATTCTCTGAAGTGGAAGAAGTCTCAACTCTCTCTTCCAATCAGAACAGA GGACAGGAGATGCAGAGAGAGCTCTGGAAGAGGACTCGAGGCACACAGCCACCTGGGCCT TCCAGCCAGGCACAGCTCATCCTGTGTTTTCACCTCTCCCTGCCCCATGCCTGCCGCGCT GCAGGCTCTCCCCTGGCTCCCTCGGGACAGTCCCTGCTTCCTCTGCTTGTCCACCTGGAC TCTCCAGGAACCCGGCACCCCTTGGTTATTTTGGCTGAAGAGTAGACAATTCTCCTTTTC CCTGTTCCAACTGAAACAAGGGTGGAATTTTTCCAAAGGCTCTCTATTAGGAAAGTGAAG GGAAAACAAAGCCAGAAATAAAGACTCTGAAAAAACAAAGAAACAGATGGAACAGTGGGG GTGACCGAGCTGGCCATGGGAGAGAGCGGGGGCCCAGAGTTTTGATGCTAACGCGACCCA CCCCCTTGCTCCCACTGCACCCTGTTCTCAGCTCCTTGGTAGAGTTTCCCACTCTGCATT GTAATTACAGTGCTTGTTTATATCTGCCTCTCCATCCTGGCTGTGAGCTTCTCAAAGCCA CTGTTAACTCTTTTTTGCCTTTCCCCAAAGCCTACAGAGTTTCCTGGCAAGGAGTAGAAG CTCAACAGACATTTGCTGTGTGACTGAGGAAGTGAGGACATGCCGAGTGACAAGAGAAGG AATCTGGGCCCTTCCTCTCTTGTGGTCATGTCACCTCCACAGTGGACACTGTTAGTTCCT CTGGAGTCCATCATACACTAGTCACTTCCATCTACAGCTGATAGAAAGTTCCTCCTCTTA TTTCAGAACCTGAACCTTCCACCCCTCAGGAAACAACCAGGCTGGCTTCCTAAGCAGCCT AGGAAGGGCTGAGTTCTGTCCTGTAGGGCGGGAAGGACGCTGGAGATCAGATCAAGCTGA AAAAGAAATCACAGTCTGAAGGCCAGGACATTGGAAATCAAGGGCATAAAATAATTGCTA ACCTTCACTGGGCACTGTAATTCTCAAAATGACTCTATAAGTTAGAGCTGTTAAAAAAAA TTGAAGTTCAGAAAAGCTAAAAAATTTGCCCAAGCCAGGCACAGTGGCTCACACCTGTAA TCCCAGCACTTTGGGAGGCCAAGGCCGGAGGATTGCTTGAGCCTAGGTGTTCCAGACCAG CCTGGGCAACATAGCAAGACCCTGTCACTACTAAAAATTTTTCAAAAAAACAAACAACGA GCCAGACATGGTGGGCACCAACTATAGTCCCAGCTACTCAAGAGGCTGAGGCAGGAGGTT TGCTTGAGCCTAGGAAGGTGAGGCTGCAGTAAGCCACAGTTGCACCACTACACTCCAGCC TGGACAACACAGCAAGACCCTGTCTCAAAAAAAAATGTGTCCAATTAGTGGTAGACCTAG GATTTCTTCTCCGGGCATTCTGACTCCACAGCACAAGCCTTCAGCCATGTTGCGGGCCGC ATCTATACCATACAAATTATTGTCCTCAGAAGGAGCTGGGAGACAACAAAGATGTAGAGG TCCAACCAGCCAGCAGGGCAGGGTGACAGGGAATCCAGCTGGTACTGAGGCCCTGAGCAC TGGCATGAAGGATCCCAGCTCCTGAACTGGATAGCCCTGGGGAAAGGGGACTGGCCAGAA CGAACCTGGAAATCAGGGGATGAGCCAGGTTACCAATCAGGAGCTCAGGCGTAAGAAATA AAGCTTCTGTGTTTTCAATTAAGTAAAAAGCTTGGGGGCTGGGATTTCAGAAGCAGACAG CACAGACCTGAATTTGCCAGCTGTGTAGCCTGAATCCCGTTACTCACTTTCTCTAGCCTC AGTGTCATCATCTGTAAAGTGAGAATTACTAGAGTACCGATCTCATTATTTTTTAAGGAT TGTTGTGAAGATGAAATGAAAACATGTGTGTCATGGTGCCCCATTATGATCAAAGCTAGG GCCCACAGGCGCAGTGGGACCAGTGGCAAAGGAGAGGAGACTTCTAAATGGGTCTCTACT GTTCACTGCTTCCTCCATCTGCTGTCTCAGTTTACCCAGTCTTCTTTCCCCTTCCATCTC CCACAATCCCCTTGGGAGAGGATAACCTACGCCCTGCCTCAGCTTCCTCACCACACTCCT CAACGCTTCACAGGTTTATTTCCAAACTCAACCTGACATGGAAATGGTTTTCCCAAAGGA CACACCAGTGACCTCTGAGTTGACAAAAAAAAAAGTGACCAGCTTTCCTTTCCCCCTGGC ATCTGAAATCTGAAACTGTTAGTTTTTTGCCCCTTAAAACTTGTTCCTCTCTCAGCTTCC TGGCCCCTCTACTCGGCCTAATTCTCCATCTCTCTGGCTTCCCTACCTTGCCATCTTCCA GATCCTCTTCCTCTACCATAGGTGTTACTACCCAGGATCCTCAGACCTCTGTCCTCTAGC TCCCCTGCCTGGGCCATCTCCTCTGCTCTCCTGGCTCAGTGTTCCCCTCCATGCAGGGGA TTCCCATGGCCCATGCCCTCTCCCAAGCTCCAGTCCCCATTTCTATCACCCCCCACGTGC CTTCATCTGAAGCCCTGCCTGGAGCACCTCAACCTTCATATGCCCCCATGCAAACTTGCG GCTTATTTCCCAATCTCCTTTCTCCCCTACCCTTATTTTAGTTAACTTTGCACCAACGTC CTCACCACCCCCACCATCTCCAACGGCTTCCTTCCTTACTCTGATGTCCAATCAGCTGCC AAATACTGAAATTCTACCTCCCAAACATCTTTTTCATCCATCCCTGTCTCCTCTCTGTCT TGCTCCAGACCTTCACCACCTATAGCCCCCATCAGTCTCTCCCTTCCAGCCCAACATCCC GTCCACGTACAGGCACACACCCTGCCATCAAATGAGCCTTCCTAGAACGCAATTTCAATG AGATTACTCCCCTGCTGAAAAACTTTAAGTGGCTCCATATTGTTTATAGCGATATTTCTC AAACTTGCTTGGTGGTAGGAATACAGGTTCCCACTCTCCACGCCCACCCTCATGAATCAG AATCTTGAAGAAATGTACCTGTTCTTTTATAGTTTTAACAAGCACCCAGGTGATTCTTAT CATCAGAGCCTTTTTAGGAAACACTAGCAATTAGAGTGGCAATTACTCTGGCATTCAAGG CCCTCCATGAAATGGCTCCAACATCTATTTCCAGTAGTACCGCCCATATTCCTTCCTTGT GCAGAGTGCTTCTGCTGTCTGTGCCTGTGCTCACATTGTTCCTTCTCCTTTATCTCTCTG AGTCAGATCCTACCTATCTGTCCAGGCCCAACTAGAATGCCACCTCTTCCATGAAGACCT TTTTGATTCTTCCAACTGAGAACCATCTCCCCCTTCTCTGGGCTCCCACCACCCTCTAAA TGCTATGGTGAGCAACCAGCAGCCAGCAATACCTGGCTCAACACAGATGCACAAGAGTTG GCACTTTTTCTTCCCCTTTATCTTCTGGAGCACTCCTCACTGTCACCACTGCATCCAGAC AGTTCTGGTCATTTACTCCTGGGGACAAGAACCCAAAGGAGAAGCTTCAGTGGGTCCTTA CAGCATGGAAGTTAAATGTGCAGGCTCTGGAAACAAACTAACCAGGTTTGAACCGCAGCC CCCCTACTTGGGTAAGCTGAGGATCTATGTGCCTCAGTTTTCCCATCTGTAAAATAGAGT TGTGAGGACTAAGTTAAGTACTACATGCTGTCTTCATTAGTTCTGGAGACTGGGAAGTCC AAGATCCAGGTGCTGGCAGATCCAGTATCTGGTGAGGGGTCCCTTCCTGGTTTGCAGATA GCCACCTTCTTGCTGTGTACCCCACATGATGGCCAGCAGAGAGAAGAAGAAAGCTCTCTC ATGCCTCCTCTTAAAAGAGCACTAATCCCACCCTCATGACCTAATTATCTCCCAAGTGCC CCACCTCCTAATACCATCACATCAGAGGTTCAATCTGTAAATTCTGGGGAGACACAAACA TGCAATCTACAATAAGTGCTCACTAACCGTTAGCTATGATGAGCTACAGATCTTAGGGAC AATATAGTTCAGTGGTTCTCAAATCTGCCTGTTGATTCATCTGGGGAGTTAAAAAAAATA CCGATGCGGCTGGGCGCAGTGGCTCACACCTGTAAGCCCGGCACTTTGGGAGGCCAAAGT GCGTGGATCACGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACGTGGTGAAACCCCGTCT TTACTAAAAATACAAAAATTAGCCAGGTGTGGTGGTGCATGCCTGTTATCCCAGCTACTC AGGAGGCTGAGGCAGGAGAATCGCCTGAACCTGGGAGGTGGAAGTTGCAGTGAGCCGAGA TTGTGCCATTGCACTGCAGCCTGGGCGACAGAGTGAGACTCAGTCTCGAAAAACAAAACA AAACACTGATGCCTAAGCCCCACCTTAGATCAATTAAAAACATGGTACCTGAAGATGAGG CCTGGGCATGGGATGTTAACATGAAGCTAAGGGTGAGAATCCTTAGCTAGTCCAACCCTC CACCCACTACTTTATTGACGAGAGGTAAAGGACTTATTCAAGTGCGCACAGCTGGTTAAC TGTAGAGCAAGTCCCACACTGAAAGCCTCTGCCCTCCCTCTAGCCTAATCCAGAGTGATT TCCAATACGATTTCCAATACGCCATTGCGCAGCCTTTGCTCCCGCGTCATTGGGTTGGGA GAATCATCTAGGCAGGAGGCAGAGCCAGGCCCACTCAACCTCACTCAGCAAAAGTAGAGG TAAAGAAGTGGGGAAAGTTTGAGGAAATGGAAGTGGGGAGTCCCTAAGGACTATGAGCTT GGGAGGACAAGGTCAAGAATGGATGGGGGGATTTTGTGACTAAATGGCATGAGATTCTGA GAGAAAAGACAATGAGGGTGGGGATCTTGTTTGCCTTGATTGTAACTGTCTTTCTAGTAC CTTGCACAGAATATAGCATAAAGTACGTGCTCAACAAATGTTTGTTGAATGTCTAAATGA TGCAATAACATCAAAAAGCACATGTTCTGTTTATTAAGTCACCCAGAGGGCACTCACATT CCTCAAGGGGGCAGTGGTGAGAACATCCAGAGGGGAGCACAAAAGTAAAAGAATCTTGGA CTTTCAGAGACACTGAGGCACAGAGGAGGCCAAGCTCCCTGAAATTCCGAGGAGAGGCTG CTATGTGGGAGGGAGGCAGTGGCCCTGTGTGCCAGATGTTTGCAGGGCATCCTGAACTCT CTGAGCATACAGAATGCCACAGGGGACAGGCAGATAAACAGAGCTGTATCCTGGGCCAAG TGGAGGGGGCCTGGTAAGGGAAGAGGGAGGTGGGAAGAAGGAGGCTGGGGGCCAAGCCAG CTGCCTCTTGATAGGGGGAGCGGGGAGGCGGGGTGCTCTGGGCCAGTGGTTGGTTCAGAT CTCTGGCCAAAGCAAACCTGCCTCAGGGGGCTGGGGGACCTCTCCCTCCCTGCCCGGATG GAATCAAAGGCTAACAGGAACCCTGGAGGGTCCAGCTGTGACCCTTGCTCCTCACACTCA GCAGGGCCCATTAACCCCGTCCTCCCCATATCCTCAACACACTTTTCCCAGCCCAAAGAA TCTTTGCAAACAGACTCCCCTGGTATTTGCTGATCAGATACCAGCCAAGAGATGTCAGGT TTTCCCAGTCTCACCACCAGCCCTGCCTTCCTCCCCCAAAGATACCCAGACCCTGTCCCA CCTCTCACAGCGGTGCTCTGTAAGAACCCAGGGTAGCCTTTGCTCAAACCGGAGCCCTTC CTTTTTTCCATGCCAAGAGTTAAAGGGATTCGATTCATTTCTATGAGTCATAATAATAAA CAAAATAGGAGCACCTGCCTCCATGCTCACAAACAAGACAGGACAACCTACCCTCTTGGA TCTCCTTCTGAACCCAGGTCTCCAACTGATGGTTCTCACACAGGTACAACCTGCAGGTAA CTCCTGCTGTTTACCTGAGCTGAGCTGTGCGCTGAGGCAGAAATAGCCTGGAATTTGGGG ATCATCAGAACTGGAGAGGGACCTCAGAGATTTTCTTTTTTTTTTCTTTTTTTGAGACAG AGTCTCGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCAACCTCAGCTCACTGCAACCTG CACCTCCCAGGATCAAGCCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGT GTCTGCCACCACGCCCAGCTAATTTTGTGTGCATGTGTATTTTTAGTAGAGATGGAGTTT CACGCATTAGCCAGGATGGTCTCAATCTCCTGACCTCGTGCCTCCCAAAGTGCTGGAATT ACTCACAGATTTTCTCATCCCGTTCCTTGTCATTCAGATGAAGATGCCAAGGTCAGAGTA GAGAAGCCTCTTGTCCAACATCACACAGGTGGTTAGTGGCTTCAGCAGGACTAGCCTCAG CTGACTTGACTTTCAGGCAAGAGTCCATTGCATTGGACCACGGTGGGGACTGTGAGAGGA CAGGAGGGAAAGCAGAGGCACAGAATAGCCCAGGCCTTCATGCTCCTGGGAAGGGTTGAC ATGGGTTCCCTGGGCTACACCATGGGTCCTTTCCTTTTTCTCCCTTGGGACTTCCACGTG AAGAAGGCACAGGCAGAACACAACATGGAGCTATCTGAATCCAGAGAGAAGTAAGAACGA AAGGAGGTGGGAATGCAGCACAGGCAGAGGCTGGGGAAAATGCTTCTGGGTGCTTTTACA TCCTATTTTCTAAATTCTATACAGTGTGGTTTTAACAATAAAGAGGATAATAAAAATACT CTGGGGAGAGATTAAAATGACAGAACCAGCTGGGTGTGGTGGCGCATGCCAATGGATGCA CAACTCTGGAGGCTGAGGCAGGATGACGGCTTGAGCCCAGGAGGTCGAGGCTGCAGTTGA TCATGCCGCTGTACTCCAGCCTGGGTGACAGAGTGAGAATCTGTCCTTTTTTTTTAAGGG AGAGAGAAGAAGAATTGTTTTTTTTTGTCTGTTTATTGTTTTTTGTTTGTTGTTGTTGTT GTTGTTGTTGTTTTTGAGACAGGGTCTCACTTCGATTGCCCAGGCTGGAGTACAGTGGTG CAATCTTGGCTCACTGCAGCCTCTCAACCTCCCTGGGCTCAGGTGATTCTCCCACTTCAG CCTTATGAGTAGCTAAGACTACAGGTGCATGCCACCACGCTCAGCTAATTTTTTCGTATT TTTATTAGAGACAGGTTTCACCATGTTGCCCAGGCTGGTCTTGAACTCATGGACTCAGGT GATCTACCCACCTCAGCCTCCCAAAGTGCTGGGAAAACAGGCATGAGCCACCGCGCCCAG CCAGCAGAGATTTTTAGAATCTACTTTGAGTAGACTGAAAAGAAAGACCATGTTGAAGGA ATGGTTTAACAGATAAAGAAAAAAAATAAGATAAAAATAAAAGAAAGACCAAAAAGAAAA CGGAGGAGCAGATGTTAAAGGAGAGATGGGGAGAAAATTCAACACCATCCTTGTAGTCCA GTGAGGAAACTGACACAGCAGCAGGACTTGGACAGCCACTCTGGGGCTCTGAGCCCAACC TTTTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTATTTTTGAGACGGAG TCTCGCTCTGTCGCCAGGCTGGAGTGCACTGGCACGATCTCGGCTCACTACAACCTCCGA CTCCCTGGTTCAAGCGATTCTTCTGCCTCAGCCCCCCGAGTAGCTGGGATTACAGGCATG TGCCACCACTCCCAGCTAATTTTTATATTTTTAGTAGAGACGGGGTTTCACCATGTTGGC CAGGATGGTCTCAAACTCCTGACTTCATGATCCGCCCACCTCGGCCTCCTAAAGTGCTGG GATTACAGGCATAAGCCACCCCACCTGGCTGATCCCAACCTTTTAACAGGTCACTATAAC CTGAGGGAGTGGGAGGACAGAGGGCTGGAGAGGCAGGGAGAGTGAGAAGTCATCTTTCTT GGACACTTGTCATGGCCAGTCCAGGCCTTCCCGGCTCCCCTCATCTCATCCCCCAAGGTG GGCTCCCTTTGGAAGCAGAAAAACTCCACCCACACTCCCAGAAGACCTCAGAAGCCTGAT AGCAGTGACAAGACCACAGGCCCTAAAGAAAAAAAGAAAGGAGAGTTAGAGGGAATGGAA GAAGGAGAAGAAGGAGAGATGCCCAGAGGGGGGTTGGCAGCCGAGAGGAGGACCAGAGGA GCAGGGCTGGAGAGCTGGGCCCAAATCAGGACTGGGGGAGAGAAGTGGGGTGCCGGGGCG GGAGGAGGGACGATGGGGGTAGCTCTTCCTTCCCTCCCACTCTCCCTCCTCCTCTCTCTC TTTCATGATCTTGAAACAACCTTCAAGTCTGGGCTGGAGGCCCCAGGAGGCCAGTCACTT AGGAAACACCTCTGTTTCTTGGAGACCTTGAAAGACCATCTGCAGCTGAGCAGCGTCCCC ACCCCCTCCCTGTGCGCACACGCAGCTCTCCTGGCTCTCGTGTCCTCTCTTACTTACGTC ATCATTAGTCCGTCTCAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCC ATCTGCAGCTGAGCAGCGTCCCCACCCCCTCCCTGTGCACACACACATTCTCCCATGGAC TCTCACGTACACCCACACCCGGCTTCACATGAGCTCCCCAATGGCCCACATGCACGCACA CACGGACTCCACACTTGATCTTAGCCAAAAGGCCGAGAAGCGATGCGCACTCACGGACTC ACACGCACCTCTGTACTCATGCTTGCATACAGACAACCGATTCATAGCAGATTGGCCACA CATCCGAATGAGTGTTGTCCTCTCCCCTGAGGAGCTCCTCCTTTGGAATGTGGTTTGGTA CCACCACTCCGTCTCATACCTCACACAGGACCCAACGCTCAGGTCCTCCCAGTCATTAAC TAGCACACATCTGTACACAGGCACATGCACACTCCTGTCTCTCTCCAACTGTCTTGGTCT CTCTCTCTCTCTCTCTCTCTCTCTGTCACACACACACACACACACACACACACACACACA CACACACACTTCTTACCAACCAAATATTTGATTCAGGACCACTCCATCCCCACTTTGCCC TTGGTGGATCCCCCTCCTGATCTGTGACTTTCTCAGCCCACTCCCCAGCCCAGGCATCTT GGCCTTCCATCCTCCTGCTTTCAAGTCTTTCTTTCTCTCTCCTTTGCTCCTCTTACTCCA AGGGCCTTGATCCAAACTGGTACTGCTGACTGTGTCTGAAGAAACAGTAGCCCAACCCAG GCACTCCAGATCAAACGATCAGGTGTCTACACCTGTTAATATCCTGGAGGCTGAGGTTCA TGGTGGACAAGAAGGAGGTAGACCACTCCAGAGCCTCAGCTCTCACTGGGCAAGGAGGGT GGTCAGTGATGCACGGTGGAAGTATAGGCCCTGGGTGTCCTGCCCACTCTTTGATTTCTC TGAGCCCTAAATATGTGAGCAGCAGCGCCCCTCGGGCTGTGCTCTCGCCCAAATGCAGGG CATGGCAGGGAGCCCCAGCAGGCTGTAGGGGCAGAGGAAGGGCACATCCTTTCCGGTATT GAGTTTGGCCACAGGGACCAGAGCCAGGGCCTTTGGAAGGACTGGGCAGTACTGGGAGGT GCCAGCAGGGGTGAGGGGTGGGATGAAAACTGTTAGAGTGCTTGAGGTTTGCACACCTTC AGATTCGGGGACTGACGTTTTCTCTCCTATCTCAGGTTGTGTTCTGGAGAGGGCTGGGCA GAAGATTACCCAGGAATTCCAACCCAGGAACCTACGGAACAGGCGCTTCCTAAACCCCAA TTTATCATGTTGTTCCCACAGCCCCCAGGCAAGCCTGCCCCAATGTTGATCTCCCTAGCT GCCTCGGGGCCACTCTGGAGTGACTTTGCTTTAGACAGTCTCTCCTGGTGTCTAACCACA GGCTTTCCCGCTACTCCCCTCTCACTCTCTCCTTAACACACAGGGGCTGAACTGGTATCT GTTCCCTTCATTGTTTCCTCCCTCTGCCCATTCTCTCCCAAGACCAAATCTGAGCTCGGA GAGGGGGGCCATGAGAAGGCCCTGTTGGCCCCATCCTACCCACCCTTTCTGACTGTAACC CAGAGAGGGAAGGAGCGTGGAAGTGAGATGTGACCTACCAGGTCCCTGTAATGGAAAATC TCAACTGCAGGCCCGGAGGGGGCCAGTTATTTAGGGAATTCAGATGTTAGCCTTGTGCCC TGAGAGTGGATTTGCTAGAGGAGAGGCTGATAATCCCTCTGCAGGGAGTTCCCTCTGGGG CCAGAGATGGACCCAGCCCAGCCAGCAGGCACCTTAGGCCTCTGGCCAAAGCCCCCCTTC CCTCCCTCCCTTCCTCTCTGCTTTCTTTGCACTCAGGACACTTAGACCTGCCCCACTCCG CTGGCTTCCCCTCACTCCATCTCTGTGCCCAGAGAAACAGGGGTACTCCAGGGGAATCCT GTCCTCTGACTGTTCCCAGTAGAAGGCGGGAGCAGAATTTTTTCTTTTCTCTCTGCCCCT TCTGGGTTCCCCTTCCTCTCTGTGCCCCTCATCCTTTGGATTACTCATCAAATGAGCAGC AACAACACCCCTAGACCAGCTGGTCCTGTCCTGGGTCATCTCGTTGTCCCCAGTTTCTAG CTGGTATAAGGTTAAAGATACCCTTTCCAGCCCCAGGCAAAGCCTTAGGCATTTCTGGGA TTGCTCCTGACTCTGATGGGCATCCTCACTCCTCAGACATTTCCAATCTCCCCCACTTCA CTGCAGAGAGGCCTGTTCTCCAGCCTCAGTCCTGCATGCTGCAGCTTTGCTTCCCCTTCC CCACTGGAAGAAGGAAACAGTCGCTCTCCTTTCCCGTTCACATGTCTGATATTTGCTATG ATATTGACCTTCACACACATCTTAGAGGTTCTGTATTTTCCTCTCTTTTGACTTCTCCCT ATCACTACTCTACTCAGGCATAGATTCAGTCTAGAGCTCTTCAACAGCAATGAAACGGTA AACGAGGGGTAAACAAAACCCAGAGATGTCATCAGGTGCCTGCTAGGAGTCCCACCCGTT CCCCTCTAGCCCTGGCCTGCCCCTCCCTACCAGAGTCTTGATTCTCCTTCAAAACTTTGG AGAGGTTACATCTGGCAGGGTTTGGGGACACCCTCTTGCCTCCATCTCCAAACTTCCCGC TGCCTCCCGAGCCACCTTTGACTCCTCCTGGGCCCCCCTTCCAGGTGCCTCAAGTGCAGA GGTCAGCCTTCGGTTCAAATTCTATTTCTGGGCTTCAGTGTCCCTGCAACCTCTATAATA GAAGGAACAGAGTGGTCTATGTTTCTTTCTTTCTCTGGGAGATTGGATGTAGACTCGGGA GACCTGAGTTCTGGCTCTGTCTTATCAATTCAAATTGTTTAATCTCTCTGAGCCTCAGTT TACCCACTTGGAAAAGAAGAGTTAGGCCACATGGTCTCTGTCATCCTGGGATTCTGAGTC AACTGCTCCCCTTCAGCCAGATCCAAGGGGGCATATCCCCCCAACCTGGGACCCAGGCCC CCTTCCCTTGCAGCCTCTCTCAGTTGTGAGTGCCACAGGCCAGAGGGGGTTGAGAGGAGC CAAGGGGGGGCATGCCGTGGGACAAACGGGCTGTCTAGGGCCAGTGGCTAAAGGGGCGGG AGGGGAGGAGTCCTCAGGGATCCTGTTTCAACAAACGTTTCTTTCGGAGGAGGGGAAGGC GGGGGAGAGGGGGAGAAGGACCTATTTAAAGCTACCCTGTTGCTTTGGCTTTCTCTGTCT GCCAGGGTCTCCGACTGTCCCAGACGGGCTGGTGTGGGCTTGGGATCCTCCTGGTGACCT CTCCCGCTAAGGTCCCTCAGCCACTCTGCCCCAAGATGGGCCGTGGGGTGAGTATCCCTA AAGAGCAGGGGTCGCAGTCTAGAGGGTGAGGGAGGCTGCTGAGGAAGGATGAAGTGGGAA TGGGATGTGGAAGGAGCCGGAAGAGAGGAGCTGAATTGGGATACTTGGAACCTTGAAACT AACAGTCTCCAAACTACCAATGTGTGTACAGATCCCACGGCGGTCACATACCCTAGTGCT CTCCTCTCCTCTGCACGCCCCAGCCCCCTGCCCACAGTTAGACCCACAGCCCACCACACA TGCCCCCTCCATCTCTCCCTCCACCCCACTCCCACATCTCTAGTCCTTCCCTGCAGCAGT CCCTCCTCTCACTGCATCTCCCGGCCTCCCAGCTGAAAGGATGTTTGGCACTGTGAGTCC TCCTGTCTTTGCCACCTCCTGAAAATATCCATTCCTCTGGGAGTCCTAGCCTGAGAGGCT GGGGGTCCATTTTGAGGTTAGAGAGGGGCAGTAGAGCATCCGGCTCCCAGAGTCACCAAG TAGTTCCGGACACCAGCTCCAGGGGCCCTGAGTGCCAAGGACAGCTGGGCGGGGTGTGGG GAGGAAGAATGATGACCCAGCCCCCACCCCAGCACCCCTCCGGATGTCCCGAGCAGCATT GTCCGTGGGTTCCAAGCCATGGGCTTTGAGGACTTTCCCAGAGGCTGGTGACAGGTGACC CCCCCCCCAGTCCACCCGTCCATGGCATTCTGCAGCAATGGCTACACCAAGAGGAAGATT AACAACAATGGGGCGGGCAGGGAGAGGGCTTTGAATTCTTGGAAATGAAATTCCCATATG GAGAAGAGTGGCCCAATCCTTTTACATGCTGTGCCTGGCTGCTTTCCTTTTGTGGAATAC TGGCAAAAGAGGACACAGAGGGAAAGGGCATGCTGCGGAACAGGAGGGTATGAGGAAGAC TGTGCCTAGGGGGAGCCGTGGGTGTTTCTGGGCCCAGGAGGAGTCAGGCAAGGACATGTT ATTGCACCTAGTTGAGCAGCTGGGAAATCCTGAGCCTGGACACCAGGGTTCCTGAGCTAG GGTTGGAGCCATAAATAGAATTGGAGTGCATGCATGTATCTGTGTGTCTGTGTCTGTGTG TGTGTGAGTGTGTGCCCTTAACCACGTGTTCTCCATAGGCGGGAAGTCTGCCAGTTACTC ATGGATGAGTACCTGTGTTTGTGTCTCAGCAGGCAAATTTGTAAATGTACAAGCCTTCAA GCCTGCACAAGCATAAATGTCACTGTGTGGGGGTGCTTGAGAGTCTGTGAGCCTGCCCTT AGGAGCTGTGAGGTATGGGCTTCACGGAGGAAGAGGTCATAGCTGCAGGAAGATATACTG TCTTGGGACCTTCAGCTGCATCTTGACATCTCTGGCTCCCCATGGAAAGGGCATCCCTAG CTGAGATGCAGGACCTCTGAGAAGAGGCAGGGGTTAAAGGATCAGATAAGCCCTCCATTT CCCCCATCCAAGTGAAGAGAGAAGGAGGGGAGGTAGCCCCCTACCCTGCTCCATCTTAGA GCAAGGTAGACCCAGCTCAGGAGGTCTTGCTTGGGAAGTGATGAGACCTTGACTTTTCCA GTCTGTCTTTTTCCCCTAGCACCCCCAAACTCCCCTTAATCACCATCCTAAGTTGCTGTG GGTGATGCAATAGCAAGATGAGGAGCAGATCTGGGCTGTTTAAACTAAGAGGCTGGGTGA GGTGGGGGTATTTAGGGCCTGGAGCTTAGAGTTCAACCTACCAACGACCCCTGAAGAGGG AAGGCATCTGACACCCACAACCTGTTCTAGGGATGATTTTTCCTCCAATCCCTTCTCCCC TGCATCTCCACTGCAGAGGCAGGCTTCACTGTCCCCCCATTACCCAGTGGCTGTGAAGGG CAGCGTGGGAGTTGGGGGAAGGGACGACACTGGTGGGAGGGAGCCCAGCCTGCTCCAGCT ACCACGGAGAGGCTGAGATGGGGGGAGCGTTGGCGGATTCCCAGCTGCCCCCACTCTGTC CCAGCCTCTGGCTTTCTCAAAAAGGACTCTCTGTTCTCCTTCAGCATTCAAGACCCAGAG AGGGGGACTTGTGGTTGGGGGAGGGAGGAGTGGAGGGAGGTTGGGGGGGTCCTTGCTTCC TCTCTTTCTTTCTTGCCTGGGCAGCCGCTGGCCCCAAATCTCTGCAGGCTCCTGGCTGCA GAGCCTGAGATCTTTGCCAGGACAGGAGGAGGGGGAAGGGGCAGTGTGTCTCAAGCTCTA AGCCTGCTGGAGAGCAGGGCGGGAGCTTGGGAAAAGGAGGCACTGCGTGGAGCTGCTTAG CTCAGCCACAATCCAGCATGCCAAAGTGCATGGACCAGCAAGTTTTTAAAAAGCATGCAT TTTATTCCAATTTTTATGAAATTTATTTCACATCTGAATATACAGAAATTCCTCTGCACC CTGCTCTTCTGCCCACAGACCCAGCCCTGCTCCTCTGTGTATGCCTGGGCCCCCTTCTGT CCCTGAAGTTCCTGAGGGTCACACTGAAGCTCAGCCAGCCTGATCTCTTGCCTCTGTTCC CTTGATTGCATTTCTTCCTTTTCTCAGCTCTGTCCCACCACAGACAGTTAGTGAATGTAA AGCATTTCAATCCACTCAATTAAATGAATCCTCTTAGGTCACCTGAGAAAGGCAGAGGCA GAACCACTCACAAGCCTTTCCCCACCCCTTCCATTGGGCTGCTCGGTCTCCCCAAGAAGA TCTGCCTTTAGGAGGCCAAAATTATACCAGATTCATAGATGCTTCAGGTGGAGACAAACC CACGATTTTACTGGTCACCTTTTCTGAGAAGAGCACTTCTGAGCAACACAGCCTCCAAAA GCTCATATCTTTTTAAATCATTGGTATCTTGGGAACAACAGTGTTGACTTCTCCTTGCAT CCCCCACCCCTACCCTTGCTTCTGATTGTACTGGTCAGACTTCTACCTCTCAAGATGCTG AATTGGCGACCTCTTATGAACAAGGCAGCTGCCATACTTCTGGGATTGCTCCTGACTCTG ATAAGTAAAAAAGGCATTACCCTGGAGCACAAAAGTCTTAGGGCAGTGAAGCTATTCCAT ATGATACCACAATGGCGGATACACGTCAGTATACATTTGCCCAAACCCATAGAATGTACA CCAAGAGTGAACTCAAACTTAAACTATGGGCTTTGGACGATAAAGATGTATCAATGCAGG TTCATGATTGCAGCAAATGTAACACTCTGATGCAGGGTGTTGATAGTGGGTGAGGCTGTG CATGTGTGGGGGCAGGAGATATATGAGAACTTTCTCTACTTCCCACTCAATTTTGCTGTG AACCAGAAAATTGCTCCAAAAAAAGTATATTTTTTAAAATGCAAACAAAACCCCCAAAAC TGCATTATCCTGCAAAAAAAAAAAAAAAAAAAAAAAAAAAGCAAACACCTTGGCTGTGGA CCCTACCCAGGTATCCACTCTTTATGGGAAACAAAAGTTAACATCATAGTGTGGGAAAAC TAATTCCTGAAAGCCTAGTGCAGACTTTGCAGAATCCAGTGGAGAAATAGGCACCAGGTG GAAACTGAGCAGCCCCTCTATGACAAGGACTCTATTTCCTGAGGGAAGTGGGAGGAGAGA AGACTGGGGCAGAAGAGGAAGTAAGAAGGTACCTTTTTGGGAACTTTTCATGGCTACCCA GGCCTTCCTCAGCCTCTATCCTATTCTATCACCCCAAGAGGGCCTCCTCTTAGAAGGAAA GATTTCCCACCCTGTCCCCAAGAAGTTCCCTGTGAGACCCTGGAAGGCTGGTAGTGGTGA GCCCACAGGCCCTGGAGTGGAAGGGAAATCAGGAGCCTCATAAGACTACAATTAAAATGT CCATCTGCTCAGGCGCAGTGGCTCACACCTATAATCCCAGCATTCTGGGAGGCCAAGGTG GGAGGATCACTTGAGCCCAGGCAATATAGTGAGACCTTATATCTAAAAAAAAAAAAAAAA AAGAAAGAAAGAAAGAAAATTGTTTTAAATTAGCTGAGCGTGGTGGTGCATGCTTGTGGC CCCAGCTACTTGAGAGGCTGAGGTGGGAGTATTGCTTGAGCCCTAGAAGCGGAGGGTGCA GTGAGCTGAAATTGCACACTGCATTCCATCCTGGGTGACAGAGTGAGACCCTGTCTCAAG AAAAAAAAAAAGGCCATCTGATTCACCAGATGACCCAGGAATGTCTAGACTTAAAAACTA TATAAAATGTAGTTTTAGATTTACTCTCAGATACAATTTCTTATGTTTTGGGACAAATGG GGCTCAGTTCCCATGTTACCCAATTGTGCTTTGGGGGTCCAGTCCTGTGAGTTGCCTCCC GTCTAGTAACGGGCAGGCCTGCCCAGCAGGATGGAGAGGGCTCCCAGCACACCCCATGTC TCCACTTCCTGGACATGCCCTGACTCTCCAGCTACTGCCTCCTCTCAGTCCATCAGGCCT GCTCTTTCCATCCCTACCATTCCACCACCAGACCTGGCTCTCCTCTGGACACGTTCCTGC CTAATCCCCTGGCTCCCCAAAGACTCTTGCTCCCCCAAGTTCCTGAGTATTTCTACCCCT CTCTAAGTAAAATTGCCATGGTGTTGGGCTAAGACATTCCTACAGAGTGATTCTACTCCC TCAACAACCCCCCACAAAACCCTGTCCACTCCCTTCCAGAATTTTCCCAAATAGTGTAGG ATACAGGTTTTCAAAATTTTTGTTTTGTTTTGTATTTAGCAGCAGGGTCCTTTCAACAAA CAAAATCTTAGCAGAAGCCCAAGCATTAAACCACTCAAGTGGTGCTTTTCAGTCCTGAGC CCCTCACCCTTCTCTGAAACTCACATGGGAGCCCCTGGTTCTGCCAATAGTCTACAAACT GAGGGCCTAGGGTCCCTCACCCTCCATCCCCCCTATCTCCCCCAAGGCAGCCGCTGCTTT TGAACACACACCCCCACTGCCTGGGCTCCCTGGCTGAGTGGTGGGAATGGAGGCCCCAGC CCCTCTCTTCCCTGACTCTCTGGCTCTCCCTTCCTCCCTCAGGCTGGCCGTGAGTACTCA CCTGCCGCCACCACGGCAGAGAATGGGGGCGGCAAGAAGAAACAGAAGGAGAAGGAACTG GATGAGCTGAAGAAGGAGGTGGCAATGGTGAGGGAACTGCTGGGCCATGGAGGAGGGGCC CCATGCTGGGAGAGCTGTCCCTGCAGCCCATTGCACTCAGAGAAACTCCGTGTCCCCCAT GCTGCTCAACTCACCCCTGTGCCCTGCAGTACCCTCATATGCATCTTAGATACCTCCTCC CCAAAGTAACTCACCCTCCCTTCCCCAGGATGACCACAAGCTGTCCTTGGATGAGCTGGG CCGCAAATACCAAGTGGACCTGTCCAAGGTGAGTGGAGGGGCTTCTAGGGAAGGAACAAA AGAGGCAAGAAAACCATGCAGCATCAAGGTGGCAGGAGCCTTAAAACTGTAATCCAGCCT TCTTTACAGATGAGGAAACTGAGGCCCAGAAACAAGGACTGGCCCAAGGACATGCAGCTA GTTGGTGGCACAGCCAGAACTAGAATTTGGATCCCCTGCATCCTAGCCCAAAGCTCTCTC CCTGTATACCCTAGAAGCCAGGACTCCCTATGACCCAGGCCCCAGAGGGCCTCCAGGCAG GGCCCTTCCCTATACCCCAAGCAACTTCAGTTGCACACAGCCTTCCACAGAGCTGACAGC TGATGCACATGGGCTGACAGCCCATTCCTGTGGTTACAGTGATTTGCTGGGCCCCTGCTA CATATGTGACATTGTGATAGATGCGTTACATACATTTCTCTAATCTTTACAACAACCCTT TGAGATAGGTATTGCAGACCTGTTTATTAAACAAAGGAGACTCAGAGAGGGAGAGTAACT TCCCAAGGTCACATGAACAGTAACTGGTACAGTCAATTGCTAAGCCCTTCAATTAAAAAT TTGTTTAAAAATCATTAATCAAAAAATGCTGGGTGTGGTGGCTCATGCCTATAATTTTAC CACTTTGGGAGGCCAAGGCAGGCAGATCACTTAAGGTCAGCGGTTTGAGAGCAGCCTGGG CAACATGGCAAAACCCCATCTCCACTAAAAATACAAAAATTAGCTTGGCACAGTGATGGG CACCTGTAATCCCACCTACTCGAGAGGCTGAAGCAGGAGAATGGCTTGAACCCAGGAGGC GGAGGTTTCAGTGAGCCGAGATCATACCACTGTACTCCAGACTGGGCGATAGAGTGAGAC TCCATCTTGAAACAAGCAAACAAACAGACAAATATTTAGTGGGTGTATATCTCCTTTATG GGCCTTCCCTGACTGCTCTTTCTAAAATTCTATGCCCCTATTCCTTTACCTTACTTTATT TTCCTTAGTAACACTTTTCTATCTGGCACTAATATGTATTTGTTTATTGTGTGTCACCTC TCCAGATCATAAGCTCCTCAAGGGCAGGGACTTTGTTGGTCTTGTCCATCTCTGCATCCG CAGAGTGACAATTGTGCCTGGCACTGGATATACATTTATTAAATGAATGAATGAATGAAA AAAAAAAAAAAAGAAACGGTCCCTGCTTTAAAGGAGCTCAAAGTCTAGTAGCAGAAAAAA TGCAATCCTAGGATTCCAATGCAATATGGTGAGTGCAGCTCTAGAATCAAGTATAGAACA CCATGGGGAACCAGAAAGAAGCATCTGAACCAGCCTGGGGCTGAGGGAATAGGGCCAGGC AAGGCTTTCTGTGGAAAGTGACAGGTGATTGCCAAAGTTGTGTGACACTGACGGTCAATA ATGTAGGACTTGAGCAGGGTGTGGAGGTGCCCACCTGTAGTCTCAGCTACTTGGGAGGCT GAGGTGGAAGGATTGCTTTAGCCCAGGGTTCAAGGATGCAGTGAGCTATAATTGCACCAC TGCGCTCCAGCCTGGGCAACATAGCAAGAATCCATCTCTTAAAAAAAAATCTAGGACTCT CCTAGAATCCTTGATAAAATAATCTGAAGGAAGAGAGATGGGGAAAAAACAGTTGAGGTG TCTTTCCAGGGAGCTTATCCAGACTGCCTCCAGGGGAGATGTTATGGCCCTAACCATAGG TGTTGTCTCAATCCAATATAATTAGGGGTCAAGCCCAGTCAAACCCTTCTCAGCCCTCAA GCCCTCCAAGTTGCATCACAAATGCCACCTCCTCCATGTGGTCTCTCCTGATGGTCCCCC ACCCCTTCCAACCAGGTGGGACTTTCCTTCTGGGCATTCTTCCCATGCCCGGGAGCTGAA GGGATGGGCATGGTGACTGGCTGGGTTGGCTCCGGATGCGTGCCCCTACGCCTCTCCTTG CTCCCTCAGGGCCTCACCAACCAGCGGGCTCAGGACGTTCTGGCTCGAGATGGGCCCAAC GCCCTCACACCACCTCCCACAACCCCTGAGTGGGTCAAGTTCTGCCGTCAGCTTTTCGGG GGGTTCTCCATCCTGCTGTGGATTGGGGCTATCCTCTGCTTCCTGGCCTACGGCATCCAG GCTGCCATGGAGGATGAACCATCCAACGACAATGTGAGCCCACACGCCCGACCCGGGAAC AGCCCGTGACTGTCCTCCAACCCTGAACCCCCAACACAGTGGGGGGTGGGCAGGGAACAA GGCCCTCACATAACAGTCCTACAGATGCCCCTGCATCTTAGGCTGGAAAGGGGAGAGGCT TCTATATATATCTGTAAAGTACTCCTCCGCCAACAGTGCATACACATTCACATACTCATT AATTAATGAAACAATCTCTCCCTGTTCCTCCCCGCTTAAGTGAGCCTGTCTGTGTGCCTG GGTCTTCATCCCCTAGCAAAGTCCTAACCCTGGGAACTTCCTAAGACTTTCCCTCCCATT TCTAGTCTTAACAGGCTTGAGGTTGGCAGATCAAGGGGGAGGTTAGTGAGAAGGGCTTTC CCCTACCATCATCACTCTCAGTCACAGACAAAGGTCTGGGCTGTCATCTTGGATGGCACT GCCTGCTCATCCCAAGTGGCAGCTGCCCCTTTAGGGTTGGGGGGAAGGTCAGGTCCCTGA AACTCTTTCTCCTTACCAGCTATATCTGGGTGTGGTGCTGGCAGCTGTGGTCATTGTCAC TGGCTGCTTCTCCTACTACCAGGAGGCCAAGAGCTCCAAGATCATGGATTCCTTCAAGAA CATGGTACCTCAGGTAAGATGGCAGGGCTGGGCTCTGGGCTAGGCTGTAAGGTTTTGGCA AGAGTCCAGCTCATCTTTTGTCAGCTCCCAGGCTCTAAGATAGAGATGGACAGAAAAGAT CCTCCAGCTTTCCATGCCAGCACCTAATTGTTTATGGGGCTTCTCCTTCTGCTTGACGGT GTGGGAGACCAGCAGGAGAAGAAGGCAGGGGCAGAGACAAGCATTTCATGAGCTGCCTGT GGCTCCCCACAGCAAGCCCTTGTGATCCGGGAGGGAGAGAAGATGCAGATCAACGCAGAG GAAGTGGTGGTGGGAGACCTGGTGGAGGTGAAGGGTGGAGACCGCGTCCCTGCTGACCTC CGGATCATCTCTTCTCATGGCTGTAAGGTGAGGAGGTCATACCAGAGCAAGCAGTTGAGT CTAAGGAGAAGGCTGTGTGCAGAGCTGAGAGGGGCCCAGTGAGGTTTAAAGGTGGAGAGA CCCAGGTCCAAATGTCAACACCATGCCTATGCCCCTGCTAAACCTTCTCTCAGTGTGGGG TGCTTGTGCAGTGCCTCCTTGCATCTGTGTGTTATGAATGCTCTATGCCCCAGGTATTTC TTTGTTGTCCACTTTTTAGCAATCATGTATTGAATACCAATTATGTGTCAGCTGCTTTAT ATATGTTCGATGTGCTATCTGATGTAATTCTGAAAGAGTGGTGTAATCATGCAGGGCTGC TGAATGTGGCCACACACGTTGCATCCTGAATGACCCCAGGAGGTGCATTTTCATAACTAC AGTGTTAGTGTCTCCCCCTGTGGTTGTGCAAGGCAGAGATTCTGTTTACATTCACCATTT TACAGTTGAGTACATGGAGGCTCTCTTGGTTAAGCAAGTAACCCGAGGTCACATAAGAAG TCAGGAGGAGTCAGAATTCCAAACCAGGGCAGGGGCAATAGATGAGTAATGCCATAAATA TGTGATGAGGGCAAGTGTGACTTTGTTCCTCGTGTCATGAAGATTGAGTGTGGTTGGAGG TGGTTCAGGAGACAGCTGTGTGCATACAAGTGGCTCTGCCAGTCTGATGACTATGCACTC CTTCCTCCTCAGGTGGATAACTCATCCTTAACAGGAGAGTCGGAGCCCCAGACCCGCTCC CCCGAGTTCACCCATGAGAACCCCCTGGAGACCCGCAATATCTGTTTCTTCTCCACCAAC TGTGTTGAAGGTGAGAAGCCAGGCTGCCCCCTGTAGGAAAGAGTCTGAATCCTGAATCCA TAGTCAGGATGAAGGGCTCTGGTAGTACTTACCTGGCAAAAGCTCTGCCATTGGTGGGGC AATTGAGGGGTCAGGGGGCCCTGAATATTATGGAAACACCCTCCACAGAGCAGGGTATTG ACTGAGGGCAGCCTGACTCCATGGGAAATGTATCTCCCTTCCCCAGGGAGATCTCTGTTC TGTCCACCCCAAGACTGAGTGGATTTCAAAGCTTTCAGGTATTGGGTTAAGAACCCCTTA CGCATGCGCACACACAGATGCACATACGCTCAGAACCAACCTGGATTCTTAGGAGTCTTT GGATTTGATTGATGCTTCTATTCCTTGTGGTTCTGGGCCTCGCTGCCCCCTTCGATAACC TTTGCTTTGGCCAGGGCCCCAGGGTCTGGGAGGGCCAAGAAGGCATTCTGGCCAGGTGAA CACTTGGGGCCTACTTCAGGCTGCTTCTAACCTTTGTTACATCAAAAGACATGTTTCACC ATGCACAGACTACCCAGTTTGCCCCATCCCTGTTCTGGGTTCTAGAGATAAACAAAGGTC AATAAGAACTCCCAGAGCTGCCATCACTTAATGGCAGGGGTCCAAGCACAACTGAAACCT GTGCCCTCTGTGGTAAAGCCAGTGAGCAGAGTCAGGGCTGCATCAGAGAAGGAGTAGGAG GGAAGAGACAGAAAGAGGCCTCACTAGACCAGTGGCCTCTGAAAATAGGGCAAAGGAGGC CTCATATCCCAATCCACACTTCCCCTGTCCATTACTCATTTCTCCTCAGTGTATTATGTT TCTCTGTGGTTTTTTTCCCTTCTTCGACAAGTTGGAATTCCACTGCTTGGAATCCATGAG GGATTGGTTCCAGGACCCCCTTCGTTACCAAAATCTAAGGATCCTCAAAGGCCCTGATAT GAAATCGCATAATATTTGCATATAATCTGCGCACATCCTCCCATATACTTTGAATCAACT CTAGATTACTTATAATACCGAGTGCAATGTAATTTTTATACTGTTTTGTTTTTAAATTTG TATTATTTTTATTGTTGTATTGTTATTTTTATTTAGCTCCAAATATTTTCGATCTGAGGT TGGTTGAATCTATGGACATGGAATCTGTGAATATGGAGGGCCAACTGTACAAATAAAAAT CACCACACATTACATTTCCTAAGTTTGTTTTTTGTTTTGCTTTTGAGACAAGATCTTGCT TTGTCACCCAGACTGGAGTGCAGTGGTGCAATCACAGCTCACTGCAGCCTTGACCTCCCA GGCTCAAGCGATCTCCCACCTCAGCCTCCAGAGTATTTGGGACTACAGGCGCGTGATACC ACACCCAGCTAATATATATATATGTATATTAGAGATGGGGTCTCACTATGTTACCCAGGC TGGCCTCAAACTCCTGGGCTCAAGTGATCCTCCTGCCTCAGCCTCCCAAAGTGCTGGGAT TACAGGCATGAGCCACCGAGCCTGGCCAAATTTCCTAAATTTTTAATGTACTGAGATTTT GAAATTTACATTTCCCACAATTGATTTATTCAGAAATGCCTAGTAATACATTCCTATTGC TTACTCTGCAATTGGCTTTGAAAAGAGGAAAGGAAATAAATGAGATATTTGTTGAGCACC CGCTATGTTCCAGGCACTGGCCTAAGTATATTAAAGCACAATCTCATCTAAATATTAAAA CAGCACCGAGATAGGAATTCAAATAAGGATTCAAACCCAAATTTGGCTGGCTCCAATGTG CATGCTTTTTTCAATACACCACCCTTCCTTCCCAGAAGACCCCTGTAATGTCACACAAGG GTTAGCAATTGCCTGGCTTCCTCTATAGAGATTCATGCCTAATGTTGAGAAAGAAAATCT TAAGACTGGATGGAAAATCCATAATGAGTGCTTTACTTTGTGTTCATAATATACTTTTGG ATGGTATCAAGTATGGGAATGATTTTACCAAAATGCCACAGGCAATTTTTATTTATTGAA TCTTGTCTATTTGAACTTTGAGATTATTTGCAAGCTTCTCCCCAGGCTCGAGTACAAGAG AAAATAATTTGCTGTTGTATTGATTCAAGGATTGGCGATCTATCCAGGGAAAGGAAGGCC AAGTGGGGACAACCTACTGAATGTGGCCTCCAGATCTGCGGCTTTGGCTCACCTATCCTG TGATGATTTTCCTTGCTCAGGAAATAGGATGGGACTGCAGTCCCTGGGAGCCACAAGGCA CCCAACCTGATGCCCCACCATGTTGCAGGCACTGCCAGGGGCATTGTGATTGCCACAGGA GACCGGACGGTGATGGGCCGCATAGCTACTCTCGCCTCAGGCCTGGAGGTTGGGCGGACA CCCATAGCAATGGAGATTGAACACTTCATCCAGCTGATCACAGGGGTCGCTGTATTCCTG GGGGTCTCCTTCTTCGTGCTCTCCCTCATCCTGGGCTACAGCTGGCTGGAGGCAGTCATC TTCCTCATCGGCATCATAGTGGCCAACGTGCCTGAGGGGCTTCTGGCCACTGTCACTGTG AGTGGGTCAGGCTGAGGTGCCACCAGGGGAGGGTCTCACTACTCTTTCCTCAGAGTGATA GAGGCACAGTTGCTTGTAGCTTCTCACTACTTTTTCCCCCTAGAGTCACTTATTGGATGC GATACTCAGAGATCACTTAATACATGGCTTAGGGTATGAGTTGAGAAATCTCAGGTGGGG CTATTCTTAGGCACTCAGTTTCTCTTTTGGAGCTTGTCACGGCTGCCTTTTCTCACGATC TGCCAGCAGTCTGGGTCTCATTCCGTCCAAGTCTCCTGTAGAGGCTGTCTCAAAGGTCAC CAGTCACTAACTAGCAAATCCAGGGACCTTTTCTCAGCTCTCCTCCCTAACTCTGCTGCT GAAACAGATACTGCTGTCCACCCTCCTACCATTCTCTCTTTTGTCGATTGCTGTGATGTG TCACTATCCTGGTTCGCCTCTCCTCTGTCCCTTCCTGCTCCCCCTACACTGATTCTCAGG CCTCAGCTGTCTGTTCTTCCTACACCCTGAGCAAGAGCCAATCTCCTCCCAGTTTGCAGT GTCCCTTCTGTGTTGATGACTCAGACATCCCTATGCTCAGCTCTGCTCTGGCCCTCTCTG GAGCTCTAGTCAAACGTCTTAAACCCCCTAATGGGCATTTCATCTTAACAGATACTCATG ATCTCAACACATCTAAAATTGAACATTCATTATTTACAGCTAAGTCCCACCCATTCAAGT TAGTGGAGTAGAATCAGGGGAGGAGGAATGGAGCCACGGTCTAGGGTAAGGTTATGGCCA TCTCCGGCTTCAGCCTTAACCTTTTTTATTCTCCTCTTTCTCTACCAGGTGTGCCTGACC CTGACAGCCAAGCGCATGGCACGGAAGAACTGCCTGGTGAAGAACCTGGAGGCGGTGGAG ACGCTGGGCTCCACGTCCACCATCTGCTCGGACAAGACGGGCACCCTCACCCAGAACCGC ATGACCGTCGCCCACATGTGGTTCGACAACCAAATCCATGAGGCTGACACCACCGAAGAT CAGTCTGGTGATTGGGTGCTCCAGAGGGGGTGGATAGGATTAGAGGAGGCTGAGGGCAGT GGCGTGGTGGGGTGAGTGGTTGAGATAAAGGCTCTAAAGGGAGCCACGCTCCTGGTTCCC CCTCATTTCCTCCCAGGGGCCACTTTTGACAAACGATCCCCTACGTGGACGGCCCTGTCT CGAATTGCTGGTCTCTGCAACCGCGCCGTCTTCAAGGCAGGACAGGAGAACATCTCCGTG TCTAAGGTAGGGGGTCAGGACACACACCAGGTATGTTTTGGGGGTGTCTCCAAAGCCTCT TGCTGGCCCCAGCTTTCCTTCTCACATGATGTGGCTGCCTTGGGGGTTTCAGTGCCGCCT TCACCTGATCCTCCACTCCCTTCCCTCCCATGCTGACACTGAATTCTTGTCTCTTCTGGC AGCGGGACACAGCTGGTGATGCCTCTGAGTCAGCTCTGCTCAAGTGCATTGAGCTCTCCT GTGGCTCAGTGAGGAAAATGAGAGACAGAAACCCCAAGGTGGCAGAGATTCCTTTCAACT CTACCAACAAGTACCAGGTCTGCTTGGGTTGCCAGGACAGAGGAAGAGAGAGGGATATAA ATGGGTAAGGGTGGACAAAGCCAAGGGGAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNTAACTCACATGTTGGTCTCCGAGGCCCTCCACCTTCCACCTGAAACCACC AAAACTGAGGATGAGAGAGGGATATAAATGGGTTAGGGTGGACAAAGCCAAGGGGAATCA TCACTAGCANAAGTGGGGGTGTCTGAGGGTCATGTTCCCTCCCCCTGCTAAGTCCCCCAG GCCAGCTCATATGACTGCATGTCTGATTGCAACTAGCCCCAGCTCCCAAACCTTACTCCA TCCCTTACTACAATCTGTCACTCTCTCAACTCTTCTTCCCATAGCTCCGCATCCTCTGGC CTAGCCTTCCAACTCTTCTACCCCAGTCAGTGAAACCATAATTCTGTAATTCCTTTATGG TGCCCCTTAGCCTTTAGGCACCTGTTAAATGCCAAGAATGCAATCTCAGCATTCCTTATT ATCCATAGAGGTAAAGCCCCCTGAGGCCAGGTGGTGGTGGGGATGCTGAGGAGGGAGCCG TTCAGCCCCTAGCACAGTGCCTGTCTTAACCTGACCTCAATAAATATTTGTTGAATGAAA GACTGTCCTACGGAGGTGGCTCTCAGGTTACAAGTGTTGGAACTGTGAGGTCTAAACACC CCCCTGCACAAGGAGATTCTCTTTGTTGACAATCTTTGATGGGTTGGGGCTACTTTTCTA AGGTGGTTTCCTTACCAGCTGCTGCTCTATGCCGCGCTACCAAGACAAGTATGGCCCTCT CTGTAACTACCTGTTGTCTCTCCAGCTGTCTATCCACGAGCGAGAAGACAGCCCCCAGAG CCACGTGCTGGTGATGAAGGGGGCCCCAGAGCGCATTCTGGACCGGTGCTCCACCATCCT GGTGCAGGGCAAGGAGATCCCGCTCGACAAGGAGATGCAAGATGCCTTTCAAAATGCCTA CATGGAGCTGGGGGGACTTGGGGAGCGTGTGCTGGGTGAGAGGCCAGAAACAGGAGGCTC AGAAGGGGATTCCCAAGCCTCTGCGGCATCCCTGGGGTGGGGGACTGTGGGGGCGTCCAG GAAGCCACTCTGCGGATCTCACTGATCCCTTCTGCCCCCCTTTAGGATTCTGTCAACTGA ATCTGCCATCTGGAAAGTTTCCTCGGGGCTTCAAATTCGACACGGATGAGCTGAACTTTC CCACGGAGAAGCTTTGCTTTGTGGGGCTCATGTCTATGATTGACCCTCCCCGGGCTGCTG TGCCAGATGCTGTGGGCAAGTGCCGAAGCGCAGGCATCAAGGTACTGGCCTCCCATCCTC CCCTCCATTCTAGCCTCCCCCATGCCAGAGTTCAAGGAGCTGCAGTGGCTGCTGCCCTGG AAAGGCCCAGGCCACGGTGGCCTCCTTCCCACTGACTCAGAGAAGAAGCTGTCCATCTGC AAGGAAAGGCCCACCCCTGCCTTGGGGCACTCACCCTTATCCCTTTTGCTCAGAGAGGCC AGTGTCCCATGCCCCTCCTCTCCCTCCCTGGCACAGCTCTTTGTCCCATCTGCATGTGTA CCCTTCCATTCTGATTTGAAGCATAATCTGGCACTCCTATCTTGAAGACCTAGTTGTCCT ACCCTTCCCAACTACTGCCCACCCTCTCTGTCAACTTAGGATGGGATTAGCAGGCTCTTG TATGCTCCCAGTGGCTCAGCCCATAACCCCACAGAATGCCTCCCACTCAAGGTTCTCTTG TTCAACTACAATTGCTTCTCACTGACCACTCCCTCCTCTGTGCTATGTTTGTTCTTCATT CAACAAATATTTACTGTTTACTATGTTTCAGACACTGTGCAAGGTGCAAACTCTAGCACC TTGCACAGTGCCTGATACATAGTAAACAATTTGTGTCACATGACACATCTAGATGGGACA ATGAGCTGTGCCAGGGAGGACACATATAAATCAGGCACTATTCTAAGCACTAAACCTCTA TGATTTCATTTAATCTACGCAACAACCCTGTGAATAAGCACCAGTATTTTTCCTTTTTTA CAAAGAGGGAAACTGAGGCACAAAGTAACATGCCAAGGCCACACAGCTAGTGTAAGTCAT AGAGCAGGTACTTGAACCAAGGCAGTCTGCTATTTCTTAACTATCATACCAGGAGACTTG TTTCTGTGGGTGTATGTGGTTTCTGAACCCCATAACCACTCTGTCTCCGAGGCAGGCATC ATTATCCCTGTTAAAAGTAAAACAAGGCTGGGCACAGTGGCTCATGCCTGTAATCCCAGC ACTTTGGGGGGGTCCAAGGCTGGTGGATCACCTGAGATAAGGAGTCCAAGACCAGCCTGG CCAACATGGTGAAACCCCGTCTCTACTGAAAAAAAAATACAAAAATTAGCCACGTGTAGT GGCAGGTGCCTGTAATCCCAGCTCCTTGGGAGGCTGAGGCAGGAGAATCACTTGAACCCG GGAGGCAGAGGTTGCAGTGAGCCGAGATTAGGCCACTGCACTCCAGCCTAGGCGACAAGA GCAAGACTCCATCTCAAAAAAAAAAAAAAAGTAAAACAAATGGAAACTGCAAGTGGGTAA GTCTTTTCCCCAAAATAAAACCACCAGTAAGTGATGGACTGGGACTATGAAGCATGATCT GCTTGACCGGAAAGCCTGAGCTCCTGCTGCTTGGCCAGGTGCCTCTCTCTGTGATCAGAA CCATCACGGAGGCCTGGGCAGAGGACCTCTATGGGAAGTCAGCTCAGGGAAGCATTAATT CTGCCTCAGAGAACTGGACGATGTTTGACAAAAGGAATGATATTTGAGCTGGGCTTTGGA GGTCAAAGAGTATTCTGCAAAGCAGTGAGGGAGAGGAAGGCATGTCAAGATCAGGGAACA GTGTGTACCCTGGCGTGGCTAGACTGTACGGAGCGTGTGTAGGGGTTGGCAGGGGAGAGG TGGCAAGGAGTACTGGGGGTTGAGACTGGAACACTGGGTCAGAGCCAGTTGGAAGGACTT GGCTTAAATGCCAGACTTGGGCTTTATCCTGCAGGCCACAGAGAGCCATCAGTGTCACGG GGGAGGTTGAGCTTTTAGGAGACTACCTGGTTTGAGGAGGGACTGGATTTGGGGAAGAAC TGGAGTCAGGGAGAGACAGGTTAAGAGGCCATTGCCATAGTTCAGGCAAAGAATGATGAC CTGAACTAGGGCAGAAACAAAGGGAATGGAGAGGAATAGCCATGTCTGAGAAATGTTTTG AGAACTTGGTGACCAAACTGGATATGGAAGGTGAGGAAGATACAGGAGAGAAGGGGACAG GATGAATAGAGAGGACAACATCTAAGGTAGGGAGCAGTAGCAGGCTTGGTGGGGTGGCAG GAGTAGAGAAAAGGAGTTCAATGTTGACCTTAAGCTTAAAGAGTCTATAAGATACCCCAG GAAAGACAGATGTTCCAGTGAACATTGGAGTATGGTTTAGAGCTCATGAAAGATGGTCAG GACTGGAGATTTGAATCTCATTAGCACAAGGGTGCAAACTAAAGGCTTATAGTATGTTGT ATTATATTGCCCAGAAAGAGCAGACAGGTCAAGTGAAGGGAGGAGAATGAAATCCTGTGC CAAACCAACATTTAGGCACAAGAGGAACCAGTGAGGAGGGGAGAGGGTGGTAGGAACCAA TGCCATTTAATCTTCATGACCACCTAGAAAGGCAGGAATCATCTCTGCATTGTGCTGAGA CCTCAGTGCTTCACTTGCCTAAGGTGCTGTAGCTGGAGAAGGTCGGTGTTTAAACTTGAG CCCCTCATTCAACTCCAAAGCCACTGCTTCTTCCATCCTACTAGGCTGCCACCCTGAGAG GCTGGGAAAGAGCATGCAGAGGAGTGGAGGGAAAACAGGAATGGAGGAGTATGTGGAAGC CAGGGGAGGGCAGGGTTTCAAGGAGAAGAGGTCTACGGTGCCAAATGCCTCAGAGGGGTC AAGTAGGATGAGGACGGCAAAGACACTTTTCATTTTTCAATTGAGAGNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNTTGCCCTTAAGTGCTTTTGCTGCTATTTTTTTG CCCCCAGTTCCACAAGATCCAACCAAGAATTCTGTATCCTGGGACAGTCAGATTCTTCTA AATCAGGCCAGGAAGGAGGGGAAAAGAGTGAGAGAATGGTATTCCCAGATACTTCTTCCT CCTGCCCCTTTTCCCAGCAGCTCTGAGACCAGATGTTGGCTGCTGTACTTACTCCCTGAG GTAGGGAATGTGTGGTGATCGAGTGGTCTGTGTTCCTATTGCTGGTGGGGTGATAGGGTG GGCTAAAAACCATGCACTCTGGAATTTGTTGTATTTTCTCCCAGTAAAGCTTTTCTTCTC CCGACTGCTGCTCTGTGTGGTATGTGGTCCATTTATTCACAATGGATGGTTTTTGTTCCT ACTAATGTAGGTACCTAGCCTTCCCCTCTCATTCTGCACATGATACAGTGTTAGAAAGTC CATTTTGGGAGACCCGTATTTCCAGTGCTTGGGCTCCAATTGGAGACTGTTGGAAGTAGG ATACACTCCATTTAGCTCAGTGATACTTAGGAGATTGGGTGGGGTGAGGGTATACACTTG GGGTATTTTCCCAGCCCTTATTCTGGGCCATAAATATTGTTCCCCCTCCCTTCCCAGTGA TTCAAAGCCTGCAAAATCCTGGTCACTCACAGAAATTTTAAAATCAGTTAGTTGCAATAC AATCAATCACCTTTATTCCGGGTTAGAACAAGGCCGTGCACACTGCAGACAGAAGAGCAC AAGATGGGGCAATCTCACAGCAATATAAGGAGTGGGTGGGCAGGTTAGTCTTTTTAGATT ATTTTGCCTTACAGAGAAACTACTAGACTCTGCTGAAAAGAACCCTGTCTCTCTTCTCCC ATTTCTTCCATAAGAAAGGCTCCTTATTCTCTCTCTCACTCTAATGTAACATATCCCAAA TGGAAGGACAGTTCATGCTCATTCCCCCCACCCAATTCTACAAGTATCTCTCTCTTCTTA AGGGAGAAGCCAGACAGGGAAAGGGAGACTTGGGAAGGTCCTTTAAGGCAAAACTGTGGA GTCCTAGAGGTGTGTGTGTTAAGGCAGGTGTCTGCAGCAGTGGCCAGAGGGGCAGGGCAC GCTAGGCTGGGCTAGGAGTTAAGAGTACTGTCTAACCAGTCTGGCTTCTTCCTTCTTCCA GCAGCCAGCCCTCCCCTCCCATTAAAGTTTTACTCCCACATCCTAAAAGCTCCTAACTTG AACTTTGTCTAAATAGTCTCTGAGACTGCATGTGAATTTAATGTTTTTTGAAAAAGCCTT CTTTTTTGTTTGGACTATGTAGCAATTTGATTCTGCCACTCCCTTCACTGTGGCATTCCC CTCCCACCCCCGCTCTGGCCTAGACAATAAGTTAATGCTAGACACCACAAAAAAGGGCAG ACATGGCAGTGCAGTTTTAATATACATATATGTAGAATATATATGTACACACAGTTAGCA CGGTCAGGGTGGGGAGGGGCATCTTGGGGTAGGCAGGAGGCTGGGGTCACTCACTGTACT GTAGTGATGTGGCTAGGAGGTGTTCACAAGCCCAGGGGGCCAGGATATCTAGTAAAGAAG GGTTTCCTAAGTAAGTCCCTTCCGGGATTGAATTGGGGTGGGGATCGGTGCAAAGGAAAA CACTGTAGTTAACTTCTTTCTGGCTTGGGATGTTCTTCACCAAGGAGAGAGGGAAGGTTG CCTACAATAACCAAGTTGGGACCCTATAGATGGTGGTGTCAGGATTCGTGTTAAAACCTA AGGGTCTCATTCTTCAACCTCCCTAGGTTTAGAGTGCAACAGTCTGAGTAGGAACAACTG AGTGGAAGAGGGGGCTCCCCTCTCTCTGCCCTCATCCCCATCTCAGGCTCAGTGGTACAT GTTCCCAGCACAGTCTCTCCAGAGTACAGGTGGGTGGGGGCATCTAACGCTGGCTGCTCC ATGGGGTTTGATCTTAGGGACCAGGAAAGGATCCCTGGCTCATACCTATGCTAGGCCCAT GAGAGACAAAAAGGGACCTGCTGGTACTCAGGAAACAGTCCAGCACAGGAGTACAAACAT GGAACTCTGGCTTTTCTTTGCCCCTTCCAGGTGGGGGTTGAGTGGTCTCTTTGCCTTCCG TCCCCACTGCTTTTCCCTGGATCCACCTACCTCTCCCATACCTTACCCCTATGTCAGCTC CTCAATGTAGGAAAATGCAGGTCCTTTCTGCTTCCACACTTTAAAGATATGGGGGGAGTG GAGGAAAGGGAAGTAGGAGGAATGTGCTGATTTCTATTTGCATAGAAATAGCCCCCACCT CCTCCTAAAGTGGGGAAACTCAGCCCCCTCCCCTAGCCCCTGACCCCCATCCCCTTAAGA AGAGGAACTAGATGAGCTAGACATATAGACAAACAGCCAGAGCGTGCGCACACGCACACA CACGCGCACAGTAAGGGGGTTAGGACCAGGTTAGTAAGTGGGTAGATGGTGGGTTGCCCT TGCCCCCTCTCCTGGAGGATGGGGGAAGGGAGTGGTCTGATGAAGGTCCAACCTTCCTCC TCTTCCTCCCCCTTGCTCAGGCCTTCTTCGGTGGGGGAGCCAATTTGATGATCTCTTCCT CAGAGGGCTGCCGGATAATGTCTGGGGGCAAAAAGGTATGTGTCCAGGGACAGCAGTGTG GGAGATGCCAGGCAGGCCCATTGGGCATCTGCCTCCACTCTCCCAAAACTCAAGTACTCC AAGGATAGTCAACGGGACGAGGCAGAGGTGCAGCTAGTTAAAGGAGTGGCCGCTTACCTT TGTACTTCTTGGCACTGGGGATACGGGTTAGCTTGGTGTCCAGCTCATCCTCCTCAGAGA TCTTCAGCACACGGGTTCTGTAGTCAACCACCATAGTGAGTAGGTCAGGACGGCGGGAGA TCTCAAAGATGTGCTCAATGTAGGAGAGGTTGTCTGGAGGAAGGCAGGAGATAGGGTCAG AGCTAGGCTGTAGAGGTCAGCTTCCCCTACTCCACCAGACTAGTGACCTGGAACCAAAGC TGAGTTGCTGACATTGGTTATGGGAGGGTACAACACTGGAGGAAGAGGGGCTACTAATCC AGGAGAAGAAAGCTAAGGTACCCAAACAACAATACAGAGGACTGTTCGCAGGAAGGGCAG ATAGTTGGTCAGTGAAGTTTCTAGATTGTGGTTAGAATGAGGGGTTTAGCTTAGATACTA GCTCCCATATGTTGTGGGGAGGGGACAAAAGAAAAATCAACTTGACTTCCAGATACCCCA CCCCCACCCCCATCCTTTTCCACTTTCCATCCAAGTAAGTATCAGAATTTGCTGACAGCA CATGTAGGACCAGCAGGGTGGAATCTCTAGGCAACCCAGGAGAGATTCTGGGCCTGGTGA GAAAGGTTATTCTAAATGAGAGAAGGTATGGACACCACCAGAAGGACGATGTCCATGGCT TGGCCAATTCCAGGAGATTATAGATGCCCTTAGACCTTCTTCCCTGGCTCCTCCCCTCTG ACTGTTGCCATACAGTCTAACTGTAACACGTCCTCCTTTATACGTTCTCCCTGCCAGCCA CACAGCAGTCAGAATAGTATATCTGAAGGGCCCTGAGTTCACTCACCTCACCTATCCAAT ACCCAGGCTCTCTACAACACAGTCTTACCTTACCTTCCCAGCCATTTCTAAACACCCTAC ATCCTAGTCAAGCCAAGCAGGACTGATTGCATTTCCAAACACACTAGATACTCTGTGACA GTGTTCCTCTGCCTGGCATGCCCTCCTTTGGATCTTGCCTTAGAAATCCCACTCACCTTT CAGGGCCATCTTAAACACCAATTCTTCCCTAAAGCCTCCAGCTGTGAGGGATTACTCTAA TCCATAGATCCCACTCCCCAAGCAGTAGTCTCTCAAAGTGGATAAGAAAATGATAGAACT TGTAGTTTTAAATTTTACCAGTTTTTAAAAAATGCTTAACAAAGATTAGTATTACTATTT ACCAGTTAGATTACACTTCGAGTTCTCCCCTCATTCAGGTATTCTTCCATTTTTATTGTC TAGAATTCTTCCCAATTTTTGCCACTTAAAATTTTACTATTTTTAGATTGTTTTTATGTT CTGTTGTATATGTGATAATAGCACAGGAGTATCTGAATAACATTTTTTACCGATGAGGGG CACAGTGAAAAATGTCTAAGGCCCCCATACTCTTAGAGCACCTCTCTTCTGCCTTGCTAT AGAGGGGTACACATTGTGGATGTAAAAGCTTTGAGCTCATCTCTATTTGCTGAATGAACT GAGCCTGAATGACTGATGACAGGACCCCTGTGCTCCCCTCCCCCACCTTTGTCCAGCTTG TTGTGGCTCTCCAGGAAGCTAAACCAGGCACTGCCAGTAGTGATCTCCTCACTCTTTTCG CTGGGGATGTCTTCCTTGCAGGCCGACTTGAGCTGTTCTAGATCTTCAAGGGTGATGTTG TTGGTCAGGTCTTGCAGGAGGGTCCCGTACTCAGCCATGACTGGGGTTGGGAGGCGACAA AGGGATAGGAGTTGAGCTTAAGGTATGGAGTCTGGTTTACTCACTGGCACTACCCTCCTA CTCCCCACTCTGCCCTACCAGGCATGTGCCTGGAACATGGAGGCTGGAGGTGGCTAGGGC TGGAGGGAGAAAAGGAAGACCTAGGGGAGGCAGTCAGGGTAGACGGGAAGCTAGGAGCCA GGCTGGAGCCTAGAGTGACAAGTCATACCTCCTTCCCCCCACCATCTTTTTCTTCTGTTT TCCCCCTCTAACAGTAACCCTGGCAACAGTTCCCCTGACTGAGGAGGCGGTTACCATAGC AACCTGCTCCCGACTTTCTCACCCGCTCTCTCCAAGTCCCCCCTCAGAATCGCCCCACCC ACTTCCAACCCCTCCCCATGTCAGGGAAAAAAAACTCCAAAACAACCAGGGCGAGGCTTG CTGTGGCAGTGAGAAGCTGAGAAAGAGCTGGAGGGTCTGGTAGGAACTCATGTGTTCTAG CTTCCCCATTCTGCCTCAAAGGCAAAGGGGTCCCTCACTTCAACTCCCCACCACCCCACT AATGACTCATTTTGGATAGATGCCTAGTTGCTTGGTCTGATGGTTCCTTGGCCCCACCAT GCTAGCCTTGTATTCAGTCATTAGGGTTCGAGGTGGGGGAAGCAATGGACCACCCCCACC TTTGTGGAGCCCATTTTCTCCTTTGATGGTTACCAGGCCCCCACTCAGCTCTCTCTCCTA CCCTTTGTGCTGTGCCTGCAGCCCCCGTGCCCAAGAATACCAAGCAACTGGCTCTGGCCC CCTGCCCAGTTCCCAGGCTGGCTGGGTGGTGGGGGGAGGGGACTTTAGATGCGGCTTTGG GAGAATGGCAAAAGGGGACTGCCCCCCCTTCTCGTATCGTATCAACATCCTACTGGCACT ACCTTCAGCATGGTCTGATGAGATCAGCAAGGCCAGATCTCACCTAGGCTTTCACCCTAT CCCTCTTTCATGATCCTTAGGTGAGAAGTAGAGAACATTCAAGGCCTTCCTTCCACTAAG ATAGGAACTGTGGCTAAGACAGAAGAAAGAAGGTCAGATGTTTGAATGGACTTTCTGGAT TTGATAAAATGTGACACTAGTGGTAAGCTCAAAAATGGAACTTATTTCCACAATGAGTAT CTATTTCCTTTTAGTCAGAAAAGTAAAGCATGTTTTAAAAAGTAAATTGTATCATAAACA CTCTGTATGCGACTAGACCAAGGGGTGGGCAAGCAGCAAGATGACCTTGTCCCTGACGGA GGCTGCCTGCAAATCACCCCAGCATTAGGCTGGGAATGTGGCAGATCAAAGGGGCTTGGT TGACACATTCACATTTTCCTTCTTGCTCTACTGCAGGGGAACTGAGATTGGCATGGTGGT CACAAAATAAGAGATACAGACCCAGAAGTCCCCATTCCCAGCCCCCTACCTGGACCAGAA TAAACAAGCCTCCCTTGGTGGCAGGCACCATGACACAGGCAGACAATGAGCCAGACAGGA GGGCTACCATGACCCCCGCAAGAAACAGGCAGTCATAGGCATGCTCAGTTGCACACCCAG GTGCAACCAGACAGAAGGGCCCAGCAGTGGCCCTGCCAGGCCGGGCCAGGAACAATGCTC TCTGACTGTCAGCACCAGGAACTGTCTCTGCCTTGAAATCTAGGTCACAGCAGCAAGCTC TGGAGCCCAACCCCCCTCACTTCACTGATAATCCAAGGACAGAAGGAGGGGGGTACGGGT GAGGGGGATGATGGGGAGGGGACTAGAGATGGAGATAAGAATGAGTAGGGGGGCATGAGT ACAACTGGAAGGGAAAGCGCAGCAGGAGACAAGAAGACCCTGCCCCAGTGGAGGAAACTC TGGGGCCAAGCCCTCAGCTGGAAAAGGGGGCAGGATTGGGGGTTATACTTCCCTGCTTTC ATATGGAAGGAGAGTTTGTAAATATTACAGATCCTGCGGGAGGAAAGAGTGCATCTGTGT GTGTGTCTGTGTGTGTGTGTGTGTGTGTGTGTCGGGAGGAGTTCAGATTTAGGGCTTTGA ATCTAAAACAGATCTACAGAGGAGGTAGGCGGGAAGAGATTAATGTGTGTAACACACTCA CCCACAAAGACTTGGGGCCAGTGGGTAGGAGCTTTCTAAGAGAGTGAAAGATACAAGGAG GCCCCTAAGAGAGATGGGGGTAGGAATGTTAAAGTGGCAGAGGAGAAATGTGTGTGTGCT CGGATCTTATGGATGCTAATCCCCGGGTTGTGGGCACAGCTCTGGAGGAGGCAGTGGCTG GGTATCTGTGGGTGTGTTTGGATGTTCTGGTAATGGAGGTGTATGTGCCAGCACTGGATA TATGGCTGTGGGTGCACTGGCTGTGAGTATCTGTCATGTGTGTGTTTGTATGTGTCTAAA CCAGCCAAGAGCATGTGTAAGAAGGCATATAACCACAGGCTCACATCCAGAGGGGTGAGG GGAGCCTACAGAATGGAGAAAGAGAGCTGGAGTTGGGAGACAGAAAGAGACTAAGGCTGC AAATGAGGCATGGGGGGCGAGGGGGAGGAGAGCATACAGTCCACAACTATAGAAGGCTGT AGCCTCATCTCATCTGTTACTATAGCAACCTCAGTTCTGGGTGCCCCCCACCCCCAGTCG TTAGGATGACACCACTAGATGGGAGGAGTGTAGGGAATGGTGAGTAAGAAGGGACAGAAA GGATAGGAATAAGGCCCCCTGACGGTACAAGGAAAGGCAGCCCAGTTGCCTCCCTTCTTG GAGAGATCCATTTGCCTAGGCCTTAGTATGGCAGAAGAAGCAAAGGGAGTGTTGTTTAGG GGAACTGCTCTCAATTCTCACTGATCAACAGTTGTACCTGGGCTGGTCTGGCCTGGCCAT GGTGGGGCTTGGCAGAGCTTGTTTCCTTCATCCTCCATGTCACTTTCCTCACCAGAGATT CAGATTTCCTTAGGGCTCGTGGAGAAATCTGCTCTCTGGGCTCTGAAAAATCCTCCTGAT TTCTGGAGCAGTGCAAAGAGCTGCTCAGGGATCACCAGGCAGTCTGGGCGGAGGCCATTC TTGGGACAGGATACCAGGGCAGGAATCAGGAACCGGAGCCCCGGCTGCCAGGAAGTCAGT CCTCTTCCCTCCCAGCTTTCTGTGCTAGGCTCACCGCTTCCTCACACCTTCCTTCCTTCC TGCCTCCCTCTCCTTCCAAGCTGGCCCCAGGCACAGCCCTGACAAAGGTCAAACCAACTG AGGATGCTGGGGAAGAGGGGCAGGAGGTAAGGACCATTATATACTGACCTTTTAGGGTGG GACAGGTGGGAGCTCCATGGGCACTGGGGTAAGAAGAGCCAGGCCCTGGGAGTGCTTTGA GAAGCCTGGCAATTGGGATAACCACCTGTGGAGGAGGTGGCAGCACCAAAAGAATTTCTG TGCATTTTGACATTAAGTCGTGGTAGATTATCCCTTCTAACGTTTGGTTCCAAATCCTCT GTAAATTCGAGAAGGAAGCCTGAAGATTAAGAGTTGCTGCCCGTCCCTCTTCCACATCTG TTGCAGCTGCCTAAGCCTGAGGGGAGGGGCCATCCCAGACAGCTGCAAGGACCTAGAGGT CCCTGTATTGGGCAGGAGGGGACTCCCAGGCACTCAAGTCTGTCAGTCTTCTGCCTGAAG TTGGAAGTAATCACGGAGAGGCAGAGGGGTTGGAAGGGAGAGAGTAGGGGTCCAGCTTTC CTATTTTAAATTATAACTGGGCCCCAAATTCAAGCAGTCCTGTAGTTTATTTCCTTTAAT ATCATTCTCAATTAATTTCTTCTTTAAGCTTTTTATCCAGCTTTGTGGGGGAGGAGGGGG TTGTCTTTACTCCTGTAACAAGGAAATTGAGGGTTCTGAGGCTCCAGGGTCAGCCTGGAA GTGACGAGAGGCAGGACATCTGGGCCCTAAAATGTTCACTTCAGTCCAAGAAGCAAAATG GATTACCTTTGGGCATGGGGACAAGGATTAGCCTTCAGCCCTTGGTCTAGAAAGAGCCAG ACCCAAGATGGGGCATCAGGAGATAGCTGGCACTGGATCAGGCAGAGCAGAGGAGGGCCG GCTGATGGCGAGGAGGGGAATGGGGCCTAGGACTCTCCCCAGCCCATCTCTGTTTCCACT CTTCTGGTGTGGCACTCCCTGCTTCTATTTCTGTCTCTCTCCATCTCTCTCACTCTTTGT CATGCATTTCCTTTCTACTTCATCTTTCAGTCTCTCTTTTCCTCCTTTCTATAGGCTTTC ACCCCTTCTAGCATTTCCTACTCACCTATCCAACTTAGTGGTAGCCATGAATACTTAGGA CTCCTGAGATCTGTGCTTCACTGTCCCCATCTGAATATTCGGAGCTGCAATTAGGAAGGG GTGAGCATCCCTGCTACAAAAGACAGAGTAAGTTTGGTCGGAGTGGCTTGGAGATTCAGT GGTTGGCTGCCTACCAGCTGGTGAAGATATCCATCATGACATTGTGCGTGAGGATCTGTG TGAGAGAGTGAGGCGCTCTGTGATTCTGTGACCCTCTTCATGCATGATAATACATCCACA CATGATGGGCACGGAATTGAGGAAGTAGGCAACCAGGGAAGCCTGCAGCCTAGGGCATCA CTGGCAATTTCCCCAATGGAGTATTTAACCACAAAGGGAAGAGCAATTAAAGCTAATCGC TCTGACAGCCTGGGGCCCAGACACACGTACCACTTTCCCTAACTCCCAGTGGTCTCCCCC AACCTTCATCCTCCCTAATTTGTTTAGTGCACTCTCAAACACTGTTTGCACTTCTCTGAC CATCTCTTTCTCTCACTTCCTCCCTCTCCCTGGTTCCCTGACTATCTCTAGACCTCTCTG GAGATGTCTGTCTGCTTCTCACACACATTCCTCTCATTCTCTCTCTGACTTGGGTTCCAT TCTTGGCTGACTCATACCCATTCTTTTTCCTTTCCGTTTCTTCCACCCCCTCCTCCTCCA TCCCTTGGCCACTCTTACCCAGAAACTAGCCACTCCCAGCACGCTAAGCCCTAACTGGAC CCAGGAAGAGAAGCCACCAGAAGCCCCTACCCTCATTAGTCCGCAAAATCCTGTCTCCTT GTGTTAGAGGAATGAGACCAAGATTTTCTCCCATCTTTCCCCACAGTTTTAAAGAGGAAC AATCTGAAACCATGGGGCTGGGAAAAGCTGCCAGAAAATCAGGATGGATTTGGGGACAGT GGCCCTTTCTGTCCACTCAGCTGTCCTGTCGGACTGATGACTTGGAGCCCGCAGTTCAGA AGACTCCTCATGGGATGCCCCACCCCACAGAGTGGGGGTGTGGTGGGCGGCCGGATGCGT AGTCCAGGGACGTTTGTGATTTGGAGTGTGCTAGACTATGTGTATAAGTCACATGGGTGT GTGTCACTGTGTGTGCTGGCGTGCCTTATAGGTGTGCGTGTTTCCCTGTCAGTTTTGACA CGGATTATATGAAATTAATAAGGGTTTTTACGTTAGATATACATCACTTCTCTACACCCC CAGCTCCTCCTTCCCTCTGGACAAGCTTTCCGCCAAGCCCACCTCTTCCCCAGGTGCAGT GAGCTGGGGGTGAGGGCACATGGTACCAGCCGCCCGCGGAACCGAGACAGGGCTGGGCCG GGAGACCGCCAGCGGAGGCGAGTCCGAAGCCTGAGCGGGGAGGGAGGGGCGGGCGCTGGC CTGGCCGAGCCGGCTGGGCGGGAAGCAGGCTGCATCCTAATCCACAGGCCCCGGTCCGAC TCCCAAACTGCCGTTCAGCGTGGAACGGGCTGGCCGGAGCCACGCCGCCTCCAGCACACG CTCGGCGCTCGGGACGCACCGACCGAGGGACGGACCCCGTGAGGCCTGACACAAAGTGGA CTCGTCCGGGGTCCCCACACTCCCCGTCTGGCCCCCGGTGTCCCAGATCGTTGCCCCTCC AAGCCTAGACCCCGAAATCTGCCCCTTCCCCGCGACATGTCTCCTCTCCGCCCCTCTCAC CGCCTCTGGAGCTGAGCGCTCAGGGCGCGGGCACTCCTGAGTCCCCGGTTCCTAAGCAGC GTCCGGAACCTCCTCCTCGGCTCCCGCCGCCGCCGCCGCCGCTTCTGCCGGCGCCGGCGC CTCTTCCGCCCGCGGAGCCGGAGCCCGAGCCCAGCGCCGCTCACTTCACCCGGCTGGCCG GTGATGTCAGAGCCGGGGAGGGGCTGGGGGCGGAGAATGGCGGGAGGAGGGGGAGGACTT CTATTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGAGGGGGAGGGAT GGAGAGGCAGGAGGGGGCGGGGGACCGAGGGGCTGGGGTTCTGGAAGACTCCTAGGATGG GGGACAGAATTGGGCGGAGGGCTGGAGCGGAGACGGTCTCTTCCCCCTGAACTGCGAAAC AATTCTCATATTTAATTCTTACCCAGTAGGGCACCCTCCTCCCCTTTTGACCTTTGGATG ACCACGGTGCCTAGGACCCCTGGGAGGCACAGAGTAGGTTTGGTTTAGGGGGTTGGAAAG CCTTTGGGGGCTGGATTCTCTTAGCTGCTGGCTTTAATATTTGTAAAAACTTCTTGCCTT GCCTTAAGGGTCAGGGGCGCAGTGGAAAATGACTGATCAGACTTATCCACATTGGGAGTG AGGGGTTGGGGCCACATGGGGACTTGAGGAGCCCTGGATCTTCTCTTTCCAGGATGATGC CTTCAGGCCCTCTTGCGTGCCTCTCACCTTTCCCAAACATGCCCCACTCCTGCCTTCCCC CTACCATGATGTAATTTTATTTTCTGGGGAGAAAAAGAGCAGCAGTGAGCTCAGCATGCA AATATAGACAACTTGCAAAGCCACACTTAGCTCCATCTCCTAGCTCTGCCCCTCTGCCCA GGCCCAATGTGGCAGCTCTCACTTCCCCTCTACCCCAGGGACTTTCCTCCCCCAGATTCT CAGCCAGACTGAAAAGAGGAAAGGAAGAATTGGAGAAGCATCTGTTTTCACCCCCATCTC TATAGCCTAAGGGGTCTTGCCTCAGCTCTGGGGCAGGGTTTGGCCCTGGAAAGAAGTCTG ACCCTGGGTAGGTCCTTCCTGCCAGGAACTCCAGCAGGCCCAGGTTGGGGGATTCCCCTC AGTGTTTGTGCCACTTCCAGGATCACCCATCTCATCTCAGTTCCTACCTGGCAGAGACTC CTCCAGAAACCTCAAACGAGCCCCTCCTTTCTTGGGTCTACACCATTCCTAGAAGAGGCC CAAGTTCCTGCTGCTCTGGGTTTCATAGCATTTCTCTGCTGTTTCCTCTCCCCAGCATTC CCTGTCACACACTAATCATTTGCCTTTGTATATATCATGTTTGCTCTGTGTTGTAGGGAC AAAAACTATTTCGTTGACCCATCTTTGAGACTCATGTAGTTTCTAAGTGAAAGGCTCAGG TCTGGAGGCAACAAGACACAGGGGCCTTGGGCTGCGTGCTAGTTCCACCCATTCCTTGGG CAAGTTATGCCTGAAAGCCTTAGTGTCCTCACCGGTCAGATCAGGGTGCCAATGTCTATT TCTGAGGGTTCTTCTGAGATTCAGAAATAGTAAGTCTCTAGGGACTGGCACAGATGGGTG CTTAAAAAATAGGAGCTATTATTTAGACCGGGGCCTTCCACTGACCTATGCTAGACAGTA AGCTCCACAATATTATTGTAAGACTAGCTTAGTGCCCATACTACTTATTAAACATTTATT AAATAGCTACAAGTTGGAATGAATACATAGTTTCTGCTTTCTACACCCCTGCCACATTCT CTAGGAACACTTCCTGGACTTGTCTGTGGAGAGTGAAAATATATCTAATCTCAGGTCTCA TCTTTCCGTACTTAGAAATCCTCTAAGTCTCTCAGCAACAACTTTACACCTGATCCATGA AAAATATAATGTTGGCTTGGCGTGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC TGAGGCAGGTGGATCACCTGAGGTCAGGAGTTCAAGACTAGCCTGACCAACATGGTGAAA CCCCATCTCTACTAAAACTACAAAAAAGTTAGCTGAGTGTGGTGGTGGGCACCTGTAGTC CCAGTTACCTGGGAGGCTGAGATAGGAGAATCTCTTGAACCCGGGAGTCGGAGGTTGCAG TGAACCGAGATCTCACCACTGCACTCCAACCTGGCAACAGAGTGAGACTCCATCTCAAAA AAAAAAAAAAAAAAGAAAAAAATATATATATATACACACACATATATATGTATATGTATA TATATATAATGTTTATTATTTATGGGCATCATCTCAAAAATATATATATAATGTTTATTA TTTATGGGCTTGTTTAGCTATTTGTATATATTATATATATAAAATGTTTATTGTTCATGG GCATCATCTCAAAACTATATATGTATATGTTTATTATTTATGGGCTTATTTAGCTATTTG GCCCTCCCATCCCCAACTCCCTAAACTCCTTTTTGCTTACCCCAGCCTGGGCCTATTCTG GAAAGACTGTGGGTCCTTTCTTTGCCAAGACCTCCAGCAGGGCCCAGGTCTGGGAGATCC CCATTGTATACAATATCTCCTCTCCATTCCCATGGCCACCACTTGGGTCCATGTTCTCCC AACATCACTCCAATTATTATAACAGCCACTGATTATGGGTTGGGCCCCTTACCTCTGGCA TCTCCATCATCTCCCCTCCCCATCCTGCTTATCGCTACCAGATTAAATTTTGCCCTGCCT CCTCGGCTGGCAGGATTCAATTCAAACAGCTCTACAACCCAGCCCCATTATGCTTACCCA ACTTCATGGCCACAACTTGATTTTTCTTCTTGTCTCTCTGGGCTCTGTGCCCCCAATATG ACAAACATATCCTGCCAGTACTTGATGTTTTCCACTGACTGAAATGTCTCCTCCTCAGCT CCTTTGTCTCCAACCAAATCCCATTCTTCAATTTAAGGCCTAGTAAAGGCTTACTTCCTT TGTGAAGTCATCAAGCCCACTCTGATCTCTCTTCTGAGTTCATTCTGTTCTTTCCTTTGT TCTTCCTTTAGGAAACATTTACTAGGGACAACTTTTGAGTGTCAGACCCTGTGGACACAA AGAAAAAGCTTGGGTTCCTGCCTTCAAGGGGCTCACAGTTGAGTGGGGAAGACAGACACG TAAATGAAGAACAATAACAGACTGTGCTGAGTACTGGAATGGAAGTGCAGCAGGAACTCA GAAGAGGTCATCACTGGAGGGGCCACCTCTGGGAAGGCTTCACCAAGGAAGTATAATTGG AGCTCTGTCTTGATGTTCAAATAAGAGCTGCAGAGAGGGTGCTATCGAGCAGCACATAAT CACTTAATTACATATTGCTTTGTATTCTTCTTCGATTGTTTAGTATGCTTGTCTTGACTT CTCCGTGAGGCTAATCAGCTCAAGATCAGGGACAGGCCTAGCACTCTCTGTTCTCCCAGA GCCTAACAGTGGCCCTGGACAAACACCATGTGTTCAGAAAAGGCTTGTTGACTTGAAGCA GATTAACAATCCAGGCTTCTCTGGGAAAGCTGCCTGGAGGAACCCCAGTCCCCACTATAA GAGTCCCCCAGCTCATCCCTAGCAAGGCACCCACATCTGAATTCCCCATCAGTGGCCACC TCCTCCTGCCATAGGGGTGAGACTTCACCAAAATACACTTGTTCATGCTGCCCCAGATGT CTTTATTGAGGCCTCTCATTTGACCCAAATACATTAACAAGTGATTGCTGAGATACAGTC CCAAACACAGTATTCTCCCTTCCTTCTGGCCAAGGACAGGACAGTCAGAAAGATACAGGA TTAGAGAGAGTGGGGGAAAGCTGTGCATAGATGGAGGGAACAGAACAGAGATGGGGCCCA TATATATGGCTAGAGGAGAATCACAAGAAAGAGTATGGAGAGTGATGGAAGAGACACATA ATAGATACAAGTAAGTTATGGGATAAGAAACAGAAGTCAGATAAGAGAGAGCTGGCCTGG TGTCTAGGGAAAAGTAGCTCATTTGCTCATCAAATGAGGGGGATCAGTGTCTCAGCACCC AGCATATAGACCCCAGTTAGCTCTATGGCAGAGAATAACCTAGTCTCCCTGGAGGAACTC AGGGAAGGACAAGGGAAGGCAGGAGAGAGCATGAAAAGACCAGTGGGGCTGAAAGATGGT TGCCATAGCAACTAGTCATCATCATCATCGTCATCGTCCTCTGTGTTGATCTCGCCCTCC AGGACATCCTCCAGCCAGTCCTCCAGCTCCTCAGCAGAAGGCAGGTCCTCCTCATCGTCC ATTTCCATCCATACGCTATCCGCCTAGGAGATGGCACAGGCAGGGACGGAAGCTAAGTCC AACCCGGGTCTTAGGATCTGTCTTCCCACTCACTGGACTCTGTACATCCTTCCCTACATT CTCAGTCCCTTCCTTTCATCTGCCAAAGGCCAGGGAAACTGTCCAGGTGAAGGTATGGGT TATGGGTTAGAATAGTGACAGGTGAGAGTGGGAAGAAAAGTTGGATTGGCAAATAGACCT TCTCCCTTCAATCTGTCTCCCGTGCTCTTGCCACACTGAACTTCCCTATTATGCCTTTGG TGCAAAACCACTGGTAGCTCTTCATGGCTTATAAGAATAAAGTTAGCAACTCTTCGGCAT TCAGGACATTTCTTTCTTTCTTTCTTTTCTAAAAGAGACATGGTCTCACTCTATTGCCCG GGCTGAAGCGCAGAGGGGCAGTCATGGCTCACTGCAGCCTTGAACACCTGGCCTCAAGTG ATTCTCCCACCTTGGCCTCCCAAAATGCTGGGATTACAGGCCTGAGCCACTACCCTGGCC CCAGGGCTTTTCATAACCTGCTTTTCTAGTACCATTCTCAGTGATCTCTAGACTCTCAAC CATAAAAATCCACCTGCCTTTTCCGGGAACCTGATATTCATTTTCCTGTTTTTAACTTTT GATCTTGCTTTTTCCTCAGTTTGGAAATGACTTCCCTGAATCATCACTTGTTGAAATCGT ATACATTGTAGAATCTCCATTTTGAATATCACTTTTTCTTAAACTTTTCTCTGATTCTGT CAAGCAGAAATCAATGTGATCCTGTGTCTTATTTGTATCGTTATTATAAAGTTTATCAGA TCTGGCCTTGTAGTTAATGGAACACTTGCCTCTCTAATTAGTCTGAGAATTCTATGAAAG CAGAGACTGTGGCTCATTCAGTTCAACTTAGCAGTTTTGAAGCACCTACTGTGTGTGCAT AAGAAGACTTCTGCCCTGAACAAGCTCAAAAATCTACTGGAAGAGACACACATAATACAT AAATAGCCATTTAAATGTCATGTTCTCAATGGCTATTGAGCCCTGGGAGTGCCAGGGAGG GAATGATTTTAAATGGGAGATCTGGAAAGACTTCACAGAGGAGAAAGAATTTGAACTGGG CCTTGAAGGATGAGCCACTGATTCCAACATGTGGGACAGGGCCACATTCAGATCCTAAGT CTCCCCCTCCATCCAGCCACTAGACTGGGCATGTCTGCGTCCTGTGAGAAGGGCCCAACT CCTAGTTAGCAGAGAGGAGGAGAGCTAGCTATGCTAGGAAGTAGAGTCGGGGGTCAACCC GGGATGAGGACAGGAAACTCACATCAGTAACATTGACGACTCCTATTTGTGGGGCTGACA AGTCGATGTCAAACGTCTTCTCCCAGTATGGGACCAGCTGTAGAGAGATCAAAATACAGC AACTTAATAGATACTAGGGAGCACATGAATCCAGGAGGATGAGTGTGAGGGTCAGCCCAG GGATGGAGAGGGGACAGTGCGAACTGGCAGTGGATGGGGACAGGTCCACCTGTGAGGGCA TCAAGGCAAGGGTAGAACTAAACAACAAAAGAGGAGAAATCCTAAAGGGAGAGAATCGGG AGGGTCAGCTGGGTGCACTGGCCCCTCTTTTCTGAGGAAAACTGGATAGGAAACCCTGTT CTGATCCTGGATCAGATCCTTGTGTTCAAGGTCAAGTCACTTCTCTCTGGCCCTCAGATC TTACATTTCTAAAATAAGGCAAGTATACCTGGTAAGTGCCAATGTTTCTCACGTTTCTCT TTGTTCTTTCAGTTACTCATTCAACAGCGAGTGCTAGGTGTTGGGAATGTAGCTGAGAAC AAAATCATCTCCTGAAACAGGGAATCTCTGTGCTATGATTCTATGATTGAGTGTGTATAC CCATGTGCAGGACTATTGTGCCTCACAACATTGGTTTTCTTTAGGAGTCAGCCCTAGCAC CTGAGCTACCCATCCAGCCTCTGCTCTGGGAATGTGTGTGATGTCCGTCCTGTTTCCCCT TGCTCAGGATGCCCTCCATGCCAACAGTGCCCTTAAGCATGCAACACGCATACCCTCCCA GGGCCCCCCAGCTAGGAGGTGGGGATGGGACCTCTGAAACAAAGCCCTCACTAAGAAGAT GTCACAGTCCAAGGCCCCACCTTAAGATAGCAGTGCCTGAGCTGTGCCTCTTACCAGGGG GAAGTCATCAGGGTCAATCCAGATGATGCTAAGATCTGGGTTTTCAGTGTTATCTTGGGC CACAGCCTTGAGAGTCTCTAAGAACTCGAAACCATCTTGGAGGGAACACAAGTACAAGGT ATGAGGTGTGTAGAGAGGAAAGGGACCCAGGTGAAACAGGAGTGCAGAGCTACCTCCCTG CTCCCCAAGCTTCACATGTCTAGCCCTAGGCTGTTTGCAAACTCCCAGGAAAGCCTCCTA GTGAGGCCCATGCTCCAATAAACACACCCACCTCCCCCTGCCTTCCCTCCAGTCCAACCC GGTATTCCTCCCTCACCAGGATCAGCTTCCTCTGCGAAGGCCACAATGTGGATTCCATCC ATATCATCCTCCTGTCAGGGGGTAAGAAGGAGAACAGGGTTTTGGAGAAGACCTTACTAT ACTCCCTGAAGTTGAGGAGCCCAGAACAGATCCTAGATGTTCATTGAACCTCAATTTTGT GGAAATCCAGCTTCAGGACCAGATATATTCTTTCGTTTTTTGGGGTTTGTTTTTTTTTGT TTTTGAGACAGAGTTTCACTCTGTCCCCCAGGGTAGAGTGCAATGGCGCGATCTCGGCTC ACTGCAACCTCCGCCTCCCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTG GGATTACAGCCATGCGCCACCACACCTGGCTAATTTTGTATTTTTAGTACAACATTGTTT CACCTTGTTGATCGGGCTGGTCTCAAACTCCTGACCTCAGATGATCTGCCTGCCTCAGCC TCCCAAAGTGCTGGGATTACAGGCGTGAGCCACTGCGCCTGGCCATATATATTCTTGTGA TGGTGACCTTTTTCCAAGTGACACTCCTTTCAGCTCCAAGGCCCCACACTTCCTCTGATA ATCCCTTTATCCCCAGGCTTGAGGCTCTTCCCTTGTCATCTTCAATTATGTCTGTCTCCC ATTTCCTCACACATTCTTCAGTGTAGAAATCTTTCAGTTGCTGCTAGTGCACTGTTTTTT CTTTTTTCTTTTTTTTTGAGACGGAGTCTCACTCTGTCCCCCAGGCTGGTGTGCAGTGGC GGATCACTGCAAGCTCCGCCTCCTGGGTTCAAGCCATTCTCCTGCCTCAGCCTCCCAAGT AGCTGGGACTACAGGCGCCCGCCACCACACCCTGCTATTTTTTTTGTATTTTCAGTAGAG ATGGGGTTTCACTGTGTTAGCCAGGATGGTCTCGATCTCCTGACCTCGTGATCCACCCAC CTTGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCACACCCAGCTGGTCAGTGC ACTGTTTTTTCTAAAAATGGGCCTGAGGAGCAGTAGGGTGGGGTTTTTCTAGGACTTGAG TCTTCTGGCACCCATGCTTCCCTGAGGGCTTGACCCTGGCCAGGGGCACTCACCCAGGTC TCATACATACTCTCCGGCTTCAGTTTCCTCAGGGTTGATCTAGAAGAGACAGACAGAGTG TCATTACTCAGTGGGTTAGAAGGATGCCCCCTCCAGAGGGTCCTGTAGCAAAGGCTGCCT CTAGGTCAGGCCCAGGGCACAGACAGCTTGTAGCCTACAACAAAGCCATCTGGCAAGGCC TCAACTCTGGGCACCAGGCCCGGCTCATTGCATGGTTAAAGCGGTGGGAGAGGGGAGGGT GGGCAAAGGGACTGGAAGAGAGACTGGGGGAGAAAGGCAAGAACTGGACATCAGGATATT CATTAATTTATTCATTCATTCACTCACTCACTATGATTGAGTGCCCGATATGTTCTAAGC ACTATGCTAGGTGCTGGGTACATACAGTTGAACCAGGCAAGCATGTTCCTGCCTTGATGA AGGGAGCCAGTAGTATGGGAGAGTAAGTACTGTATATACTGCAAGGGAGCTTGCAGTGAT CCACCACTGCACGCTAGCCTGGGGGACAGAGTGATTGGATATTTCCAGCTGTGGACTACT ATGAAGGAAGGGAATTATGTGTGAGTGCCCGGCAGGATTATTCAACCTCAGCACTATTGC CATTTGGAGCCAGATAATTCTTTGTAGTAGGGGGCTGTCCTGCGCACTGTAGAATGTTTA GCAGTATCCCTGGGCTCTAGCCACTAAATACTAGTAGCACTCTGCACAACCAAAAATGTG TCTAGACATTGCCAAACATCCTTTGGAGGGCAAAAACCTATGCCCACCTCGCCACGCCTT CCCACCTTGTAGAGAACCATTGGTGTACGATATTGTATTAGAAAGAACATGGGGCCAGGC GCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGACCGAGGCAGGCGCATCACTTGA GGTCAGGAGTTTGAGACCAGCCAGGCCAACGTGGTGAAACCCCATCTCTACTAAAAATAC AAAAATTAGCCAGGTGTGGTGGCGTGCCTGTAATTCCAGCTACCTGGGAGGCTGAGGAAG GAGAATCGCTTGAACCTGGGAGGCGGAGGCTGCAGTGAGCCAAGATGGCGCCACTGTGCT CCAGCCTAGGGGATAGAGTAAGACTCGGTCTCGGAAGAAAAAAAAAAAAAGAAGAAGAAG AAAAAAAGAACAAACATGGGACACATCAGGGTTAAAATCAGGGTTAAAAGCTCTGACACT TATTACCTGTAGAAACTTTCACTGAGGTTAAAAGGACTTAATATAATCATAGAGATGGAA AGTACCTTGCAGTTCCTGCCCCACCACAGGCAGTCAACACTCATTTGTTGACAGAGATTA TTTAAGTCTCAATCAACCTCACACTGAATTATACACACTTATGAAGGACCCTCTCGGTGT AGGGCTCAGGGCTAAGTAGTGGGGTATAAAATATTGTGCAAAATTGTCAGTGTATCAGAG AGCACTGGTGCCCAAAGTGTATTCATCTCCAGGCAAGATTGGCTTCCCGGTTGGCTAAGC TTTCCCCAGCCCATCTCACACAGTGTGTTCTAGCCCAAGGAGGAGCCGACCCCGCTGAGA GGGTTGCCCTTGGTCCCCACCTCCTGTGCTCCTCCACGAAGTTGACAATCTCCTCTTCGC TATTGGGCTTGTCTGGGATGGTCACAGGCTCTTCCATGAAGGCCTCGTAGAAATCAATCT CATTCAGCTTCAGGGTCAGCTTCTTTGCCACCTTTGGGAGAGGGGGTAGGAGGGGAGTGG AGCAGGAGACACAGGGTCATGTCGAGAAGCAGTATAATGGGGGAACAAATATTAGGAAGG GAGTCAGAAAGCCGGGATCCTTGTCACTGCCACTGTGACACCTGACAAGTGTCTTAACTT GCCTGGGGTTGGGTTTAACATGAGAGGGGTGTTAGATCATCTAAAGCCCCTCTTCAGCTC TAAATCTATGGAGTGGGAGGAGCCGGGGGGGGGGGCAGGTAGGGAGTGCCAGCACGTAGG AAGGGACCAGGTCAGCCATCGATTCTGGGAGAGGAAACTGGAGGACAGCTTCAGGACATG AGGCAGAACCAATACAGCTGCGGGGAGGAGAACCTTGCTGTCGAAGGTGGCGAAGAAGGG GATGTAGGGATGAAACTCCTCAGCTGCATCCTCGAAGGCTTTGTAATCTGGGGGGTGGAA TGCAGAGTCAGTCTCTGGGGAAACCAGGGTCTGCCCGGGAATCATCCCCCACTATCGTCC CCAATTCTTTGCAGGCAGGGTTCATTTTGAGACCCACCCCTTCTAGTTCTTCGAGAGTGA GGGGAAGGTGGAATACTGGAGGTGCTTGTCTGGGAACCCCCAGAGTACAGGGAGGTCAGA GCTGTTGATGGTGCTGACCACGGCTGGAGGAAGAGGTGGGAAGTGCAGAGGTAGAGGCTG AGACACTGGGTGATGTGGGGAGGTGGGAGGACAGGTGAGATGGGGATCCAGAGAGGGGCA CAGTGGAGTCTGAGGGTTACCCACGCTCTGAGTCTTTGCTCTTGAAGTAGCCAATGAGTT TGATCTCATCCTCAATATTCTCAAACGCCTGCAGCTCTCGTTCACCTTCAATCAATTCCA CAGGGTCCTCTAGGACCTGAAAGAGGAGGACATTGCAGGAAGAGAGTTTCTATCCTCAAG TAGAACCAGAAAGGGACCTAGGGAAAAGAAGGCTGGGGAACTGGAGGAGGGGGCTAGATG TTGACAGTGTGTGGGTGTGTGTGTGGGGGATTGCATGTGCGTGTGTGTGTATAGTGTGTG ATGTGTGCAGTGTGTGGTGTGCATGTGTGGTGTGTGTGTGCATGTGATATATATGTATGG TGGGTGTGTGGTATGTATATGATGTGTGTGTGATGTGTGTGGATGGTATGAGTGTGGTGT GCATGTGGTGCATATGTGTAGTGTTCGGTATGTAGGTGATGTGTGGCCTACTGTGTACAT GTGTGGCATGTGTGTGATGTGTGTGAATGTGTGGTGTGTGTACGTGTGGAGTGTGCATGT GGTGTGTGCATGTGTGTAGTGTGTGCATGTGTGGTGTGCAGGTATGTATGTGCATGTGGT GTGTGTGTGCGCATGTACGGTGTGTGTGCATGTGATATATCTGGTGGGTGTGTGGCATGT ATATGTTGTGTGTGGTGTGTATGGATGGGTGTGTGTGGTGTGTGTTGTGTGTGTGGTGTG CATGTGGTGCATATGCATAGTGTGTGGTATCTAGGTGATGTGTGGCCTATTGTGTGCATG TGTGGCATATGTGTGATGTGTGTGCATGTGTGTAGTGTGTGTGTACATGTAAAGAGTGTG TGGTGTGTGCATTTGCGTGGCATGGATGTGGTGTGTGTGCATGTGTGGTGTGTGTTTGTT GTGTATCGTCATGTGGTGTGTGATGTGTGTGGAGTGTGTGGNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNCCTGGATTAAGCCTAGGGGGCTAGCGTGGCCCCAGAGCT TTCTAGGGAGTAGCTGGGGGATCAGGTAGGGTGAGGGGAGGGAATAGAGAGGTGTAGATT CTAGCAGTATTTCTCCCCTTCTCTGACCGCAACGACTAGAGATGAGTATTCATGCCACCC CCTCTGAGCACTCTAGTAGCTGGTTCCCAGTCAAGCTCTTTAATTGCTATTACTGACCAG ATGACTTCATTATTACTGACCACCCCTCCCCCATGCATGTCCAGAATCCCGTCTCAAGCC TGTGCTGCCCCCTAGTGGCTGACTGCTCTAACAACCATGGCTCTGGATGGGAGGGGTTGG AAGCGGAGTTTGCAGAGGTCTGGCCAGCCCCGCCTGTATTCCCCGACTCCCCTTCCCTCC AGCACCTAGCCATGTTTTAAGGTAAGTATAAAGAAGGCCTCCCCCACCTCTTTCTGGGAT TTGAGCATGGAACTTCATAAGGAATAGAGAGGCAGAGTCTCCGAGCCATAACCCTCCCAA CCTCATATTTTCTCACCCCCTCTTTTAGAATAGACATAAATCTGAGAGATTCCCAAGCCC CTCGGATCCCAAGGACTGCCTGACAGGTCCTCCGCCCTAAGCCTCCCCTTGTCTCAATGC CACCTTCCCCTCCCCTGCCCTCCCCTCTCTTACCTAGTTTCTTGGCCACAGCTGCATCCT TCTCAGAGTCTACCAGCCCGAAGCCAACACCCTTGTCTTCTAGGACTTGGGCTGCTAACT GGAGGGAAGGATTATGATTAAAATTAGCCCCTGGAATTTTTATTATCCCCTATTCTCCCT CTCATGCTTTCAAGTTGGGTCAGTTGAGGTGCGGGAGATATAAGAGTTGACCTTGACCCT TTGCTAAGATCCAGAATATCCCCCAAATTCCCTACAGCCACACAGTTCTGTTTTTGGCTC AACTTAGTTCATGAATATTGATTGCTCATTTGCAATGTGCTTATTATGTTGGACTTGAAG ACACTGCACTCAATACTTCCCAGTGCCTAAGAGGTACTGAGGAGTCTGGCTTCAGAGTGA CTGAGGGCCCCTTCCCTCCTTCAGGGTTGAGTCCTGCATTCCATCCTGCTCAAGTCACAC CTGGAGGTCCCTGTCCCTGGTCAAGGGCCAAGCTCAGTGTGGGGTTGATCTTGGAAGTCC CTGAGATTCTTCAGAGTGACTCCCAATGGGAAGAATTTTGGAGGGTGGGAGGGTAGTGGT GGGTCTGGTCATGTTGTTGAGGAGTTGGGGAAGGCCAGAGAGCTGAGATAAGAGGTCACC ATTTGTTACCCCCCAGAGGGAGAGAGACTGACAGCGACCGGACAGTTCTCCCCATCAGGG CCCAACTTTCCCCTTTCGCACTCTACTTCAGCCTGTCCTTAGGCTGTGGACAGTCACACC TGGAGGTCCCTGCCCCCATAAGCCTTCCAGCTTAGCGTTCAACCCTGATTTTCTCTGCTG TGGGCACAGCTTGCAGCTCTACCCCCACTCAGCACAGACTCAGGTACTGTGATTCTCAGA GGGGTGGGGAAGGGAGGCGGTTGGCAGGTGGATGGCCAGGGATACTGAGCACTCAGGATA AAAATACTCGGCTCATTAATCAGATGGCAGGTTCTAGCACCCAGCAGGGGTGCACAAAAT GAGAGCCTGTGGTTCTGGTGTCTCACCCTGAAATGCTCCAAGCTCTGGACAAGCTGAGGC CAGAGAAGGGGCCACAGGAGCTTGGACAAGAAAACTCACATCCCATTTCCTAAAGGTGTG TGTGTATGAACACATTCCCAAACATAGGTTTTTTTTCTTTTCTTATGATAACTTCTTTCT CCTTTGGGCCTGAAGTCATTTTGGAGGTGAGGAGACTTTTCCCACAAAAAGAAGATTGGG GAAGACATTCTGACACCTCCTGCAACCATAAGAATTTTCCAGTGAGGGCATCCAGCTTAT CCAATGGAGACAAATGGGGAATTAGGGAGGGGGAAGGAAGAGAGAGGGGACTGGGAGTCC AATGGGAGGCATGATCTCTAGGAGATATTTAAACATGGCATGCAAGTATCATAACATTTA CATTTACACTCAGTTTGGATCTCTTTGGGGTGCAGCCCCTGAAGTATGTGGAGAGGACGT GTTCTGGCTAAGCAGATGGGTGGGGTAGGGGAGTGCAATATACACTGCTGTTCTCCCCTG GCCCTCCAAGTACCTCCCTTTTTCACCCTCAGTGTCCTAGCCAAACCTAAGTCAAATACT ACCAGCCTCCTATAGCAGGGAGGGGAGCTCTTCCTGCAGCACCCCTGCTAAAGGTTTCCT GACGCTGATAGTACTTTTGGGTTCCTGAGACTCTGTTTCTCATTTGACTAAAGCCACATG CCACTTGCATCCTGTTGGTCAGGACAGGGTTCCTACCACACTGCCCCTCACCCCCAGATC CCATCCTCAAAGAGCTACATGGGTGTAGGATAGGGGATTCCGGAGAGGGGCTAGACATGC TCTGCAGGCCTGCAGTGCCCCCAACTCACCTCCAGGATCAGCTCCTCCATCTCAAATTGT CTTTGTGAGGCCTTGTCATCCTCGGGGGGTTCATGGTAGAGGAGTGCCAGCACCTCATAC TTCTTGAACACATTCTTGTAGTTCTTTGCATTGACATTGATCACACGGTCCACACCATCG TACTCAGGGAAGTCCAGCCCTTCCTGCCCCTGTACCCCTGACTTGGGTGTCCCTAGCACC AGCAGCAACAGCAGTGCCAGCCGCAGACCCGGCACAGCTCTGGGCCCCATCCTGTCTGTA GCACTCATGGAGGTAGTGGGATCTGGGTTGGCTCTCCTGGTCCAGAAGAGGTTAGCTGGG GTAGGGAGGGGCCCCTGGGTCCCAGATTCTGAGTTAGGGGCTCAAGTGGGAGGGGGGATT GGGGAATGGCCCAGAGCAGTGGACAGAGGGCACTGCTGGGTCCTGGAGAAACTGTCGACA GAGCCAAGGGAAAAAGGGTCAGGTGGAGGAATAGGAGCAGGGGGCGGGGAGGGAACCGGA GCTGCCCCCTGAAATTGGCACCCCTCAGTCCCCACCTGGTCCTGTCTAAATATGTCTCCA TGGTTGGCAGGAGAGACGGATAACCTTCTGAGGCCAGGACAGCTCCATGCGGGCCGGAAT CCTCCCACCTCCTACACTTCTACCCCAGGCTCCCAGGGGCTCCTTCCCTCCCCCTCCTCC AGTGTCCAGGGCACCTCAGCCCCGGTCCCCACACTGGCCTAAGAGCTCATCGCCATATTA AGAAAGGAAAAGGAGAGATGCCGGAGCTAAAAATAAGACCAGATGAGTCGGAGGTAAATG AAGCTGGGGCTGGGGGAGGGGAGGTATAAGGGTAATTAGGGTGGGCCGAGGGTGGGGCAA GGGTAATTAGAAGTTAAATGCAGTGGAGAGGAGGAGCTAACTGGGTCAGAGGCTAAATTG ATAATATAGGACAAAAGGGGGACAAATGTGGTATTGGCTCTATGTCCTAAAGCCTGGGAA TCTTCTGTAGGTGAAGTCTGATTCTGATTCTTTGATACTATGTAGGAGAGTGGGGCGATA AAAGTGCAAGCCAGGCTGCAGGAAAGAGACCCCCTCCACTTTCTTTTAAAGAACCAGGAC CAAGGATGAGGTCATTCTCTGAATAAAAGATGGAGCCGCGTCCAAGACTGGCAACCTGGC TCAGCTCCAGCCAGTTTCCTTTGCTTCACTCAGCACTCCTAACTTGGGAATGCAGGGAAG GACAGGGCTGGCCCAGATCCTGTCCTGTAGAGATGTGGGTTTGGGGTTTCTCTGCCTATA AAGCCCACAATGAGAAGGGGTCTGTCCTTTGGTTGCCACCTGTGTGTGCACTCCCTACCC TGATCCTATGGGACTCGGTTTTCTGGGGCACAGTGGGAAGGGAGGTTTTCCCAGGCTGCA TGCTTCCAAGGAGAGTGAATAGCTACTATTTATTCCCATGTCTTTGACAAGACAAAGAGG ATCAGGTATTGACACCAGGGCAAAAAAAAATTAACATTAGGCAAGCATGAAGAGGTGAAC CCTGTGCCCTGAACCAAGACTGATGATTAATTCTGTGCACCCGAGATCCAAAGCAGAGAT GGGCGGGTAGGGGCTTAAACTTCTGGATCCAGCTTGGGGGGTGAGGACAGAGTAGTGAGT TTAACTCTGGATACGTAGGAAGGAAGGATCCTCTTCATGGCCCTCCAGGGTTCTTACTAT GCACAGGTAAACTGAGGCATGAGGGAGACCATAGAGGGTCAGATCAAAGTCACATGCTGC CACTGCACCCTGAGGTATCTCTGATTCTAGAGGGACAGTGGTGTTTTTTTTGTTTTGTTT TGCATCCAGGGAGGGTCATGTAATTATGTTAGCAGAATAACTTTTCCACATGTCTGTGTG GTGGACCTTACACAGCTGAACACGGAAGGCCACAGAAAATCTCAAAAGCATGGCAGGAGT GAGGCCAAGAGGGACAGCTGTCACTGTAGCAGGAGAGGTTGGAGCTAGCCTAAGCACAGC ACGTTGGAGCTGAAGAGACCTCAGAAGCCCATATCCTGGTCTCCCTGAAGAGTGGCTAAC GTGGGAAAGCCCCAAGGCCAGAGCAAAGGCAGCCAGGTGAGATGGGGAGGCCTGCCCAGA AGCAGATGATCTAGGTGATGTCCAGCCCTGATTTCTCACTTCTGCATTCCAGGGGAGGCG GGAGACACTGGGACAGAGACGCTGGAGCATAAAACTTGTTCCATCTTGAATCTGACCTTT TGTACCCCCAAGAGTATGAGATGGGACTCTGGTGGCGAGTCTGTTCCATCTCCTGGTCCT TTCCTACAGCTACCGGACATTGCCATCCATCCCGTTCCCTCTCGTTGCCCTCTCTGGCTC CAGTCCCACCCTTCCCCTTTCCAGCGCCCGCCCCCACTGCTCTCTCTTGATGCTTCACTC TGTCTACTTTCTACTCAGTCTCCTTCCCTTCAGGCCCTTGGACTTGAGAAGCCTCAGCCA CTGGTATCAAATGACCGTGAGTTGGGGCCTCTGTATTTTTAACCCACCAGACACCTGAAG CTCCTGCTACTGAAACCTGAGGAGCTGGCCCCTCTGTGCTCCTGCTTCCCACCTCACTCA CATATACCCTGGCCCACTGATCTTCCAGGGTCTGGTTCAGCGATGTCAGCAATTGGGGAA GGACCCCAGGCTGATATAGCACTGTTCCTAGGAGACCTTGTGATGGAAGAGGGAGGAGAA GAGGGAGAGAGACCTCTGAGGAGGGGCCTGATGTAGGGAAAATGGCGGGCGATACTCACG ATGGCCTTCTCTTTGCTAGCTCATGGCCTCTCATCCTCCAGACCCACCCCGGGTCCTTCC CCATCACTAGCCTATTTTTTTTGTTTGCTTTGTTTTGTTTTTGTGTATTTTTGGCCCAGC CCTCACTGAAAGACTAGTCTGAAAGTGATTAAGGGCCCACGTTCTGAAAATGGACAGACC TTGGTTTCTTCTTGGGTAACATGGAGTGGGTGGTAGGGAAACATTTATGTGACTTTCTTG ATGGTGTGTATATAAAACCCTCGTCCCAGTGTTAGGTGTAGTGTGCAGACACCTAGTACA TATGTGTTTTGTTGTGGAAATAGCTGATGGTGTTCCCCTAGCTTTCGTTAGCATTTCTCT TCCACCCTGTACACATTTGGGAACAGCCAATGCTCTACTCTGAAAGAGGCCTGAGAATGA ACTGACCCACATGGCACAGTGGAGGGGCTCACAGAGCAAAAGTGAATGAGCGGGTGAAGG GGAAGGAAGAAATGCTGAGACGAAGGTGGGCAGGAGAGAAAGGCCCTCCACGAGTTTTCA CTCATCTGAGAATGCACCTGGGCCCAGGCACAGAGGCCAGGCTCTTGGGAAAGTCCATCA CCCCGTGCAGAGCAGGGGCGGCTGCTTCACAGTAAAGGCCACAGGGATTCAGAAAGTCTT GTTACAGCCTCTATCTCAAGGCTACACCAGAGAAAACAGGCCGAGGGCCAGAATGGGGTT GAGGAGCCCTGATGACCGAGGGTAGAGGGCAGGGACCACCAGTATGCCTGGAGACTGTCC TTCCTACCTGTCCCTTTCTCAGATGAGGGACAACACTCAGCACATGGCCATTCCCAAGTC ATTTAACCTCTCTGGACTTCAGGCTTTTCACTGATGCAATCTGATCTCTTCTAGCACCAC AGCGCTGTGGTCTGCAAGCTGGTCTCAGGAACTGCAAGGTGGGGTCAGATGACTCCACCC CACCTACCCCCTGTGCGGATGCTGTGGACCCTCTTCCCACGTGTGACTTAGCTGCTCCTC TCTCCCCCACCTTCCATTTCTCTGATCTCAGCTGGAATTTTGAGGCAGTCATTTGCCCTG TCCTTGCTGTCCAGTGGCTCGGAGAGTGACTTTAAAGGGCAAGGATGCTTGATACTGATC CTATCCCAGCCTTGACTCTGGTCCTTAAAACACTTCCCCAGCCTGGTCATCATGAAGACC TGTGGAGGGAGCTTCACAGTAATCCCCACTCCCCCAAGATCAGATTTGACACATCCAGCT GGTGAGGGCTTTTCCAGACATTTACTGTCTAGACTGGCTACGGGATTCAGCAGGACCATG CCCCTCCCTGCGGGGCTCCAGCTAGATGCAGGCTGGGCTTCCCTTCAGCCCACCTCATCC TCTGCCCATGATTCCCTCAAGCCAGCCCAGGATTGCCCATCTTTCTCATCCAAGATAATT CATCCTAGTGTCTCAGATGTTGTGTCAAACTTATAATCTCTGGCCCCATCCCAGCTCTCA CAACACCCCTGTGTCACATGAAGCTCTTCATCTGCTGAGTTTAGTAGTACGTCTCCCTTT CCACCCAGCCTGTGGAAGAGAAGAGGCCAGCGTGAACTGGGAGAAGGAATTAGAGGCATC CAGGGGAGACAGGCAGAAGGGAAAGCAGGGACAAGGTTGGAGGTGGGAGGTCTGGAACAC AGGGCACTGAGGGTCAGATGGAGCAGAGGGGTGCAGCCAAGGGGTAGAGAGGTCTCGGCT CCAGGCGCAGTCAAGGCTGGCAGCGAGGAGGGGAGAAAGTCAGTGGTGGGTCTGGAGGGA CTAGGTGGGATGGGAGAGCTAGTGAGGGGGCTGGTGACCACTCAGTCAGAGCGGGGCCCA GGGGAGCCTCACCATCCGGGTGCTGACGGATGAGGAGTTTTCTGATTTCATCATAGACGA AGATGAGAATACTGTAGGGAATGGCACAGAGCCACCAGGTTATCCTGTAGAGAGCAAGAG CCAGTCAGCATGGCAGGAGAGAGAGATGCCAGAGGACAGGTGCAGAGGGCAATGCACAGG AATTGCACGTTTCATTGCTTGTGTCTACTGTGTGCGTGGGACTGTGCTGGGTGCTGGAGA CAGTGCAGTTGAATAAGATCTGGTTGATCCCTTTTTTTTTTTTTTTTTTTTTTGCGACAG AGTCTTGTTCTGTTGCCCAGGCTGGAGTGCAATCTCGGCTCACTGCAACCTCTGCCTCCC GGATTTAAGCGATTCTCATGCCTTAGCCTCCTGAGTAGCTGAGATTACAGGTGTGCACCA CCACGCCCAGCTAATTTTTTGCAATTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTG TCACCCAGGCTGGAGTGCAGTGGCTTGATCTCGGCTCACTGCAAACTCTGCCTCCCAGGT TCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCTTCCACCAT GCCCGGCTAATTTTTGTATTTTTAGTAGAGGCGGGGTTTCACTGTGTTGGTCAGGATGGT CTCGAACTCCAGACCTTGTGATCCGCCTGCCTCCACCTCCCAGAGTGCTGGGATTATAAG TGTGAGCCACCATGCCTGGCCAAATTTTGTATTTTTAGGAGAGATGGGGTTTCGCCATGT TGCCCAGACCGGTCTTGAACTCTTGAGCTCAGGCAGTCCACCCGCCTCAGCCTCCCAAAG TGCTAGGATTATAGGCATGAGCCATCGTGCCCGGCCTGAGCCCTACCTTTGAGGAGGTCA AATCCTGTGGGATTAGTGATACGGGAGTGGAGAGGAGAGGCACGAGACAGAAACATAAAG AGCCAGTGATAGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAGCCTG ACCAACATGAAGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCTGGGTGTGGTGACG CGTGCCTGTAATCCCAGCTACTCAGGAGACTGAGGCAGGAGAATTGCTTGAACCAGCGGG GCGGAGTTTGCAGTGAGCCGAGATTGCGCTACTGCACTCCAGCCTGGGCAACAGAGTGAC ACTCCATCTCAAAAAAAAAAAAAAAAAGCATTATCAATAAGATATTTTACATTCTTCTTC TCAACCTAAGTCTTGGAAATTCAGTGAATATTTTTCACTGACAGAATGTTTGAACTCAGA TACAAAATTATTTTCAACAGTTGAAGGGGAACGTAGTCCAACCAAAATAATGAAGTTATA ATATAGAAAAACATTACTTTAGTTTTTGACTTTGATTAAAATTAAATAAAATTACCAATT TACTTCCCCAGCCTCCCTAGTCTCATATGTCAAAAGCACAATAGTTGTATATGGATAGTG GCCACTGTATTGGACAGTACAAGCCTAGGCCATGGCTCATTCCACACACACACAAATATA AACATTTCTACACAAACAGCCACCCCACCCCTTCATTCAACAAACAATTGTTTTATGTAC TCTGTGTCTGTGTTAGGTATTGGGGAAATAAAAATGATAACATGTTGGTCTCAAGTAGCT CTCAAGGAGCTCAGGGGAATCAGAGAAAAGAGGGTGAACACACACACACACAGAATACAG AATCGCAAGATTAGGTGCTAAGTTTTATGGTTAATGTGTACACAGAGTGTTTGAAAGCAC AGATAATACCAACCACATTTGTTATTATGTCTATAATGGCATTAATAACAGCAAGAATAA AGCTACTAGTAACAAGGCATCTACCATGACCTAAGCATGCTTGGTGCTTTATGCCCATTT CTACGTGTAAATCTCACAACACTCTGCAAGGTCTATCCCTGGAGTGTATTATTGAGACTT TGCAGGTGTAGCTGAGGCTCAGAATGGTTCCATACTTGTCCAAGGCCACAGAATAATACA TAGTAGAGTTGAGATTTCCACCTTGGATTGTGAGTGTCTAAGGCCAGTGCCAATGTCTCC TATTAAACATTAATTGAGTGCCTACATTGTATAAAACATCGTGTAAAACATTACAAGGGA TGGAAAGGTGAGCAGAGTAGAGACATGCATAGAAATGTGTTGGAAGAAGGCCGGATGTGG TGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCACAGGCAGGTGGATCACCTGAGGTC AGGAGTTCGAGACCATCCTGGCCAACATGGTGAAACCACGTCTCTACTAAAAATACAAAA AATTAGCCCGGCATGGTGGCGGGTGCCTGTAATCCCAGCTGCTTGGAAGGCTGAAGCAGG AGAATCACTTGAACCTGGGAGGCAGAGGTTGCAGTAAGCCGAGAATGCGCCATTTCACTC CAGCCTGGGCAGTAAGAGCAAAACTCCATCTCAAAATAAAAAATAAAATAAAATAAAGAA ATGTGTTGGAAGAATACATACTAAATCCTTAACTGAGGCTACCTATGCAAGTTGGGTTGG GTAATGGGGATGGGAGTGGAATGGAACATTTGCTTTTTTCTCTGTACATTTTTAAATATA AATTTTTCCACATCAAGCATATACTAATGTTAATGCAAAGCAAAACAAAGCAAAAACCTG GAGTTGAACAAGACAAGGCACCAGACAATAAGAATTTCAGTAGGCACGATCACATACATA TACATTAAAACATATTTGCATAAGTACAACAGAATTAGCTAAGCATAGATTAGGCTATTT TTATGGTTACTTCAGCTCCAAGCAATATGTATCCTTGGACAACTACAGCACACATCATCA CGAAAAAGATTTCACTCTGTTAAACACTGGTAAGTCTGCTAAATTTGTGTGTCTAGTGGG TTGTGATCATTTGGCACAGTCTCTAATATCTCCCTAAATAAGATCCACTTATCAGAGCAC AGATGACTCTCCTTGTATCACTGAGTGTACATGTAGCTCCATGTATCCAGGCAGCTCCTG GCTCATGACAATCCTAGTGAAACACACCCTTCCTCTGTATGCTCCCCCGTGCCTGCACAT CCCCTGCTTGCATCCCTTCCCTTACTCACTTGAGTGGGTACATTCGCAGGGCCACGTCCA TGCCTGGAGTGTAGGACAGAAATGCAGCCAAGAGTGTCTCCTCCAGGATCCCAAATATTA AGACTTTGTTTCTGGGAAGAAACATTCATGGGTGTGGCGGGGAGGGAGAAGAAAAGGCAG GGGGAAATGGCATGTCCTGGTGTGTGGGGCTTGGGAGAGTGCTGGGCTGTTTTGTGAGAT GTTCACCTCATGCCCTGCTGGAAAAGTGAGTTGCGGCGAGTCTTGGAGATGATGAGATCC GCCCACTGCACAACCACGATGGTGACAAAAAAGGCCGTTTGGCATGTGAACTCCACAACT TTTCGTTGCTCATAGGTCTAGAGACAGCAGGGAGAGAGGAAACAGTGTCAGAAGGGGATT CTGTACACCCTAAAGGCTTCTTTCCTCTCCCACCTTCCAGGACCCCTGGGCTGAGTCAGG TCCTCATTCTTTTTTTTTTTTTTTTTGAGACTAAGTCTCGCTCTTGTTGCCTAGGCTGGA GTGCAATGGTGTGGTCTCTGCTTACTGCAACCTCCGCCTCTGGGGTTCAAGCAATTCTCC TGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCGCCTGCCACCACACCCAGCTAATTTT TGTGTATTTTTAGTAGAGACGGGGTTTCACCATATTGGCCAGACTGGTCTCGAACTCCTG ACCTCAGGCGATCTGACCGCCTCTGCTTCCCAAAGTGCTGGGAATACAGGCGTGACTCAC TGTGCCCGGCCAGGTCCTCACTCTTTAGACCCCACAGCACTTCACAGATGTCTCTGTTTT AGCGCTTTTCATGTTGTATCATGATTTGTTTATGTTTTCCTTGCCTGACTGAGAGCTTCT CAAGAACAAGCACTTGCCTTATTTAGCTTTATGTCCTCTCCCTGTGCTTAGTTCGGTGGA TGGCATGTAGCATGGCTCAATAAATATGGATTGAATTAATAAGAAGGATAGGGTAAGAGA AGAAGGTGGAGTTAGAAAGGAAGGCAGGCTGGGCGTGTGGTGGCTCATGCCTGTAATCCC AGCACTTTGGGAGGCCGAGGTGGGCAGATCACGAGGTCAGGAGATCAAGACCATCCTGGC TAACACAATGAAACCCCGTCTCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCGG GTGCCTGTAGTCCCAGCTGCTCGGGAGGCTGAGGCGAGAGAATGGTGTGAACCCGGGAGG CGGAGCTTGTAGTGAGCCGAGATCATGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGA CTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGGGAAGAAGGCAG AGTCAGGGGATATAGGTCAGAAAGAAAGGATGGTGGGGCCAGAGGACAATGTGAGTACAG GGGGGAAAGAAATACCCCAAAGAGTGGTATCAGATAGGAGACATTCATTCATTCATTTGT TCTTTCATTCACACTTTACACTTAAGGAACTTAGAGTCTAGTGGGGAAAATAATTATGCT AACCATGTCAGCGCAATAGACAGGTTATGAGAGAGAGACTGCAGAGGGCTATGGGAACAC AGAAGGGGTGCATCTAAATTAGACTGGAGAGAAAAAGCTTCTGTTTTAAAAACTAAAGCA GCATGTTTATCAACAACTCGTAGATCCAATAAATTTGAAAACAGGTAGGACCGCACAATA ATGAAATACTACATATCAAACCCCACGGGATGTGGCAAAGTGGTACTTGGAGAGGAATGT AGAGCCTTAAACGGTAGAACACAAAGGCTGGAAATTGATGAGCCGAGCATGGAACTTAGA ATAAGACCAATCAGTCAGTTGCCGTTACCCGCGTCACTCCCTATCATTTCTTGAAGATTT TAGCTTCTGACACTGTTACTCCACGATTACTTCTGTCCTTGTTTTTGGAGATTGAATTGT CCATGTTGATGATCCTTCCAATGCCGTGGTCTCACAGTTCCTTGATCTCCTCCAATGATG TTGTCCTGTACTCCCCACCTGGGCTGCTTGCTCCCATCCTTAAACTCTAGATATTATCCT TTCCAATACCTATTATTTCTCTGTAATTTCAAGCATCTTTCTCTCTCTGACTAGCATTTT TATAATTCCATCTCACTCTAGTATTCTAGTTCCAACACTTCTTGGACCCCCTTGGACTTA CAATATCTTGATTAAATATATTATATATTTGGTTATTATCTGTCTTCCCATCCCTAACTA GAAATAAGCTCCATGAGAGCAATAACTTGATGATTTTTGTTCACTATCATATCCCCAGGC CCTAGAACAGTACCTGGTACATAGAAGATGCTCAGTAAATATTGTCTGAATGAACAAATG AGTGAGGGAATCACTGGAATTAATGAAAGATATTTAGAAAGTAAGGAGCGATCCTTGCTT CTAGCAGTGCATCATGCACTTCCCGGGTGGGTGGCTCTATACCAGATTATCTGAAAATTA CAGTCATAGAAGAGACACGGACACGCCTTTGTAGAGTTTGTTGCTCAGGGCAACTGTTCT CAACACATTTTTGTGACACTTCAAGATGTCTTCAATGTGCAGGGGGGAATTCTTAACTTT TTACCTCAAATTACTTTTAATTACCTTTAATTTATTGTCAGTAAATTTATGTTATGCTGC ATCTTGGCAGCAGGGAGGAAGTATCAAGATGGAAAACAAGGGCTTGAGCTGGGAGTTGAG ATGTTGGCAGGGTACACAGCAATGAGAACTTTGGGTGTCACTGGATCCTGCAGCAGTGTT AATAGCTGGGAATATTGACATCTGATGGCCTTACAGCCTCAGCTAATGGAAGCCAACTGT ATGTGAGGGGCACCTTCCCAACAATTCAGATTTGAACACAATTTGAGAAACCTGCAATTG GCTTGGTTTGGAGACATCGTGGTGAAGTGGGAAAGTGCTGGGCAGGGATCTAGAGTCCAG AATTCAAGTCCAGCTCTTTTAGGGATTCACTGTGGGACTTTAAGCAAGTTACAGAATCTT CCTAGATCAGGTTCCTCATCTACAGAATGATGAAAATTTACTGTGTCCTCTATGACGCTA CAATTCTAGCAATAATTGCTGTCACATGTCACATGACCCATTGTCTTAGAAATTGGGACA GGAGTATCACAGATACCAAAAAAGCATACCTACTAAAATTCTTAAACACATATTGTTGGG GAGAGGGCTTCAGTTTGAGCCTCATTCATCTTGGTTGTTAGAAAAGACAACTATAGAGAG GTATCCTCTAGGTTAAAAAGGTTTAGAATGATTAGGAAGGGATATACAAAGAAAATAGGT TTTCAGGGTTTTGTTTTTTTTTTTCTTTGAGACGGAGTCTCGCTCTGTTGCCAGGCTGGA GTACAGTGGTGCAATCTTGGCTCACTGCAATCTCCGCCTCCTGGGATCAAGTGATTCTCC TGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCACCCACGACCATACCCAGCTTATTTT TGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGATGGTCTTGATCTCTTGAC CTTGTAATCTGCCTGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGTCACTGTG CCCAGCTGGTTTTCAAATTTTATATTTATTTATTTATTTATTTTTTGAGACAGAGTTTTA CTCTTGTTGCCCAGGCTGCAGTGCAATGGCGTGATCTTGGCTCACTGCAAACTTTGCCCC CCGGGTTCAAGTGATTCTCCTGACTCAGCCTCCCGAGTGGTTGGGATTACAGGCATGCGC CACCACGCCCGGCTAATTTTGTATTTTTAGTAGAGACGGGGTATCTCCATGTTGGCCAGG ATGGTCTCAACTCCCAACCTCAAGTGATCCGCCCACTTCGGCCTCCCAAAGTGCTGGGAT TACAGGCGTGAGCCACTGCACCCTGCCTCAAATTTTAAATCATATCATTTGAACTCTCAT GGAGGGAGAGTATAAGAGGAGAGGACCCAGCATTTATTTCTGGGGCAATCATGGTTGAAA CCTGGGAAAAGAGAAACCGGCTCAGAAAAGTTGATATGACAAAGACTCCAAGGAGCCAAA GGACTCAGACAGGCAGGGCCAGACAACAGACAGGAGGAGCCAACCAGAATGAGCCTATGC TAAACAGAAGAGGATTTGCTGTTGTGGCTGAAGACTGAGGGCAAGTGTGAGAAGGCTCAT ACAGGACTGAAGAAAAGGCATCAGCTCTGTTTGTGTGGTGCTTCCCTTCTTCTCTCTTAA AAAATTTGCTGCACTCACTCTCCCCTGTCACTCTCACTCTTACTGGTCTCAGCTCCTACC TTATCCCTTCTACTCACCCACTGCTGTCCGTAGCTGTCCTCCAGGTCATTCAAGTATTTA TCTTCCCAGTGGAGGCGGATGCCCAGCAGATCAACAGGCCTAAAACCATTCTCAGCCAGG ATTACAAAGTAGGTAAAGAATCCAGCCAGAGCCTGGATCATCCCTGTGAATGACAGAGTT GCAGGACAGGGGAGCCTGGTTCAGAGAAGGGCCCCAAAAGGTAGGCCAGGGGAGGGCTGG GGGCTGGGACTTGCTTCTGGCTGGGCTGGTGTGTGTCTGAAGAGTAATGCGGAAGAATCT TGCCATCAGCTGCCTAAGCCTGTTATCTCTCATCTCTGTGGGACTTTCCTTCAAGCCCTG ACATTTGTTTCTAAACTCTGACCCAGAGTCAGCTTTGAATCACATGGTCTTAAAACTAAA AAGGACTTTAGAGGCCACTGATTCCCTCTCCCAATTTTTTCTTTTGAGACAGGATCTTAC TCTGTTCATCACTCACCCTATTTTCTGAAATACCATTGCACCTGGAAAATCAAGAACAAA GACTTCTAATGACTCTCAAATGTCTGTCAAGGCTGACCCCAACACAAATGATATCTCTGT CTACAGTCTTATTTTTCACTACTTTATAAAGACTAAGGGCTCTACCAACCTGGTTTATTC AGTCTTCTTTAACTGTGCCATCTGAAATTCCCCACTCCTTTGGTCTCCCACACCTGACCA TACACTTACTAGTCTAAGCCCCACTCTCCCACACCAAGTTTAAGTCCTATTTCCTGCATA AGGCCTCTCTGGCTATCCTCATAATGGTGAGCCTGCTTGCTTTGTAATCCTGTAGTATGT TCTGTCTATACTCATTACTTGGCACTTGGAGATGCTATCATTTTATGTATGTTTGTTCCT TTTGTACTGGACTCTAAGTCAAGGACAGATCAGAGATGAGTGGTTCTTTGTGTTTTCAGG GCCTAGCACAGTTTGTTGCTGAGAAAATATCTCCCTGACTTCCAAACTGAGATGGCTCAC GTTGCCAGGCAGGGGAAACCACTCCCTGCTCCCTCCACCCCTCATTCCTCTGGGCGCACC AATCTGTCCATAGGCCATGCCAATGAGACGGTGGTTCACCAGATTATCCGTCTTTGGGTT CCTTGGAAGCCTCTTCATGATGTCGCTTTCAGCTGACTCATAAGCCAAGGAGATGGCAGG GACCTGGAGGATGGAGGGTGGGGATGACAGGGGTCACAAAGTTCAGAAGGAAACCCAGCA GTAATTCAAGCTCTACCATTCTGTCTTGACGCAGCCTCAATCCATCTTGCAGGAGGTGCG AGAGCTGGATCATAAGTGGGTTGTCATGAGTTTTAGTAAGATAGCTCCAGGCAGAAAGCA GGGAGCTTAGGAGGCAGAATTCTGGGAATCTCTTGCTCACCAGCTTGGCCCTTACCATGT CAGTGCCGAGATCAATGCAGAGGATGGTTATGGTTCCCAGAGGCAGGGGTATACCGAGGA TGATGAACATCAGGAAGGGCGTGATCTCGGGGATGTTGCTGGTCAGGGTGTACATGATGG ATTTCTTCAGGTTGTCAAAGATCAGGCGGCCTGGGGAGGAAGGTCAACCTCCTGTGAGAA GCCCTGGGAGAACACGCCTCCCTCAAACCAGCTCCGGGACAGACAGGCCACCTCAAAGAA GTGTCACAGTCCAGGAAAGGGTCTGGAGGTCCTAGACCTCCAGGGTCCCAGTATTGTTTC TAAATTGTGTGCCTTTTAATCAGAGCCATGCCGTCTGTGTACTGTTTGTTCTTAGATTCA CCCTAGCTAACGTTATCTGATCTCTGAAAATTAGCAGGGTTGGGCCTGGTTAATCCTGCG ATGTTTGAGAATGTCAGTATAAAAGCCTTTACAAGATTAAGGCTGGAATGGAAACAGCCA GGGCTTGGGACAGGCTTGTGTTCAAATCCCATCTTCTGCCATAGCTAGCTGTGACCTTGG GCACCCTCACCTCCGTGAGCTTCATTCCTCCTGCCTTGCAAGATTGCTGCATCCGTCTCT GACTGCCTTTTCAAAGATCGAATCCCTCTCTGCACTCTCTGCTTGGTCTGTCCCATGGCA CTTATCTTCTTTTAACATACTATATAATTTAATTATTTTATTGTTTGTCATCCCCACTAG AAATTAAGTTACACGAGGGCAGGGATTTGTGTCTTTGTTCTCCCTACTGTTGTATCCCCA GCATCAAGCATAGTGCCTCCCACATAGTCAGTGTTCAAACGAACTTATTGAATTGAGTGG ATATAAAATACCAAGCAAAGTGTCAGGATTATACAAGGTTTCAATGAAATGGTAATCATG ATTATGATGTGGATTGCCATATGTTTTAGTAAGATAGCTCCAGGCAGAAAGCAGGGAACC TGGAATGCAGAATTCTGGATCTCTCCTGTTCGCAGGAGGGCATTCTCTTCACAGTTCTCT GGGGAAGAGGGTGTGTAATTGGGCTCATGCAGTCAATTCACGGGTCAAGCTCCAGCTGAT CCTGATGTGTCACCATTATTTAGGCAACAGGTTCCTAGGGGACCCTCCTAAAGATTGCAG CGCATGGAATAGTCCCAGGGGTGTGGCTACATCTTGGAACTGGCTGTGGGCCTACTTGAA GTCCAGTGAGAGGACAATGACGATATTATGTATACCAGAGTCTCAGTCTCCCTGATAGGA AAACAAAATGAATAAAAGGGACTTTTCTCCGATCTCATCAAAAGGGGTTGCAGATAGTGA TGGTCTATGTACCAGCTGATCTAATTTGCAAAATTTTGTCTTACAGTGATTTTCTTCTGA GCCCGTACAGGCTCATGGAGGTTGGATGATGGGAAAACGGAAAGAGGGGATGTACACCAA CCCCCACCTGAGTCCAGGGTTGAAGTCTCCACCATGGGCACCCTGCCTCCTCACCCTCCT CCACCCCCGTGACGATGGAGGCAAAGTTGTCATCCAGCAGGATCATGTCGGCTGCCTGCT TAGAGACGTCAGAGCCAGAGATGCCCATGGCAATGCCAATGTCAGCCTTCTTCAGCGCAG GGGAGTCGTTCACCCCGTCACCTGTCACGGCCACAACGGCTCCCTGAGGAAGTCCAGACA GAGAGAGTGAACAATTTATTGCATCAGATCCAGAACTAGTCCCAAAGATCAGTACGCTTT CTGCATCCCTTGTTTCCTGATGTAATCATGCTTGATTTAGGGCTCCCGTCCTTCTCCCAC TCCTCCTGAGATATTTAAACTTTCAGGGAGCCCCAAACTGAAGGCCACCATGGAGGTTCC AGATGGGGTACTCTCTGGAGTCTCCTCTAGCCCAGCCCACATGTTCCTCTGCTTGGTTTG GGACGGGGCTAAGCCACAGGAGTTCTGCCAGTTTCCTTGGGGCTCCTTTTCGTTCCTTAC CAGCCTCTGACATCCCTCGACAATGATGAGCTTCTGCTGAGGGGAGGTCCGAGCAAACAC GATCTCAGGGTGGTTCTGGAGGATCTGATCAAGCTGCTTGGACTGTATGTCCTTCAGTTC TGCACCATGCACCACAATGGCTTTGGCAGCACTGAGGGAAAATAATTTCAAAAGGCTAGT TTTGAGTGTTGAGAATTCACCAGGGGTCTTGGTGCCCATCTTGACTATAGCTTCATTGCT TCTTCTTTCAACCTAGTCTCCTCACTTGTCCCTAGCCCTATATTGTCCCCAAATTGACAC ATCCTATTCCCTCCCCACACTTTTGCCAACCACTCCTCTCTTTACCTCTTTCTTCATCTT GCTTCCTTTGAAAACCCACTGACATATTCACTTTATTTTCCTATTATGTTTTACTTTGTA GTGTAAACCCCACACATCCTACCTATTGAAGGAGACTCCAAGAACTTTAGTAAAGTGGCA TCTGGGTGGGGCAGGCTGGGGATGGAGGGAACATGGCAGATCTTGAGTTCTTTAGTGATC TCACCTGGCATCGACCTTGCTGATAGGGATCTTAAGCCGGGCAGCGACTTCCTCTGCCGT CTCAGTGCCTTCTGAGATGATGCCCACACCCTTGGCAATGGCCTTAGCTGTAATGGGATG ATCTCCTGTTACCATGATCACCTGGGTTGGGAAGGAGAGGGAAGAGGAGCAGAATCATCT TCAGAGCCCGGATCCTTCATTTTTCTCCTCTGAGAACTGACAGACCACTGCTTTTTTCAA CAAGGGTTTTAGTCGCTCATTCCCAAGAACTTGTGGTGTAGACCAAAAACCATGCTACTG TGATTTCAACCCTTGGGAGTGGGTCAAGACCATGAGACCATAAAACAGGACAATTTGGGT CCTAGATTTACCAGGAATAAGCCAGAGATTTGACTATATTCAGAATTTCATTTAATTGCT CCAGAAGCTATTCTGCTTCCTTAAGTGCAAAGACAGAAACACCTACACATAGAACAAGTG GTAATAAAGGAATGTCTGGAATAATCCATCTGCCTAGCAAAATTTCATCTAAGGCCCAGT GCATTGAAATTCTCACTCTACCTTTCTTCTTTCTGTGGCCTCACCCTGTGCCTTGGTTTC AGCTTGGTTTTGGATACCTGGTACCTAGTCCTGTCCCATTTCTACCCAAAGATGAATACC CAGGCCACGTGCTTTCACAGCATTCCGTTCCTGCCATATTTCAGCACTTGCCACACTTCT CTGTATGGTGATTGCCTGTTTATCTCTCTTCCCCACTGAACTGAGAGCTCTGCAAGGGTG GCTTCCTTGTAAAGTTTCCTGCCCTAGCACAATGCCTAGCACATAGTAAGCCATCAACAA ATAATTACTGAATGAAGGAATGGAGGAATGATCACTACCTGGAAACCACTGCCCAGGGTT CCCAAGTCCCTCCCAGCACACATGGCCCAGACTGACCCTGGACAAACTGCCAACAGTCAC AGGTCTAACATAAAGCCAGTTCCAACAGAGAACACCTAGTTCTCCTTAAATACCTCCAAT CCCCCAAGTCTAGGAGCCAGAATACACAGGTAATCCAGAATGTAAGGTATGAGCACGGAA GGTGTCTATATCTAAGCTGTAAAGATGTATATGATGAGTCTTAGAATTTGACCTGGGAAA CATGGGACACAGAACACCTCAGAATTTGAAGAATTCTACTGCTGCCATCCCATGAAGTTC AAGGCCCACCCTGACCAAAGAGGATTTTCTACCTCTGGGTTTGTTCTGAAGCTGAACTTT CACTCTTGCTCTGACCGATTTTTGGTTTCCAGTTTTTAGACCTGGGCATATACCTCTTAG GGCAGCTGCTCACACCCATTGAAGATCCTTCAGCTCTCAATATCTCATTCTCACTATTGC CTGGTCCAGAGCCCCAGGCCTCCTAGCCTCACCCTTTTACCGCCCATCTCGGCAGCACAT TTACACGACATCTTCTAGCACTTTGCTATTCCTAGTGTGGTCTGCAGACCAGCAGCAACA GCATCGCCTGGGAGCTCGTTAAAAATGCAGTCTCTCAGGTTTCCATGGACCTTCTGAAGC CAGATCTGCATTTCAAAACAATCCCTGAGGGATCTGCACGCACGTTGGTCTGAGAAGCAC TGGGCTGGACGCTGGTTCTCAAACTTCTCTGCTCATTGGAATCTCCAGGAAAGTTTTTAA AAATACTGTTGCCAGGATCCTATCCTGAGAGTTTCTAATTAAATCGGTCTGGGGTGTGTC CTAGACATCCGATTTTTAAAGCCTCCCTGGTGATTCTAATGTTCAATGCAAGTAGAATTC TAACTGGAGAGGAAACTTACTATTAATTAAAAATCATAAGCCCAAGGAAACAGAAATCCG CTCAATTAAACTAAGGGTATTAAGCATCTACTCTGCGCAAGGCCTTCTAGTAGATGCTTC AACTTGTGACAGGTGAGGGGCTCCTGGTCTGGGCAAGTATTTACCTTAATTCCTGCACTG CGACACTTGCTCACAGCATCAGGCACTGCAGCTCGGGGAGGGTCAATCATGGATATGAGG CCCACAAAACAAAGGTTGTCCATGGGGAAATTTATTTCATCTGTATTAAATGGGAATCCC TTGGAGAAGCTGCTAGGCAGATTCAAGAAGCAGAAGCCTGGAGAGAGACAGAGGGAGGGA CCAGTAGTCATCCAGCACTCTACATTCCTATCTGCTTACCCCAACATCCTTGATTTCTCA CCCCAGGGATAATAACCATTTTGATGCCATTCTTTTAAAAACTTCTCCCAAAGCTCCTCA CCTAGCACACGTTCCCCCAGACCTCCCAGTTCTAAGTAGGCATTTTGGAAGGCTTCCTTC ATTTCATCGTTCATTGAGTACTCCTGCCCATTCAGAAGAAAGGTAGAACAAAACTCCAAG ATCCTCTCCGGAGCACCCTTCATCATCAGTACGTGGGTCTGGGAGCTGTCCTCCCGAAGG TGGATGGACATCTAGGGAGAGCAAAGGGAGCACTGATGGGACAGGAGGAGAGACCAAGGA TCAGGGGCAAAAAGAAGGGGAAGGTTTCAAAGGTAAAAAAATGTGTTTCATACCCCCATT TCTTTTGTTCCCTCCCCTCCCCAGTCACATCTCGCCCCAGGTTGAACCCAGCCCCTCCTC CTTTTTCCAGAAAACTGCAGCCTGGTATTATTTGCACAGGAATCTCCATTATCTTCTCAG CCTGAAGCTCCCTGGGGGCAGAACCAGGCACTCTCACTTTTCCCCTGCATCCTTGCCAAC TGGATGGCGAGAGAGCAGAAATAGTGGGGCTGGCAAAGAAAGAAAAGAGAGTAGACAGGA AAGAAAAAGAGTCGGAAGGCCAGGCGTAGCGGCTCATGCCTGTAATCCCAGCACTTTGGG AGGCCGAGGCGGGTGGATTGCTTGAGGTCAGGAGTTCAAGACTAGCCTGGCCAGCATGGC AAAACCCCGTCTCCTACTAAAAATACAAAAATTAGCTGGGCATGGTGGCATGTGCCCATA ATCCCAGCCACTTGGGAGGCTAAGGCAGGAGAATCGCTGGAACCCTGGAAGCAGAGGTTG CAGTGAGCCAAGATTGCGCTATTGCACTCTAGCCTGGGTGACAGAGCCAGACGCCGTCTC AAAAAAAAAAAAAACAAAAAAAGTCCAAAGACCTGTGTTCTGGGGCTAGCAAGAATGCAT TATGACCATTGGTCAGTCCATGTAACTTCGCAAAATCTTANNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNTCTGTCGCCCAGGCTGGAGTGCAGTGGTGTGATCTCAGCT CACTGCAACCTCTGCCTCTGGGTTCAAGTGATTCTCCTGCTTCAGCCTCCCGAGTAGCTG GGATTACAGGCACCGCCACTATGCCGGGCTGATTTTTTGAATTTTTAGCAGAGACGGGGG TTTTACCATGCTGGTCAGGCTGGTCTTGAACTCCTGACCTCAGGTGATCTACCAACCTTG GCCTCGGAAACTGCTGGGATTACAGGCACCGCCACTATGCCTGGCTGATTTTTTGCATTT TTAGCAGAGATGGGGGTTTCACCATGTTGGTCAGCCTGGTCTTGAATTCCTGACCTCAGG TGATCTGCCCACCTTGGCCTCCCAAACTGCTGGGATTACAGGCATGAGCCACACACCTGG CCCTTCATTGGGTTTTTATAAGAGATAGTGTAGAAAATACTTTGAAAACTGTGAAGTACA ATCCAAAAATAAGTTAGTCATTCTAGTCCCTGGGCCTCTGTCTCCTAAAAGCGTGAGAAG TCTCCTGAGAGGGGCTAGCTAGTGTGGTTGGGCATGGGAGTCCTTGTGGCTGTGGTGGGG GAGGGAAAGGGCACATTCATGAAATGAACCCGAGGGGACAACCCGCAGCAAGGAGAGAGA AATGTGGGTTTTGCATTTCCTCTTGATCTCTGATGTATGAAAAGGAGCTCTCCATGGGGT TCCTCTTGTGATGGACAGGAAATGCCCGCTAGGTCGCCTGTTGAGAACAAAATCGATGCA TTGAAAGGAACAGCGGGAGTGCAGAGGAGGCCGGACTGTACTGCCCACAGGGTAAGCAGG GTGGGAAACCAGTGCACAAAACGTGGTTACAACTGTTCTGTTCGTTTGTTCAGTTACATT CAAAATATGCTTAAGCAATTAAGAGGAAGAACCGTAACTCACTTAAGCAGAAAGCTGGAA AAAGTTTAAAGAGCTCAGTTTTCTAAGTGCTCAGTAAAATGTGTTGAATAAGTGAAGGGC CCAGGAGGTGATGGCAAGACCTACTAGTAATCTCAGAGGTCACGGAAGAAAATCACATCT TGATAGAAAATTACATATAAAAGAGACGGAGGGAGAAGTCTGGAAATGCTGGAACAGAGC ATCTTCTTCGTTTCATTTTTATCTCAGAGGGAGACAGACCAGGCTCTGCAAACCGCCAGC AGTCTGAGATGTCTCTTGCAAAGACTGGAGTCTCCACCTTTAGGGCAAGCTAAGGAAGGC AGCAAACTGAGGGCCTCCCAGAACAAGTGCCTGCCAGAGCTTGGCGGCCAGTGGGACAGC CTGTCACACTCGGTGAACCACTGAGGACAAGTCTGCCATTTGAGCCGCATGTTTGGTAGC TCGGAAGAGGCAGCAACATAGTCATCTGAGAGAAAGTCACTATTTGTTGGATGCCCCAAC AAATGTTGTGAATATGTTTTGCTTTTATTTTGAATCACATGGACGGAGAGGTACCTAATT CTTTCCAGTTAAAGGCTATGCTGCCGTCAAAGGCCCTGCCAAGCCACAGAATTCCTGTCA GACTAGTGAGGCCACTAAACATCAGAAAAAAATGGGAATAAGTTTGCCATTTGGGCCTAA GAGACCTATTTTATTACATTGACTAACAACCAGTTGAGACAGAAAAGGATAGATCTATTT AACCCTTACTTGCTCAGTTTTCAGTGTAAAACGATGAGTAATTCAGTTAAAAAAAATTTA TATAGAGGCCAGGCATGGTGGCTCACGCCTGTAATCCTAGCACTTTGGGAGGCTGAGGCG GGTGGATCACCTGAGGTCAGGAGTTCAAGACCAGCATAGCCAACATGGTAAAATCCCGTC TCTACTAAAAATACAAAAAATTAGCCGGGCGTGGTGGCACATGCCTGTAATCCCAGCTAT TCTGGAGGCTGAGACAGGAGAATCCCTTGAACCCAGGAGGTGGAGGTTGCAGTGAGCCAA GATTGCGCCATTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCCTTCTCAAAAAAAAAA AAAAAAAAAAAAGATACCAGCAGACTTGGGAGTCTCATTGTCATTTTCTCTGAGACATTT TACCCACACCTGAATGTCTGGCCTTTTCAGTAATGCAAGGAGTTGAAGAATCTACTTCCC TGAGCAAATCATGATTGCCCCGTGGAACTCAGCTTGAGCCTGGCAAAGCTCCAATTCTGA TAATGTCACTGTTCCTGCATCCTACCATAACCTTCTCTTCAGTCTGCCCAGATTCTACTT TGGAGAGAAAGACTCTTTCCTGTCCCTTCATGGTCCCTCACTCAGCATTTCCCCTGCTCT TGTCCACTCCTCCCCGGAGAGTGGACCAAAATGTTCCTGGGAAATGAAAAACTTCACGAA CACGAACACACGTAATTAGTTAAGGTTACATAGAAGTAGGGGAGGCCCTAATCTAATATG ATTTGCATCCTTATAAGAAAAGAAGTTACAAGACACACAGGGGAGAGGGTCAGGCGCCAA TGGAGGCAGAGACTCCTGATCGCCTACCCGCTGGCAGTCACTAGAACTGCAAGCCAAGTG TGGGGTGAAAGGAAATATTGATGGCTAATGAAATAAAGTGTCTGCAAATGCAACCTAATA CTGCAGCGGCAAATCTCCTAGTAGACACAGAGGGGCCTCCTAACAGCTGCATGTGACTCT AACATGACTTTCACCAACCAGCTTCTGCTGTCTACAGACATTTCAGAGAGGATTTTATGA CTCGCTTTTTCCCCAAGTGGCAGAGCTCAGATCTCTGCATAGGACTGACTGATGCCTCTC CCTTTATCACCTGTTTCGCCTCTCTTTACCTGTTTGTCACGTTCTCTTGATGTGAGTCTT CCGTTAATTGGGATGCAGGTTCTGCTGAGCTCCTCTGCTTCTCCGAGGTGAAGTTGAAGG CAGAGGCAAAGCTCCCCTTGTTCCAGTGATAAGCCCATCCCCCCACCACCATTCTCCTAC CTTTGTGGGTTCTGTACCTGGTACTTGTTGGTAGAATTAAAGGGAATCTCTGCCACCTTG GGGTTTTTCTCTCTCATCTCCGCCACAGAGCTGTAAGACTGCTCGATGAACTTGAGGAGG GCTGACTCGGAAGCATCACCTGTTGTGGCCCTCTGCCAGGATGGGGTTTGTATAGTAAGC CCCAGGGGCATGCTACCTGGGCATGAGGCATACCTGTGGCAACATGAAGAGGGGACAAAT GGGGAGGGCGGGTACCTGGGGGGAAATTACTGAGCTCCAGGAGAGGATTTTTTGGGAGAG GTCAGGTTACACCCTGGACACTGAGGTACCCTCTTCCCCTTGGGCCTGACACCTTAGCAA TGGGCAGGATCTCCTGATTAGCCTTAAAGTCAGCCCGGTTGCAGAGGCCAGCGATTCGGG CCAGCATAAACCAGGTATCAGAGCTCTTGGTAAATGTTTTTCCTAGGGAGAAAGAAAAGC AGAATTGTGAGCAGGGAATGAGAATTTTAAGCAAGCGGTTATTCACATCCTCTTTGGCAC CCAGATACTTCACAGGAGCAGCATTTCTTTTCCTTCACACCTCCCTCTTCTCCACTCCAC TTTCAGGCTCCCTCCTGTCTGTCTGGACTCACCATTCTCTCTCAGCTCACTCATCACATC CCCCAAATCCCTCCACTCTTGTTCCACCAATACCACTAGTCACCAGTCTGTTCTTCAGTG GTGTCGGCCTCATACACGGTCATATCAAACCACATGTGGGCGACGGTCATGCGGTTCTGG GTGAGGGTGCCCGTCTTGTCTGAGCAGATGGTGGACGTGGAGCCCAGCGTCTCCACCGCC TCCAGGTTCTTCACCAGGCAGTTCTTCCGCGCCATGCGCTTGGCTGTGAGGGTCAGGCAC ACCTAAAGCCAAGAAGAGAGGAGAGAATACACATGGGAGATGGAATACTCACACCATTTT GCATTGTGGATATTTGATCATTTTTAATGCTATTTTGATTTTTTGTACTTACTTCCCTTT TGTTCCCACCTACTCTTTACACATTTCATTTCTGGCTGTGGTAAAGGAAATTAGGAAAGT GATTGTGGTTTGTGCTTTATGGTAAGAGTTTCAAAAAAGAGTGTATTTAAAAAAAATGTC TTTTTCTGTTTTTGTTTTTGAGACAGAGTCTCACTCTGTGTTACCCAGGCTGGAGTGCAG AGTATGATCTTGGCTAACTGCAACCTCCATCCCCCAGGTTAAAGCAATTCTTCTGCCTCA GGCTCCCGAGTAGCTCAGACTACAGGCATGCACCACCATGTTCAGCTAATTTTTGTATTT TTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTGGTCTTGAACTCCTGGGCTCAAGT GATCTGCATGCCTTGGCCTCCCAAAGTGCTGGGATTATAGATGTGAGCCACCGTGCCTGG CCAAAAAAGAGTGTATTTCTTTACCAGGGTATCATAGACAGGGATCCTCTTTATTCCCCC CTGGAATATTCTGCTCCCTCAGGATCTTTGCATCTTTTCTATTCAGCAATCTCTTTTTCA TTCAAGTTTAGGCCACACCTCTTTAAGTCCAATCTTTCCAGGGACCACATAGATAGCTAA TCTTTTATGGTGGTATAAGATGCTAGGTGTGGAGGGGGTGTTGGACCAATAGTTCTTTTT TTTTCTCGAGACGGAGTCTCATTCTGTGGCGTGATCTCTGCTGACTGCAAACTCCACGTC CCAGGTTCAAGCCATTCTCCTGCCTCATCTTCCCAAGTAGCTGGGACTACAGGCGCCAGC CACCATGCCTGTCTAATTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCGTGTTA GCCAGAACGGTCTCGATCTCCTGACCTCGTGATCCGCCCACCTTGGCCTCCCAAAGTGCT GGGATTACAGGTGTGAGCCACCGCGCCCGGCAGACCAATAGTTTAAACAAAGAACGTGGA GGAGATAACAATAATATCACAGCATTGAAAAGGACTTGAAAAATCATTTAAACCAAAAGA CTTTTGTTGATTGTGAAGGCAATGTAAGTCAAGTGTGAAGCAAGATTGTTTTAAAAGCTA ATGAATTCTTAGGCTGTGGTTATCTAAGTATGGGCTTCTAATAACAGGATTAGGGGTTAT AATGTATTTACATAATATCACTAGTCCCTACATTTTTGTGCTAGTCCAAACACACCCCAA GTATTATTGTCATTTCTCTTTTAAGAATATTGACAAACTAGAGCATACCCTCAACAGGTG ATCATCAAGACAGGTGGCCTACAGACCATGTCATAGGAAGAATGGCTAAGGGAAGAGGGA TTATTTCACCTGCTACCACCAGAGTTTGAGGGGACATAATGGCTACCATCAAAAATCTAA AGGGCTAGTCTGTAGAAGAGAAAGAATTGACTTATTTTGTGTTTCTTCAGCTGGGAAACT TAGGACAAACAGGGATTTATAGTTCTGCTTAACACAGTGAAATGTAAATAGAGCAAGACA ACAATGAAACGAATTGAGACAGAAAGGGGTGGGCTTCCCAATTAATAGAAATAATAATCA TCTCCCATGGGTTTTATAGAGGATATTCAGCACTGGTTGAAAGGTTGAATTTATATGATC TTTGAAGTCCTTTCCTGTAGGATTCTATAATTCCAAATTAATCTTCCTCCATAAACTGAT GAATAAATTGAGGTCTGGAGATGTTAAGTGATTTAGCCAATACTAGAACTCACTCTCAGT GACTGATAATCCAATGCACTTTCCATTGAAACTTGCTTCCTCTCTCATTGAGGAAAGAGA AGACACCGAAATATATGGGCAGAAGGAGTCAGTGTAATATTGAGAGCTAAATTATTCCTG ATACCTATTTACATATCAGGAAGACCCTGCACTTGAAAGGTTCAACAACAAAAGAGACGC TAGTGATCCCTTTTCCCTGGGGTGGTTTGTCTGCCCTGAGGCCATTTTCCACCCTGTCTA CTCACAGTGACTGTGGCCAACAGCCCCTCAGGCACATTGGCCACAATGATGCCAATGAGA AAAATGATAGCCTCCAGCCAACCATAGCCCAAGAGAAGTGAGAGCGCAAAAAAAGTGACA CCAAGGAAGACGGCCACCACAGTGATCAGATGGATGAAGTGTTCGATCTCAGCAGCGATA GGTGTCTGGCCAACCGCCAGGCCTGACGTCAGGGAGGCAATTCTGCCCATCACTGTGGAG TCTCCCGTAGCAATCACAATACCCCGGGCGGTTCCTGTGGATGAAGCAGGAGAGGGCAAT GTGATGTTGTGATATGATAAGAAGTATAGATATTGGTCTCTGCCCCCACTTCCTGACATA GAGCTTCTAAAAACCCTTAAAGATAGGGGTGCTAGGAGAATCTTTTGTTCTAATATTTGG TCTTTGACCCAGTTCTGGACACAGAGCTCCTGAGACCCTTGTAATTTCTTGAGTGATAGG AGTGTCTGACACAGAACTCTTAAATGCCTTGGAGTTTCCTGGGTGATAGGAGTATCTTTG TTCTAATGAGGTGACTCTTGGTGGGTTCCTGGATAGCCACAGGATGGGGCTGGTGGCCAG GGCAGATAACCATGTGATTAGAGAGTTGGAACTTGCAGTTCATGGACTGACCTCTTTGGA AGGGAGGAGGGATGAAGGTTGAGTTGATCACCAATGGCTAATAATGTAACCGATTATACC TATGTAATGAAATCTCCATTAAAAACCTCAAAGGACTGGGTTTGGAAAGTGTCTATGTGT ATGACCATGTGGAGGGTTACTGGAGGGCACCCTGGACAGGAGAGGGCACAGACGCTCCTC CATGCTCCTTCCCACGTGCCTTGTCCTGTGCGTCTCTTCCATATGACTGCTCATCTGTAT CCTTGTAATATCCTTTATAATAATGGGTAAACCTAAGTAAGGTGTTTCCCTGAGTTCTGT GAGCCATCCTAGCAAATTAATCAAACCTGAGGAGGGAGTCGTGGGAACCCCAATTTATAG CCAGGCCATAACCTAGGACTTGTGACTGGGGTCTAGAGTTAGGGACTGTCTTGTGGGGCT GAGCCCTAACCTGTGGGATCTGATGCTATCTCCAGGTGGATTGTGTCAGAGTTGAATTGA ATTATAGGACACCCAATCATTGTCCTTTGGAGAACTGGTTGTTGGTGGGGAGAACTGTCT ACACATGTTGGACACAGAAGTGTTCTGTGTTCAGCGTGAGTGTAGAGAAAAAAAAAAGCT GTTTCTTGTTTTTTCCATCAGAGATGGTCACCCAAGACATGCCGAGTCTGAATTGAGGAA GCTGTTTGGTTTGGTTCCCACAAAGAGCAAGCTGTCAATGGTCAAAAACAAACTGGAGAC TCAAGGCCCTCTGAGAGGTCATTATGTTCTGCTCTCCTCATATTTAGTTTATACAAATAA AGGTCTTCTAGTCTGAAAAATCTCTGAAGAGGTCTCACAGTTCTCCTGAAATACCCAATT TTATTGCCTAATTTCCTTCACTGTCAAGAAGGCCTTTATTATACTTAATCTGAGTATCTT CTATTGCCTATATAGTTCTTATCTTGCCCTCAGCAGCTGAGGAGTTTCTAGATCCCAGGA ATAGTGGTTACCCTTCTGGTAGAGCACCTATGTTCCAACATCCCCTTATCCCACTAACAC AGTGGTTCTCAACTGGAGGCAATCCCTACCCACCAACCCCCTTCCCTGGGGACATTTGGC AATGCTTGGAGACATTTTTGGTGGTCACTACTGGGGTGGGAGAAGGCTCCTACTGGCATG CAGTGGGTAGAGGCCAGGATGCTGTTAAACATCCTGCCACGCACAAGACAGCTCTCCTGT CCCGCACAACAAAGAATTATCCAGCCCCAAATGTGAGTGGTTGAGAAATCCTGCTGTAAC TTGCGCCCCCTCCCTGCTTTGCTGGCTGGAGCCAATCTGACCTCTGCTGGGTAGCACGGG CCATAACAGCTGGGCTTCTGTGCTTATGAGGTCCCTCTTTCCTCTCCACCAGCACTGCCC CAGTCAGAAGGGCAGCTTGGACATCATGTTTGGCTTTACACACACATGATGCAGGCCACT CACCTTGAAATGAGGGGCATGACAAAATTCTTTTCTTAAAGTAATTCTTCCTGCTTTACC ATAATGACTGAAATTTCTACCATTGAAATCAGAGTCAGAATCACTTAGGCAACATATCAC TGAAACTGCATTTATTTTAAAAGCAGAAAGACTCAGGGCCGGAAGTTCAGCTTTCTAAAT TACTAGCTCTTTTCCTTGGGGCAAGTTACTTAAATGCTGAGAGTCAGGCTTCCTCATCTT CGAAATGGAATGAAAGCACTTACTAAACTGTGAGGACTGAATATTTTTAAGAGTCTAGAA GGTTAGGTACATCATAGGCACTTGAAAATTAGTTTCTTTCTCTTTCTTCTCATCATTTAG ATGAACTTAGGGTTTCCAGTAGGACCAATATAGACTCATACTTGTGACTTAGTAGGAGCA TCTCTAATCTGGGAGCTCCCATGAACATTGCTGCACGTGGTGGTCTCCGTTTTCTAAGGT TGCCTTTAGCTGTATGAGTCTGAGAGCAGGGTCCTACTCGAGGAGCAGACAGGTCAGGTC AGTGTTTATGTGGAGGAGGAATCCTGAAAAGATTCCCAGGCCGAGGCATTCTATAGATGG GCTTCAAACTGGTTGCCAAAGGCATATATTGGGTCCTATGGAATGAAGATGCTGAAATAC TTGAGAGATGCTGAGGAGTTTCCTATTTTGGGCCGGGTGGAGGAGGGTGGGTAGTGTATG GTGTCACCTACATATATCTTGTGTCATGGTTTAGTCTAGTTCTTCTATTTTATTCCTTCT GCTATGGTTTCCTCACACTTGGAGAAACGGGATTTAATAATTAATCTCAGTGTGTCTAGA GATGGGGTTGGGTTGATGTCAACCTCAGGGAAGGCTGAGAAGGCCAAGCATCCAGCACCC CAGGCCAGACTGGCTTCTTCATACACCTTCCATGTATTGCCAGAGAAATAGCTTGGGCTC CCTTGAAGATGCATGAGAACCCAAAGAGAAGTCTGTGCCACAGCCATGTCAAGGTCTACG GTGATGAGACATGGGAGGCAAGGGTAAAGGTTAAAGTTATGCTACTAATTTGCAAATTGG TCTAAGGCAAAGGTTAAAAGTCTAGGGTAAAGGTTAAAGGGCAAATTGATCTAGGGTAAA TGCTATCGGTCTGTGAATTGCTGAGAAATTCCTCAACTGAAAGTCCTTCCGCCCAGCTCC TTCTACCTAGCTCCACCTTCTTGGCCACATGTTGGGTTTTTTTAGCCTCCTACAAAACCA TTTTCTATCTAAACAGACCCTTGCTTCCCAGTCGAAATGCCACCATCCACTTTCCTCCAT ACCCTTTATCTGAACATATACTTAGCTGATGAAAACCCTACTTTGTAAGGGTAAATTTGG GCAAATTTTTTCCTAAAATCTAATAGTAGACATCTAGTGTTTTTGGGGAAAGCTTGCTAA CTTGCTTCTGTCCAATCAATTTTAAAACATTTTTAATATATGTATTTTATTTTCTAGTTG GATTCTTTCTCATAGTCTATTCTGTCTTAACATTACGCTTCTTCTTTAAGGTATTTTCAA ATTAAATAGCAATCTTTCAGCACAGAGCAGGGTCTGTGGAAGGAGCACGAGATATGGAGA CAGACCTACATTAGAATCCCTGACCCGCCTCCTTTCTATTGAGTTGTACTCTTGGATATG GTGCTTAATTTCTTTGAACCTTAGTCTGCTACATGTAAAATAGGGATAATATCTGGTATT GTGCGCATGTGGGAATTAGAGATAATATTTATAATATTTAACAAATACTATGCATTCAAA TAAAAAATATTTCTAGGCTGGGTATGGTGGCTCACGTCTGTAATCCCAGCACTTTGGGAG GCCGAGGAGGGCAGATCACTTGAGGTCAGTAGTTCGAGACCAGCCTGGCCAACATGGTGA AAACCCATCTCTACTAAAAATACACAAAATAACTGGGCGTGGTGGTGGGCACCTGTAATC CCAGCTACTCGGGAGGCTGAGGCAGGATAATTGCTTGAACTTGGGAGGCAGAGGTTGCAG TGAGCTGAGATCACACCACTGCATTCCAGCCTGAGCAACAGAGAGAGACTCTGTTTCAAA AAAACACAAAACAAACAAAAGAACTATTTTTAGATAACCAAACATTTGTTCTTAAGCATG AATAATAGTTTTCAAGTGTGCTCCATGGAGTCTTCAGGCCTTCTTAAGGGGAAAGGGCAA AGGAGAGATTGACAGAATGATGTTCAGTCCCCTTTTATTACCACTTTGCCAGAACTGTCT CCCAGTTCAAGGATTCCTAGATTCTAGGAGCAAAGCCAAAGTTTAAGTGGTAAAGTCTAA GTGGCACCTCTGGTAATTCAAGTTTCCAATGCCAATATCTTCTCTTGGATAGGGGACTAG TTAGAAGTTAGGGCTTACCTTAAGAGAAGAATGACTTAGCAGGGCTGAACAATTTTCCTC CCCTCTGTGCCATTTTCAGCTTAAACAGCATAGTCCATTCACAAGCTAAAATAATAGCTA ATAATTGTAGGTCACTTACAATGTATTAGGTCTTGTGCTGGGCATTTTACATATATTATC TCAATTCACACGAAAATCTACAGAGTAACGACTTTTACTGTCATCACTGTGCGAATGTGG AAATGATGACCTTGACCTTTCACCAGAGGTCATACAGCTCGTGATGGAGAAGCTCGACTT TTTACTGGCTCTTACCTACCTCGCTACCTTTAGAAGACAGTTATTAAAATCTTTATGTTT TGGTGCCTGCTTTTGAATCTATGCTACTTATGGTTCGATATTCACCTTCCACACAGTTGG TGGAAAAGAAGCAGATGTTTCGGGTCTCCAGAGGGTTCTCATGGGTGAAGTCAGGGGAGC GGCTCTGGGGTTCTGACTCCCCAGTCAAGGATGAGTTGTCCACCTGGGATGGGAGAGGGG ACGCGTTGTAAGGTGAGCATAGGAAAAAAGGCAGATTTATTTACAAAAATAGTATGTCTT CATCTGGTCACCAACATCATCACTGACAGACTGAGAGAAACAAATTTACACATCTGTTGT CTCTAACATCAAATCTGCACTTGTAACTTCTCAAGATTCTGAGTAATAAGCTTATACTTT CTCTAACGGCCCAGGTGTCTACCCTGCCATGAGATCACGCTTGGGTCCCTCACATAGCTT TCGGCATCCCCTCACCTTACATCCTTGTGCAGAGATAAGCCGGAGGTCAGCAGGGACTCG GTCTCCACCCTTGATTTCCACCAGGTCTCCCAACACCACCTCTTGTACATTAATTTGCAT CTTCTCTCCTCCTCGAATTACCAGAGCTTGCTATGAGAGGATAGTGCAGGATCATTTCCA AAACTTTTGGCTTTCCTCATCCCACTCTTAGCCTAAAACCTTCTGTTATTGGTCTCCCTC CTCCTTACTCCCCTTTCTTACTGTCACCCACCACATCATTCTTGAAGGTGTCTTTGGCAG ATTGCAAATTCCCATGATGCTGTTTGCAGGGCCCTTTGCAATGTGACTTTGACGCTCTTC CCATTAAGAGGTGGAGTCTATCTCTCTACCCCTAAACCTGGGCTTGACCACGTGACTTGC TTTGGCCCATAGAATGAATGTGATGGAAAGAGGAGTTTAAAAAGTGCTTTCAGGCCGTGA CTGGTGGCTCACACCTGTAATCCCAGCACACTGGGAGGCCGAGGTGGGAGGATTGCTTGA ACCCAGGAGTTTAAGACCAGACTGGGCAACATAGGGAGACCCTGTCTCTACAAAAATTGA AAAAAAAATTAGCCAGGTGTGGTGGCATGCACCTGTAGTCCCAGCTGTTTGGGAGGCTAA AGTTGGAGGATCGCTTGAGCCCAGAAGGTTAAGGCTGCAGTGAGCCGTGATCACATCACT ACGCTTCAGTCTGAGTGACAGAGTGAGACCCTGTCTCAAAAAATTAAAAAAAAAGTGCTT TCATGCTGGGGCTTGCATTCCTGTTTCTGAGAATCCTCTGCCACCCTATGAACAAGCCCA AGCTAACCTCTCTGTAAAAAGAGAGATCACGAAGAAAAAGGCCCCAGCTGTCCCAGTCAT CTCAGCTAAGGGCCCAGACATGTGGATGAGGTCATCTAAGACCATCCAGCCCCAGCTGAG GAACAACAGCACAGCCACAGAATTATGAGAAACAGGAGCTTGCTATTTTAAGCCACTAAG TTTTAGGGTAGTTTGTTAGGTAGCAAAAGCTAACCGACCATGCCTAAACTCCTAGTCTCC AAAACTGCCCAAACACTTTGTCCCAAAACTCTTACCCAAGGAAGGAATTAAGTGATACCA AAAAGAGAAGGAAATCCTGGGCTATACTACTGGAACATGATCATATTATAGGGAAAATGT GGAGCCTATTCCTTTGCAAGTTTCCAGTCCCGTGCCTAGGAACCTCTGTTTACCGTCGTA TTCTTTCCAGGTACCTTTAAAAAACATTTAACTTGAAAATAATTTTAAACTTTCAGAGAA GTTGCAAGAATAAAAATAGCACCAAGAACACCTATATAACCTTTATCCAGATTCACCTAT TAACATTTCACCCCAGTTACTTTGTCATTTGTTTTCATCCTCTCTCTCTCTGTGTATACT CTTTTCCTGAACTACTTGAGGGTAAGTTACCTACATCATGATCTTTTATCTTAAAAACTT CATTGTGCATTTCCCAAGAATTAAGATATTGTCTTAAACAACCACAATGTAGTTATCAAT TTCAGTAAGTTTCACATTGATACTTTAATCTACTGTATTAATCTGTCAGTATTCCAGTTT TGCCAATTGACCCAATACATCCTTTAACGCATTATCTTTGGTGGAGCTGGAGGACATTGT CCTAAGCAAACTAACAGGAACAGAAAGTCAAATACCTTATGTTCTCACTTATAACTGGAA GCTAAACACTGAGTACATATGGACACAAAGAAGGGGAAAAACAGACACCAAGGCCTACTT GAGGGTGGAGGGTGGGAGGAGCGTGAGGACAGAAAACCTACCTATCAGGTACTATGCTTA TTACCTGGGTGATGAAATAATTCGTACACCAAATCCCTGTGACACACAGTTTACTTATAT AACAAACCTGCACATGTATCCCCGAATCTAAAATAAAAGCTCAAAATAAAAAAGTAAAAA TAAAGCATTACTTTCTCCTCTGGCACAGAATCAGATCTAGGGTTAGATATTGCATTTAGT TGCCACGTCCCTGTCTTTTTTTTGAGACAGCGTCTCTGTCTGTCACCAGGCTGGAGTGCA ATGGCATGCAATCTCTGCCTTCCGTGCTCAAGCAATCCTCCTACCTCAGCCTCCTGAGTA GCTGGCACTACAGGCACGCTCAGCTAATTTTTAAATTTTTTTGTAGAGATAAGGTCTCAC TATACTACTCAGGCTCGTCTTGAACTCCTGGACTCAAGTAGTGCTCTTGCCTCGGTCCCC CAAACGGTTGGGATTACAGGTGGGAGCCACCACCCTCGGAATAGTTGTCATGCCTCTTTA GCCTCTTTTTATTATTATTATTATTTTTTGAGACAGGGTCTTGCCCAGGTTGGTCACAGT TCACTGCAGACTTAAATTCCTGGGTTCAAGTAATCCTCCCGTCTCAGCTGCCTGTGTAGC TTGGACTACAGATGTAGACCAGCTATTTTATTTTATTTTATTTTTGTAGAGATAGCATCT CAAACTCCTGGGTGATCCTGTTGCCTCAGCCTCCCAGAGTGCTGGGATTACAGGCGTGAG CCACTATGCCTGGTCTGTTTAATCTGGAACATCCCCACAGCTGTTCTTTGTCTTTGAGGT CATCGATATTTGAAGAATCCAGCCACCCCCCACCGCACCCCGCTCCCACCCCCACCAACA CTTGTCTCTTTAAAAAAATAGAATGTTCTTATTTGGGGTTTGTATGGTGTTTCCTCTTTA GATTCAGATTCTGCCTTCTAGATCAGAGCACTTCATAGGTGACGTTATGTCTTTCTCAGG GTTTCACAGCTTTTCCAGGTACTTTTAAGGACTGATACAGTACCTTGACCCCCTCATCAC CAACCTCACTCAGCTCACTTATCATAGGATATAATTTTCCACGGGACTTCATCATTGTGT ATTTGGCCACATCCTGCTCCTGCTCCCACTAGATCCTCCCACTCCAATCCTACCTGAGGC ACCATGTTCTTAAAAGACTCCATGATCTTGGAGCTCTTGGCCTCCTGATAATAGGAGAAG CAGCCAGTGACGATGACCACGACGGACAGTACGATGCTCAGGTAGAGCTGAGGGTGGGGA AAGAAAGCGTTTATCAGTGGGACCTTGTCGTCTTCTTCATCCTCAGAAAATCAGTCTGCA AGGGGCACAGCAGTTTCACCAGGTGTAAGAGACCGTAAGACTGAGTTGAGAGCAGAGGGG TAGAGAAGAATCTGAGGTGGGACCAGTACACTTGGCTTCCTGGGGAAGGAACCCTGAGCC ATGGTGAGCCGTCAGCAAAATTCCTGGTCAGAGAAGGCCTGTATCTTTCTCTCCAGGAAG GCTAATCTCTGGATGGAGGGGGTGGATTGTGAGGGAGGCTGGGAGGAAGGAGATGAGGTT AAAATTGTGGAGAAGAGAAAGGGACTGCAAAGTGCTTTGGGGATCAATTGGGAAGGTCAT CAAAGAACAGCAAGTTTTTCGGGGACATTGTGCACCTCAGGGAACTGGACCAGAAGCTTT TTAGATTAAAAGGTGAGAGGAACCAAGATGGAACTTAGAAAGTGGAGTATTAGGGATTTT GGTTTATTACATTAATGTACATTTATTACATTATTATGTAATGTACATTTATTACATTAA TGTACATTTAATTACATTTTATAATTAATTACATTCATTACAATGTAATTAATCAATTAC ATTGTAATTAATTACAATCAATTACATTTATAATTAATGTACATTTATTACATTATTACA TTAATGTAATAATGTAATTAGGGATTTGGGCCAGAGGACTTCAGGAGTGCTAGGCTGCTG AGCAAAAGAGTGTCTGGGGCTAAGCAGAGATAGGGCTGGCTAGTAGTAGCTGAAGAGACT CACGTTGTCTTTGGTAGGCTCCTCATTGAAATATATCTGGATGCTGTAGGCCACAAAGCA GAGAATGGCCCCAGTCCATAGTAGGAGGGAGAAGCCTCCGAACAGTTGCTTACAGAATTT GACCCATTCTGGAGTGGTGGGGGGTGGGGTAACAGTATTGGGTCCACCTCGAGTCAGGAT TTCCTTTGCCCTTTGGTGGCTATGGCCCTGTGCAGAGAAGAAATAGGGTTGGATAGAGAG CTGTGAAAAGAGGAACAGCCATAGCAAAAGGGAACCTGACATTTGGAGCCCCAGAATGGG TCTAGAGACTAAAGACGCTTTCAGAAGGTCAGTCTGGAAGTTCTTCCTGGATAAGGTGAG GTTTCAAAATTTGCATTAGAGGAGGGATGTCATTTAGCATGCTTACATAGGAAGGTTTTT GTTTATGGATTGATTCACAAACCTTTTTGAACTTGAGAACCTATCTCGGGTCCTAGGTGC TGAGGATACCAACATGAATAAGAATGGTCCCTACCCTTAAGGTGCTCCAGTGGGGAGATA AATACATACAGATAATTATAATGTGCAGGGCCAATGTCATGATGAAATATAATACTTAAT GTTGATAACATATTAACACCACGCTTTGACTCTCCAACTTAGAGGGAATAAGATCTAGTG TTTGGTAGCACAATAGGGCAACTATAGTTAATAATTTATTATGGATATCAAAATAATTAG AGGAGTGGATTTGGAATGTTCCCATGCAAAGAAATGATAAATGTTTGAGGTTATGGGTAT CCTAAATACCCTGATTTGATCATTACACATTGTATGCTTATATCAGAATAATACATGTAT ACCATAAATATGTACATCTACATATCCATTTTTTTTTTTGAGACAGAGTCTTGCTCTGTC ACCTAGGCTGGAGTGCAGTGGCATGATCTCGGCTTACTGCAACCTCCATCTCCCAGGTTC AAGTGATTCTCCTGCATTCAAGTGATTCTCCTGCCTCAGCCTCCCAAGTAGCTGAGATTG CAGATGTGTGCCACTATGCCAGGATAATTTTTGTATTTTTAATACAGATGGGGTTTCACC ATGTTGGCCAGGCTGGTCTCCAACTACTGACCTCAAGTGATCTGCCTGCCTTGGATTACA GGTGTGAGCCACGGCACCTGGCCCATAAATTTTTAAAAAACATAAATAGAAAAGAATACT AACAAAAAACATGAATGCATAGATTCTCATTCCACTCTTGTGCACAAGCTTATGTGCTTT TTCCTGTTAATGAAAATGATAGTAGAACCTGCCAATCACCACCAGCCACTCCCCAACCTC TGCCTGAAACACCCGAGGGGCCCCAAAACCCTTTCAGGGGGTCCACAAGGTCAATTTTCA TAGTAATACTAAATCATTGTTTGCCTTTTTTTACTCTCATTTTCTTAAGAGTATATAGTG GAATTTTCTGAAGGCCAACTGGCATAACATCACAACAGATTTTATCCAGAAAATATTTGA GAATCCAGCTATCTTCTATTAAAAAGCAAGACATTGAAGAGGTTTGCAAAAATGTAAGAT GCTGCTAATTTTTTTGTTTTGAAAAATACAGTTATTTGTCAAAACATATATGAATATATG ATAACTTTATTTTTGTTATTTTTAAATGAATTGAGAAATACATTTTAAAACTCTCAATTT TAATTTCTAATATGGTAAATATAGACAGACTTAAGCCACATAAGCACAAGTTCTTTGCGG TCCTAGATAAATTCTAAGAGTGTAAAGGAGACCTAAGGACAAGACGTTTGACCAGCACTG CCCTAAAGCATTCTTATTCTCTTATCTAGTCCCACACTCTCTTTGAGGGTAGTTACCATT TGCAGCTTTTTCCAGGTAGTGTCCATGGAACGTGGCCAGGCAGAGGGTGAGGGGTGGGAA CGTTGGACTTGAAGTTAGGGGGCTGGATTCCTAGTTCAGCTTTTGTCCTGGCAGCCTCAC AGTCAGAGTTGGAGACTCTCTGCCTCCTCAGGGAGCTTCTTACTCACCTTTGTCAGGTCC ACGGAGTACTTGGTGCTCAGCTCTTCCAAGGTTAATTTGTGATCATCCTGAGGGGACAGT AGAGGCATTGAGGGACAGGGGGTGGCCCAGGTCATTTCCAGGGAGAGGGGGAGAAACAGA CTGGAGAATGTTAGTCCAAACTGAGACTGCTCCATTTTGTAAGCTCCCTGCAATTCTTTT TTTGAGATGGAGTCACTCTGTTGCCCAGGCTGGTGTACAGTGGTGCGATTTCGACTCACT GCAACCTCTGCCTCCCAACAGGTGTTTCTCCTGCCTCAGCCTCCCAAGCAGCTGGGATTA CAGGGGCCCATCACCAGGACCAGCTAATTTTTGTATTTTTAGAGGCGGGGTTTCACCATG TTGGCCAGGCTTGTCTCAAACTCCTGACCTCAGGTGATCTGCCTGCCTCAGCCTCCCAAA GTGCTGGGATTACAGGTGTGAGCCACCACGCCCGGCCTAGCTCCCCACTATTTTACAGGC CTTGGTCAAAGTGAAACATTTCACGGGGGTTCGGGCCAGAGAAACAGCCTGCCTAACCAC CTGACCACAGGGCAGACGAAGGCCCAATTAAAGACAAAGACCCCACTAAAGAAACATCCC TATCACATCCTGCTGGGCAAAGGTCCAGGGAATACCATGATTATATTCTGTGGAAACAAG GGCCAAAAATCACCTCATCATGAGAACATCTTATCGATATCCTGCCAGGCAGCAGGCCAT ACAGCCCAGACTCCTCCCATCCATCCCTATAAGTACCCAGCCTGTAAGTGGCAGTGGACT GTGGAATTAAGCTGATCCCCCACTTCCACAGGTGTCTGCAATATACCTGTGCTTGCTGTT GAGCTGCCCTGTCTCTCTGTGTGTATCTTTTTTTTTTTTTTTAACCCTCTCCTTCCCTCC AAAGCCTAACAGAGAAGAGATGTGGCTCTGGCCTGTGTGTTTCATTCTCAAGGTAAGATG TTAAAGATAGGTGGAGGAGTGTTTTCAGAGGGCAGCTGTCAGCGCCCACTTTGGGTGGCC TCACCATGACCACTTCCTTCTTCAGTTCCTCCATATTGCGCTTCTGTTTTTCCCTCTTCA CCATTTTTTTCTTGATAAGCCCTTTTTTAGGTCTTCGTCTTGGACTCTGGTCATGGGGAG CCACTGTCCCTTTCTTCCCCCAAAGCCCCATAGCTATCCCCAGAAAGAGCTGCCCGAGCT CAACTGTGGGAAGAAAGCTGAGAGAGTGAGGCAAGGGGAAGGGAAGAGGGCGCGCGGGCA AGGGGGCCACGAGAAGAGAGTGGTGGGGAGAGAATGAGGGAGCAGAAAGAAAGAGGCAGG GAGGGAGGTGTTGGGTGGTGAAGGTGAGAGAGAGGAAGGGAAGTGAGAGAGGAGAGACTG AGCGGTCCTCCAGCCGTCCGCTGGGAAGAGGAAGAGTCAGGAGTGAGGGAAGAGGGAGGA GAGAAGCCTAGGGTGGAAGGATAAAAAGGTAGAGGTGAGGGAATGCAGTGAGGGCAGGAA ACAAGAGGTGAAGCGTAACCAGGTGCCTCAGTGATGAAGATGCCGCAAGGCCCACAGGAA GGTGGGAAATGCAGTGAGAGTGAGGAGGCGGAGTGAGCTTCAAGGATCTGGGAACCCCCC AGTCCCAGGCCCTGTGGTTGCTGGGGCAATGACCCAGGTCTGGCATCACAAAGGCCTCCT GAAAGTTCTAACCAAGAATCCAGAAGTCTTGCCTTGGCGATGGTCCAGGTCTGCTGTCGC AAAGGCCTCATGAAGGTTTTAACCAAGAACCTAGAAGTCTCAGTCTTTGGGTTTGAGGAC GATTGGAGCAGGCCCTGCTACAGAAAGAGTTTCAGTCTGAGGGCAGAACTAGAACAAAGT TCTTGTGTGGTCCTGCAGACTTTGGAGGCTTAGAGGTATGCCAAATAGATGACTCAAAAA TAAAGCGGGTATTCGGCCGGGCGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGG CTGAGATCGAGACCTTCGTGGCCAGTATGGTGAAACCCCATCTCTACTAAAAATACAAAA TTTAGCCAGGTGTGGTGGTGGGCACCTGTAATCCCAGCTGCTCGGGAGGCTGAGGCAGGA GAAACATCTGAATCCAGAAGGCAGAGGTTGCAGTGAATTGAGATTGCATCACTGCACTCC AGCCTCGGTGACAGAGTGACTCCATCTCAGACAAACAAACAAACAAACAAACAAACAAAC AAACAAACAAAAAACCATAGCAGGGAGCTTACAAAATGGTGCAGTTGCAGTTTGGACTAA TATTCTCCCGTCTGTTTTTGAGACTCCATCTCAAAAAAAAAAAAAAAGCAGGTACTCTGT GTGTGTTTTTTAGCAAGGCACACTTTTCCACTAACATTGGGTTTGATCTTTTAATTTTAG GAGATCAGCTAGCAGAATAGATCAGATCTTGGGCTCTGGAACCAGTCCTGGATTTCAATC CCAACTCCTCCACTTGTCAGCTGTGTGGCTTTGAGCAAGTTACCTAACCTCTGTACCTCT CTTTTCTTATTTTTAAAAGAGGATACCTTCTACCTTAAGTGAGGTGCTCTACAAAAAGCA CTATGTGACATATATAGTATGTGCTCAATAGGTAGCTTGAATTCAGTAGTAGTTTTATTT GTGGATTAATATGCAGCTCTTCTCAGTGAGGGTAAAAATATGCTTTTCCATGTGATAGCG TTGCATTTTCTCATTTTAAAATGATGTACTTACCTCTTCCATTGACCTTCTCTGGTGTCT CAGTAAGTGCTTTGACTATATTAACTGTATATATGTTTTGCATGTCCATAGGATTCTACC TCCTTCCAAGAATAATCTGAAGCATCTATACTTTTCTGTCAACCATTATATATATTTTTC AATTATGCACGTCACATAGATTTTCCCATTCTGTTGTTTGATATTTGTTTATTTACTTTT TGAGACAGGATCTCACTTTGTTGCCCAGGCTGGAGTGTAATGGTGCGATTATGGCTTACT CCAGCCTCAACCTCCCAGGTCCAAGTGATCCTCCCACCTCAGCCTCCCAAGTAGCTGGGA CCACAGGCATGTGCCACCATGCCCGGCTAATTTTTTTTATTTTATTTTAGTAAAGACGGG GTGCCCCTGTGTTGCCCAGGCTGGTCTCAAACTCCTGGGCTCAAGCAATCCTTGGCCTTG GCCTCCTAAAATGTTGGGATTACATAAGTGAGACACCAAGCCTGGCCTGATATTTATTTA ATTGCATTTTGGTTGGGCATGCTTTTTAAAAATATGACTGTATCTGGAAACATTCATCTT GGTGCTGATGCAATCCTCCTTGAATATTCAGAAATAGAAATGCTCCCTTCCCAGCTGGGA TAAATGATCGTCTATTTCTTTAACAGATTGGATTTTTCTTCTCTATTAAAAATGTTTAAG ATAAAAATTGAAAGCCCCACCTTCCCTCCCTCCAAACTCAGATTCTCCCCACTGCTGAAG TTACTGCTGGTAACAATGTGCTGCATGTCCTTCCAGTCTTTTTTCTATGTTTATACAAAT AGATATCTAAAAGGAGGTATTTTTCAACTTTTAAACAATCATTCAACTCTCTACCAACCT GTCATGTACATAAAGCTTCTTTTTTTCAGTGCTGTGAGGCTTCCATATTCTGTATTGACC ATGCTCTATTCAATCATTCCCATTACTGATGGATTTATGAGATATTTTCCATTTTTTTAA CCATTAATAAAATTGCTAGAGTGTCATTCTTGCACATAGATATCATCAGGCCCTTGAGCT TCTATTTCTGTAGAATCAGTTCCTGTTGCTGAATCATAGAGTACACTCATTAACAATCTT AAAAGATTCTGCCAATTGGTCTTTAAAAGTGTTTATCTATCTGCATCCCAACAACAGGAT GCAAGAATGTCTGCCTTCCACACCTTTGATTATGCTAGATGACCTTGATTTTTACTATTA TAATCAGTGAACTTTGATATCTTGTAGTTTTAATTTGCATTTTTAAATTGTCAATGTGAG CATTTTCTCTTATGTTTACTGGCTTTCTGGTTTTCTTTCTTTCTTTCATTTCTTCTTTTC TTTCTTTCTCTCTTTCCTTTCTTCCTTCCTTTCTTTCTCTCTTTCTTTCTTTTGACAGGC TGGAGTGCAGCGGTGCAATCTCAGCTCACTGCAACCTCCACCACCTGTGTTCAAGCGATT CTCGTGCCTCAGCCTTCTAAGTAGCTGAGACTACAGGCACACGCCACCATACCCAGCTGA TTTTTTTGTATTTTTTAGTAGAGATGGGGTTTTGCCATGTTGGCCAGGCTGATCTTGAAC TCCTGACCTTGGGTGATCCGCCTGCCTGGGCATCCCAAAGTGCTGGGATTACAGGCATGA GCCACCATGCCTGGTCTTGGACTTTATTTATTTATTTTGTAAATTGTCATTCTTACAATT TGCCCAATTTTCCATTGTTTTCTTTTTTATATTGATTTGTAGGAAACCCTTGTCATATAT AACACAAATGTTTTCTCCCAGTCTTTGTGTTTAATGTAGATGAACATAAAATTCTTAAGA AGAAGGTTAGAATTAAAGTTAAAATTCATATGTTTTTCTATGCATCATCTATGTGACAAT AACACTTAGCTCAGTCTTGCAGATGGGCATTGCCCAAAAGCAACTTTATGGAGATACAAT CAATTGAAATTATTTTTAGAAACCTCATTTTGTTCTAGAGATCTTAGCTCAAAAGTCCAC CTCTTCGGAGAGGCCTTCTCTCATAGTTAAATCCAAAACAGCCCCTCCGGCGCCAGCCCT CTCTCTATCACTTTTGATCTTCACAACACTTCTCTCCCTCTGAAATTATCCTGCCTGTTA ACTGTTGACTTGTCTGATTGACTTGTCTTGTTGACTTGTCTGGTTCTCCATGACCCTAGG GACCTTCCCTGTTTTTTTCCACAGCTATATACCTGGCTCCTAGGATAGTGCTTGGCACAG GGCAGCTGGTCCACAAATAGTCCCTGAATAGATGTTGAATGACTAATGAGTTTTCAGGTT TTATCTTAATGCTACAAGGTTTTGATAATTGCCACTTTGGTCTGATTTTTTTTTTTTTTT TGAGACGAAGTCTCACTCTGTTGCCCAAACTGGAGTGCAGTGGTGCAATCTCAGCTCACT GCAACCTCCACCTACCGGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGA CTACAGACATGCGCCACCATGTCTGGCTAATTTTTGTATTTTTAGTAAAGACAGGGTTTC ACTATGTTGGCCAGGCTGGTCTTGAACTCCCGACCTCTTGATCTGCCGACCTTGGCCTCC CAAAGTGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCAGTGGTCTGATGTGTTTTA AAATCTGTTGGGGTAAATATGTTAGCATCAGTGATCTATTCATTTGCTTCATAATTACTT AGAAAAAACCTCTGAGATTCTTGCCTGATTACTCTTGCAGCTGAATGTCACAACCAATAT GTCATGTTTTATAAAAATGCAGCGAGGATTTTAATTGATATTGAATTGACTCTTTCATAG TAACTTATTTTTATCTTTACTACGTTCTGCCTTCCCAAATGGCAGTCAAGTTTAGCTTTC CATGAATTCATGTTTTTTTATTTTTCTCATTGTACTTTTAAATTTTCTTTAATAGTTACT ATGTGCTGCACACAGTAAACCTTGAGCGTAATTTGTTTTCATTCTATTGTAAATAGAAGC TCTTTATGCTGTATTTTCTGTCTCCCTAATATTTAGGGATACATTTGCTTCTTTGAAAAC TGATACCCATATACCCTGTAACTTTGAATTTATTGCTTCTAGGATTTTTTTTGTTATTGA TGCTGTTGCTTTGTTTTGGCTGAATTTCTTGGATTTTTAGGGAGTTATGCTCGCTAAAAA CAAAGTTTTATTTATTTAGAATTTTTATTTATTTATTTTTATTTTTTGAAACAGAGTCTT GCTCTGTTACCCAGGCTGGAGTGCAGTGGTCCAACCATGGCTCATTGCAGCTTCAACCTC TCAGACTCAAGCGATCCTCCTCCCTCAGCCTCCCAAGTGACTGGGACCATAGGTGTGGGC CACCACCCCAGGCTAATTTTTTTTTTTTTTTTTTTAATAGAGATGAGGTCTCACTGTGTT GCCCAGGCTGGTCTCAAATTCCTGGGCTCAAGCAATCCTCCTGCGTCAGCTTCCCAAAGT GCTGGGGTTGTAGACGTGAACCATAGCACCTGGCTTATTTAGAACTTTTTTTTTTGGAGA TGGAGTCTCTGTTGCCCAGGCTGGGGTGCTGTGGCACCATCTCGGTTCATTGCAACCTCT GCCTCCTGGATTCAAGTGATTCTCAAACCTCAGCATCTCAAGTAGCTGGGATTACAGGCA CCCGCCACCATGCCTGGCTAATTTTTTTTTTGTATTTTTAGTAGAGACGGGGTTTCACCA TGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAAGAGATCCGCCCACCTCAGCTTCCCA AAGTGCTGGGATTACAGACGTGAGCCACCGCGCTCGGCCTTTGTAGAACTTTTAAACACA AACTGCTTATCGAGGATTTCAAATGTTTTATTGCAATTATTTGTTATAGTTGCTGTTATT GGTTTTCTAGACTTACTACATCCTTTCCTCTCTTCTCTGAACATGATTACATTTTCTTTT TTTTTGAGACCGAGTTTCACTCTTGTACCCCAGACTGGAGGTGCAATGGCGGGATCTCAG CTCATTGCAACCTATGCCTTCCGGGTTCAAGTGATTCTCCTTCCTCAGCCACCCGAGTAG TTGGGATTACAGGCGCGCGTGCCACCACGCGCAAATTTTTGCATTTTTAGTAGAGACAAG GTTTCACTACGTTGGCCAGGCTGGTCTCAAACTCCTGACCTCAGGTGACCCACCTACCTC GGCCTCCCAAAGTGCTAGGATTACAGGCGTGAGCCACCGCGACTGGCCCATGATTATATT TTCTGATACACTTTTTCCTCCAACATTTTTATCAGTAATAGATACTGAATTTTACTGATA GCCTCCTCAACCTTTTTTGAAATGATTATTTCATCCTTTGTCTAGTTAATGTTAGTTGTT TGTAACATTTTCCTTGTAATATGCTATCCTTGCATTCCACCATTTGGGGTAGTCAATTTA TTATCTATATTAAATATAAAATTTTAACAAAATAGTACTTATCTCATAAAATAGGCTGGG CAACACAAAACACAAAATAATTTTTTATATTCCAGCACATTTTAAATAATATAAGGAAAT TCTTTGAGGAATTTGCAAAAAATCCTTCATTGAATTCACTGGAGCCAAGGATATTTTTGA AAGACTCACTTTGTATTAAATGTCTTCCTTTGATATTGATCTAACCACTTTCTTCCTATT TTTTGCTGCGTTCTTAGCATTATGAATATTTAGTGACTATCTCTGATTATCTCTGATGCA TGATCACATTTCCTATTCTGTAGATAAAAAGAAAATGCCATGGAAAGACTTTCTGCCTGG GTCAAAAGTTGGCCTTAGCTTCTCAGATTACATTCAATAGTAAGATTCTTCTTTTTGCTA AAATCCTCTAGCAGACCATCAAATCTCTTTGGATCTTTTTCTTTCTTTCTTTTCTTTTCT TTCTTTCTTTTTTTTTTTTTTTTCTGAGATGAAGTCTTGCTCTGTCACCCAGGCTGGAGT ATAGTGGCACAATCTCGGCTCACTGCAGCCTCTGCCTCCTGGGTTCAAGCCATTCTTCTA CTTCAGCCTCCTGAGTAGCTGGGATTACAGGTGTATACCCGGCTAATTTTTGTATTTTTA GTGGAAGACAGGGTTTCACCATGTTGGCCAGGATGGTCTCGAACTCCTGACCTCAAGTGA TCTGCCCACCTTGGCTTCTCAAAGTGCTGGGATTACAGGCGTTAGCCACTGTGCCTGGCC TGGATCTTTTTCTTAACCCCCTACCGCATCTTTGAGATCATATCTTCTCCCTTTCTCACG GATCTGCCTTGCCCCTGCTGCTCAAATGTTAATTGTCCACAAATTCCTGGCTCCCTTGGC AGCCTCCCCAGTTCACTGAGCCATTGGGCTAGTCAGGCTCTGTCCATGCACATAGGCTTT CTGTTCTTGCAGTTGCAGAGCATGGCATGGTTAAGAGGGCAGGCCCTGGAGTCAGACTGG CCTAGGTTTGAATCCTGCTTCAGATGCTTACTACCTTTGAAACTTTGAATAATAATTTAA CTTTCTGAGCACCAGTTTTCTCATCTGTAAATTGGAGATAATAATAGTCTCCATCTTACT GAATTACTGTGAGGATCCTTTCAGTCATCCAACACATATTTATTAATTGTCTAACGTGTG TCAGATGTTTTAGGTGCTAAGGATAAAGGTGTTGAACAAAAGAAATAGAGTCTCTGTCTT CATGGAACTTATACTGGAGGAGTCAGACAAACAAAAGCATAAACAGCAACAAAATACATG TATATCTTTCTAAATATTACATCTAGCTGTCTTTCTATCTAAATTTAAGGTAATAAGTAT TTATGAACAAAAACGAAGAGAACAGAGAAAGAGGTTCCAGGAAGTCATTTTATTTGAGGT CCTCTGTGAGGATCTTACTGATGTTTAAGGAGTGATCTGAATGAAGTGACAAAGCCAGGC ATGTGAATAACTAGGGAAAAGTGTTCCTGGCAGAGGGACCATCAAGAATAAAGGCCCTGT GGTGGGATGAACGGAGACTATACAAATAAAATTTTGGCATAGTTATGGCACAAAATGAGC TGTGATTAAGGCTCTTATAATCACTACTAACTATAACTGTCATTAATGACACTGTTAAGA GTCATAATAAAGGGGCTGCAATATGGCTTGGGCAAGAATTGACTTCTGACCGTTATTCTG AAATCCTGGCATAGGTTGTAAGAGTTGGTGTCTTTCTCTCTCCCATTCCCAGGGCCCCCC TGGAGCAATGCACACCCACCCACCCACCCCTCCATGTCCAGCACACAAGCGTCCCCCCTA CTGCTCATTACATTCTGTCCATGATGGTTTCTGATGTCTACTACTCAGGTGAATTTCAAG GATTGCATCCACTTTACCCCCACCCCTTAAAGAGAGCACCCAGGACAAAGCTCTGCATGA AGTACAGATTGTGAATTGGTGTTGACTCTTGGGCTCCTCAACCCACTATCTCCTTCCCCC ATCCCATCAGATAGAGAATGGCCTGATTTTGGTCTGGAACAGAAAAAGCAGAAGTGCCCC TGAGGATCTTGTTCTTAATAGACTCACAGGCCCCTCCCTGTCCTGGACAAACTCTTGTGG CTCTTAGGGTGGGATCAGCATGAGGAAGGAGGCTCCTGCTATAGTTTCTTGTAGGTTATT TTGCAACCTAACTTCTTCCCCTCTTGCTTTCTCCACGGACATCATCTGCTCCCAGACCAT TTCCCTCCCATCCCTGACACTTGCTATCTCTTTGTTGCTTTCCCTACAAGCCGAGTTCTG CCACAGCACATATTTCAATATCACGATTTAGGAGGGAGGCAAGTATAAAGTGTAGAAATC TGAATTATGGAAGAGATTTCTTTTTTTTTCATAAAGAAATGCCACTTTATTATTTTCAAG TACATAGGTAGTACCTCAAACTAATGTCTTACAAAAGGTCACCAATAAAGATCCTGTAGA TGTTTCTTTAACAAATACATAAAGATTGATGATAATTAGCCCATGCACTCGCTGCTTCTA AAAGGATATTTCTAAAGTGCCTGAAAAGTATTGTTTTTGGTAGACTAAACATGCCACCTC TAGCAATATTGTTTATGCTCTTAATTTACTAAAAAAATGCCATTTTTATTGATTGTGCAA AGATAAACTTTTGTCCACAGTTAGTAATCTCCAATTAATCGGATCCAAATTAATATTGTC TCCCACTTAGATTCCCAGGCCCAAGGCAATGACTCCCTTACTTCCTTGCTTCTGATAAAG CAAAATTCCAGTGCAATGAAATGACAGCCTTTGGGAGGTGGTTTATGGGTCTGACCCAAT GCTTGTCTTTTGTGCTTCCTTCCTGTCTGCCTTAGGTCTTCCATTTTCCTCAGATGTCTT TCTCACTTGCATGACCTATCTAGGTCTCTCTCTACAGGACATTCCCAGTGCCTTCTAAGC CAGGCTTAGAGAATGGGCAAGGCTGCCTGCAGAGCAAAAGTGTTAGATAGGGAGTAAGGG AAAGAAAGCTATCTCCTGTAGGAACCTGAAACCAACTCTCCAGCCCAGGGTAAGTGGGCA CAATGATCGTCGGTTTGAAGGGCATTTGCCTGGAGGGAACAGCCCTGCCACCTAAGACGT CAAAAGCAAATCATTTTTTTTTTTTTTGAGATGGAGTCTCACCCTTTCGCCCAGGCTGGA GTGTAATGGCACGATCTCAGCTCACTGCAACCTCTTCCTCACAGGTTCAAGCAATTCTCC TGCCTCAGCCTCCTGAGTAGCTGAGATTACAGGCGTGTGCCACCATGACTGGCTAATTTT TTGTACTTTTAGTAGAGACAGGGTTTCACCATGTTGGCCAGGCTCGCCTCGAACTCCTGA CCTCATGATCCACCTGCCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCACCGC ACCCAGAAAAAGCAAATCTCTTAGTATTTTTCCTCTTGTCCAAAGGTTCTGACCATGTTC ATGACCTAAGCTTGTCCCTGGAAGCATACATGTCCCTGGGAGACAGGAAGGTTCAGGGAA CTTCTCCACCCTGATTCTAGCCAATGGCCAGCGAACTCCTTTTCCAGGGTTGGCTTGGCA GTGTCGGGGAATGATGCAGGTTCATCGGGATGGGCATGAAAAGAAAGGGAATGGAAGAGG CTGGGAAAGAACTTGTGGCCATCCCTTTCAGAACAGCATGGAGCTCTGAGGACTTAGTAT TACAGAAGGTGAAGTGTTATTAAGTACATGAGTGACATCCGGACCTTGTGGACTAAGAGG ACCCCTAACCAAGGGTCAGCGGGGAACTCTGTGGCACACAAGTGTGGCATTTCTGGAAGC TCTTGATTGCCTTCTGGTCCTGCCTCTGCTGCTACCCTGATGAGATCTGAGTTTGTTCTG CTGGTGGGGTATTCTAAAATGTGGGACGTAGAGCTGGAGTCCACGACATCTATCTGGAGA CTCATGTCAAATGTCCTGTCATTGGCACTACCTCACTTCCTTTGTTGTTTCCTTCCTCCA GCCAGCCCTACCTCCATCTCCCACCTGTCTGCCCAGCTCTCCCTGAAGGTCCCTTACCAG CCTCGACTGGGAGACAAGTCCACCTTTTCCAGTCTCAGGCTCTTGCACTCACCAGAAGAA CCTTTTGTGATTGCAAGGTCTGAAGGGGAAGCCAGGGATAGAGTCCTGCAGGAAGCTAAC GGGGGTGGAAGTGGGAAATGGAGTGAGGCTGGGGTGATCTGAGAGGGCTTCCTTCTGGTT TAGATGGGTTCCTGCTTTTGGATGCTGATCTATTACAGTAGGAAGTGGGGTTGAAGGGAT GGGAGTGGGCAGGGTGGGGTAACCCTTAATTCCTCAGAAAAAATAGACAACATAGTGGAG TGGGATGGAAAAGGATCTGGTCGGGGGGACTCTAACACATAGTGTCTAATCTGATTGTTC ACAGTTAGGTCTATGGGGTCATCACCCCAATTTATATACCCCGCAACTTAGCCTGCTGAG TTGCCTCATTATCTCTCCCCAAATGTTGCCACCCAATGCCACCCGTTATTTCCATCCCTC TCCATCACCATCCCCACAACACCTCCAGAGCTCCCCATCTTTCCATGCCTGGTTCTTCTT CCAATGGGGTCAGTAGTATGTCTCCTTCTCCACCCAGCCTGTTAGAGAGATTGGGAGTGG AGATTGCAGCATGAGCTTAAAAGGAGGCAAGAGATCAATTTCCTAGGGGCTTGGGTCGCT GAAGCCAGGTGGAAGGAGAAGCCTGGTGAAGGGCACTGGGGGAAGTGGCTTAGGAAGGTG GAAGGAGGCTGGGTGCAGTGGCTCATGCCTGTAATCCCAGCATACTGGGAGGCTGAGGCA GGCGGAGATCAAGACTCCTGGCTAACCCAGTGAAACCCTGTCTGTACTAAAAATACAAAA AATTAGTCGGGCATAGTGGCATGCGCCTGCAATCCCAGCTACTCTGGAGGCTGAGGCAAG AGAATTGCTTGAACCCAGGAGGCGGAGCTTGCAGTGAGCCGAGATCGTGCCACTGCACTG CACTCCTGGTTGGGCGACAGAGCGAGACTCCGTCTCAAAAAAAAAAAAAAAAAAAAAAAA AAAAAGAAGGTGAAAGGGAGGAGAAGGAGGTCCAGTGAGCTGGGGCCATAGGTTAAAGGA AGGGAGGGTGAACCTGCCTTTAGGGGAGACTTGTATTTAGCACATTGGAGGCTGGGGCAG AATAGGTCGAGGGTGAAAATGCAAACGCCCACAGGGCCTCTTCAGGTGACGAACGAGAGT CTAAGGGAGCAGCTGTCCATTCTTGCTGTGCAGAGATGTGGACATGGGATTAACAGCTCT TCTGATCTTCAGGAGAAGTCGAATTCAGATTTTATGTGAAAGACCCTAAATTTTCTATAT CGGACCAATTAATCCACCCTCCTCCCCCCACACACACAAAATATGGCACAGGTCAAACCA AACAGTATTCCTGGACAGTATTTGGTTTGTAAGCCATCATATTTTAACCTCTACTAAGTG ATTAAAAAACGCTTGTAGGAAAAACAATAACTTGTCGGTTGATGAGTGGGGATCAGGAGG CCTGGGTTCTAGTACCAGTCCTGCTATTCTTTGCTTTACGACCCTGAACAGATTCACCTC TGAGCCTCCTCTATCTGTAAAATATGGACGTGGGACTAGGTGACCTGGAAAGGCCCTTCT AATTCTGATGTTCTGTGGTTTCAGGTGGAAGGTGGAGGGCCTCGGAGACCAACTGTGAGT TAGGCGGGGTTTAGAATCTGATGGGAAGAGGGCAGAGACAACAGGTTCGAAAGAGTCAGG GCTCCTGGGACCTGGGACCCCAGGATCTGAGGGTGTTGAGGAACAGAAGCAGGAACCAGT AGTGGGAGTGGAGTCTGCGTGTGGTCCTGGAGGGAGGAGCTGGTGGTGGGGCTTGCACTT TGCTGGGGGGAATGTGGAGGGGCTTACCACCAGGATACCGCCGCAGGATGAGCTTTCGGA CCTCATCATAGATGAAGATGAGGAGGCTGTAGGGGAAGGCGCAGAACCACCAGGTGACTC TGAAAGCAATGGAGGAGAGTGTCAGCAGCATCAGAGGTTGGCTTGGTGGCTGTCACATAA AGGAGCATTCAAAGCGATCAGAACTTGGATCCTGGAGGGGGCTGAAGGCCCCCCGTATGA CTACTCAGGCCGCCCGAAAGAGACACTCACTTGAGCGGGTACATGCGGAGGGCTACACCC ATGCCTGGGCAGTAAGAGAGAAAGGCAGCCAACGCCGTCTCCTCCAGGAGCCCAAAAATC AGGATCTTGTTCCTGAAAGGCAAAGAAAGGAGGTGGCAGGTGAAGGGGGATCATGGAGGC AGAGATCCTGGGATACCCCTGGGGTGCAAGGGAAAGAGGAGAGAGAATTCTAAACGACAT AGTCGCATGTCTTCTTCCAACAGCCTCTTCTCATGCTTTATGTAACCAAAGGAAGATGTT ATTTGTTTTTCTGCTTACTGAGTTTACGTCCGAATGTTGTCTATTGCACGTATATTCATT CATTAAATAATTGTTTCTAGGTGTTGGGTGACGTGTTCTGTACTGGAGACACGGTGGTCA ACATGGGGCCTGTCTCATGATCTTGTTATTGCTCCAGGCACAGGGCCCATGAAAGTGTGT CTCCCCAGCAAGATGCTTGAAAGCTCCTTCAGTGCAGGGCCCATGTATGTCTTCTACCGT CTCAGCATCTCCCACAGTTCCTGGTGGTGGTTTCATTATAGATATTTAATTCAGAGAATG TAAAGGGGATCACTGCATAATAAGTGGTTAATATATGTTCACTTTATCAGAATTGAAAAG CAGGATAGAATAAGGAGGTTCTCAGGGCAGTTTCTGCAGTCAGACAGGTGGTGTCTATTC CCAGTTCTGCCATTGACTAGCTTTGGGTTGCAGGCAATGTTGAATTTCTCTGAGCCTCAC GTTCCTTCTCTATCAAATGGAGATTTTACCTTTTTATCATAGGGTTGCTGGGAAAATTAA GGGAGATAACACGTGAAAAGCTCTGCAATGTTCTGTCACTGAAATGTTCAGTGACAGACC TGGAAAATGTTCAGTCACATTATTACTCCACTTTTTTTTTCTGAGACAGAGTCTCACTCT GTTGCCCAGGCTGGACGATCACAGCTCACTGTAACCTCCACCTCTTGGGCTCAAGTGACC CTCTTGCCTCAGCCTCTCCAGTAGCTGGAATTACAGGTGTGTGCCACCACGCCCTGCTAA TTTTTATATTTTTTGTAGAGATAGAGTTTCACCATGTGCCCAGGCTAGTACCAAACTCTT GGGCTCAATTGATTCTCCTGTCTCAGCCTCCCAAAGTGCTGGGATTACAGGTGTGAACCA CTGTCCCCGGCTACTCCATCTTTTGTATTCTTACACAAGGTACCTCTTTTTGGTTCAAGC CAGTGATTTCCAAATTTTCACTCACTAAGGACCTCCTTATTTTCTTCTGTAAAGGCCACA TTTAATTGTTTGTCTCTCAAGCTACATTTGTGAATAAGTATTGAATACATTTCCCCATTT AAAATTAATTAGAACTATCCATGGCTTCCAGACAGAACTGTGAATCAGCATCCGATCACC ACGTCATGATATGCGCTCTTGGCTTTTGCCTAAGAATGACACATTAGTAAGCCTGGTTGC CTTCGCATAGGTGAGTGCTTTATTTTCATAAAGCTTTTCAAAATAAGGCAAATAGCATCT CTGAGGATCCCCAGTGGCCCAGGGACCTAAGGTGAGGCCTGTGGTGGTATTAGTACTCTT CCTCTGTACCCAGCCTGATTTTCATTTGCCATTTTTCCCATTTGCCTCTAAGATGGGCTG GATGCAGCCACTATGGCCATGTTCCCACCTTCGTGTGTCATCCCTGCAGTGCATAGCAAG TCCCAGGCCCCAGAATTATACCCAATTTCTTAGACTCTCTGCTCCTTGTTCTCTTCAAAT TGCATTTTTTTTCCATTAGTATTTTTAGCTTACTGGAATCTCCTTCCTTCATGTTACCTT TATTTATCTAACAGGCTTTTCACTTTATTCTCCCTTGGATCTTAAGTGTTATTAACTTCA CTTTGGCATCTTCTCCCCACCCTCCCCAGCCCCAAACTAAGAAACTGTAACAACCTCATG TGAGGAATTGTGGCCATTGTTTATGGTAGGAGAAAATAAAAGGAACCAGCATGAAACCTT CAGCGCTCAACCACCACCCATAATAGAATCACAGTCATTACTGAGTTCCAAACAGTGCCA GATGGTGTGAGCACAGAAATGTTGGGTAGTAGCCAGGGCTGGGTTTTAGAGACAGATCTG GTGAACCCTTACCATCTTGGTGACCTTGGGCACATCATTTAACCTGTTTGGGGCCTCTTA TCCATGAAATGTAAACAGTAATACCCACCTCATAGAGCTATCGTGGGGCTAAACAATGTG TTAGGCACTTAGCACAGTGCCTGGCACGCTGGAACTCACACTGCAAGAAGCGCTGAACCC GACCCTCGGCAGCACGTGGCCTCCAGAACCACAGTGCAAGTGCTATAAACTAGACTGCCT GCGGAAGGCCAGGGGAGGGGTGGGCACAGAAGACACTGGATTTAGGGCTGGGCAAAGGAT AGGAGCAGGTGGCACTCAAGTAGGAGATGGGGGAAAGAAGGGAGGGAGAGAAGGAGAGAA GAAAGGTGGAGAGAGACAATAACAAAATGCAAAATTAGGAGCCTGAAGCATGGCTTCTCT CTTCTATATGAAACCTATCTATGGATATACAGATGGAAGATTAAAATCTGATGCCCTCCT TACAGCTCTGGTCCAGGGCTGAGTTGGAAGCTTGGCCTGTGTGGGTTGGTGAGTGTGCCC AGAGCCTGGGTGGGTAGGTGCCATGGGGGTGGGCACTCACTTCATGCCCTGCTGGAAGAC TGAGTTGCGGCGGGTCTTGCAGATGATGAGGTCAGCCCACTGCACCACCACGATGCTGGC AAAGAATGCCGTGTGGCACGTGAACTCCACCACCTTCCGCTGCTCATAGGTCTGGAGGGA GGGTGGGCAGAGACAGATGAGAGTGTCGGAGGAAAGGGTAGGACCAGAAGGTAGCATGGT TTCTCCTGATCCACCCCTAGCCCCAGTCCCAGTTGGCCACCACTGGCCACTCCTGCCAGG CATTCAGCTTCCCGTACCTTCACACATGTGCGCTGTGTTTACACAGCACCACTCACCCAC TCCTGTCCATAGCTGTCCTCCAGATCATTCATGGTCCGGTCATCCCAGTCGAGGCGGATT CCCAGTAGCCGTGATGGCAGGAAACCGTTCTCTGCCAGGATCACAAAGTAGGTGAAGAAG CCACCCAGTGCCTGGATCATCCCTGTGGGTAGAGGGCCAAAGGCAGGGGCAGGGTCAGAG CAGGAAGCAGAAGGGGCACAGCCCCTCAGGGCCAGAGATGGAGGTCCCTGACCCTTGGGT AGCTGGCCTCTGTCCTGGAATTTTGCTTGGGGCTCATTCCTCTGAAAGCTGGGAAAAGAA CCCTGTTGGGGTTCCCTCCCGAGGCCCGGGGCTTGGCGCACCGATCTGTCCGTAGGCCAT GCTGATGAGCCTCTCATTCACCAGCTTGTCCGTCTGGGAGTTTCGTGGCTGCCGCTTCAT GATATCACTCTCAGCTGCCTCATAGGCCAAGGAGATGGCAGGGACCTGTGTGGGGTAGGA AATGGGGCAGGGAGGGCATTTGAAGGGACGTAGGAGATGACAGAAGCAATTGATCTTCGA CAGTGACGATCGTTGACACAGTTAAAAAAGCGTGTATTCAGACCCCATTGTCTTCCAGGC CTGTGCCTGTCTCCTGTAACCCCCACAGCTGGGGCCACTGCCCCAGTGCACCTCTCCTCC CTGCCACTGTGCCATCACGATTGCCTTGCCTGTCCCCTCCTCCACCTCCTGCGCTCACCA TATCTGTGCCCAGGTCAATGCAAAGGATGGTCACAGTGCCCAGAGGTAGGGGGATGTTGG CAATGATGAACAGCAGGAAGGGGGTGATCTCGGGGATGTTGCTGGTCAGGGTGTAGGCGA TGGATTTCTTCAAGTTGTCAAAGATCAGGCGGCCTGTGGGGAGATTCTGAGGGCATCAGG GAGGTCAGAGGGACTCTTCCCCACCCCCAGCCCCTGAAGCATGGCTGCCTGTCTTCCCAA GAGAGGAAGATTTTGTGTTCAAGGGAAGCTAAAGTGGGCTGGGCTGCCTAGAGTTGTGGA ATGATTCTTCAACTGGGGTAAAGGGACAGGGAACAGAGGTGCCGGCTTCAGTATCCTGCA AACCATCCCAACCCATGCAGCCTCCTCACCCTCCTCCACCCCCGTGACGATGGAGGCAAA GTTGTCATCCAGCAGGATCATGTCGGCTGCCTGCTTAGAGACGTCAGAGCCAGAGATGCC CATGGCAATGCCAATGTCAGCCTTCTTCAATGCAGGGGAGTCGTTCACCCCGTCACCCGT CACGGCCACAATGGCTCCCTGGAGGGAAGACGGCCACACTTGAGGACGAAACCCCTTCCC AAGCCTGGCTCCTCGCCTCTCACTCCATGCTTGTCTTGGCCCTGTCCCTGCCTCCCCGGT CCCTGCCTGTCATCTGCCTCCCGTGGCTGTGCTCACCTGCCTCTGACATCCCTCCACAAT GATGAGCTTCTGCTGGGGAGACGTTCGAGCAAAGACGATCTCTGTGTGGTTCTTGAGGAT CTCATCGAGCTGCTCCGATGTCATGTCCTTCAGGTCAGAGCCGTGCACCACGCATGCCTT GGCTTCTCTGGAGGGTGGGTGGGGACAGAGACAGCTGACCCCTGGCACCTGTACCAGCCC CTCCTGCCCCCTGCCTCTCTTCACCACCGCAGCCTGCAGGCTCCCTGCTGAGCCTGCTTC CCCTGTTGCTTCAGTTCTCCTCTCCTCAGTACTCACTTCCCCCATTTCTCTTTGAGAATG TGAGTCTAAATCCTCACCATGGGATCATCGCAGTTGTAAGTGCAGTTTGCTAGGCCCTGG GCTAGTTTCTTTACTCACATCCCACTCCTACAGCAGTGGAGATGGCATCCTAATTTTGTG GTGAGAAAATGGAGGCTCAGGAAGGGAATGTGACATCTCCAAGGTTACATGGGTATTCAG TGGCACAGCCTGGATACAAGCTCAGGGCTGAGGAACCAGTCACAATAGTGTCAGAGGTAA GGCCTATAAAGGTCCCAGAAATGCTATCCAAATACTCCCAGGGGACACCCAAGCCTTCTG TGCAAGAGGACGTGTTGATTAGGGCACAGGGGCTTCCTGCAGAGGCCTCACCTGGGGTTG ACTTGACTCATGGGAATGTTGAGCCGGGCTGCAATGTCCTCCACAGTCTCGTTACCCTCT GATATGATGCCCACGCCTTTGGCAATGG needletail-0.6.3/tests/specimen/FASTA/hs_owlmonkey.fasta000064400000000000000000000006401046102023000213010ustar 00000000000000>human GTCTGTTCCAAGGGCCTTTGCGTCAGG-TGGGC-TCAGGGTT---------------CCAGGGTGGCTGG ACCCCAGGCCCCAGCTCTGCAGCAGGGAGGACGTGGCTGGGCTCGTGAAGCATGTGGGGGTGAGCCCAGG GGCCCCAAGGCAGGGCACCTGGCCTTCAGCCTGCCTCAGCCCTGCCTGTCTCCCAG >owlmonkey GTCTGTTCCAAGGGCCTTCGAGCCAGTCTGGGCCCCAGGGCTGCCCCACTCGGGGTTCCAGAGCAGTTGG ACCCCAGGTCTCAGC---------GGGAGGGTGTGGCTGGGCTC-TGAAGCATTT--GGGTGAGCCCAGG GGCTC-AGGGCAGGGCACCTG-CCTTCAGC-GGCCTCAGC-CTGCCTGTCTCCCAG needletail-0.6.3/tests/specimen/FASTA/index.toml000064400000000000000000000077151046102023000175610ustar 00000000000000[[valid]] filename = "aster.fasta" origin = "BioPython" tags = ["protein"] [[valid]] filename = "centaurea.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "EFTU_BACSU.fasta" origin = "Bioruby" tags = ["protein"] [[valid]] filename = "example1.txt" origin = "Bioruby" tags = ["dna"] comments =["some sequences contain gaps (labelled as 'cutpoints')"] [[valid]] filename = "example2.txt" origin = "Bioruby" tags = ["dna"] comments = ["masked sequence delineated by upper/lowercase"] [[valid]] filename = "elderberry.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "f001.fasta" origin = "BioPython" tags = ["protein"] [[valid]] filename = "f002.fasta" origin = "BioPython" tags = ["dna", "multi"] [[valid]] filename = "f003.fasta" origin = "BioPython" tags = ["dna", "multi", "comments"] [[valid]] filename = "fa01.fasta" origin = "BioPython" tags = ["protein", "gaps"] [[valid]] filename = "lavender.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "loveliesbleeding.fasta" origin = "BioPython" tags = ["protein"] [[valid]] filename = "lupine.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "phlox.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "rose.fasta" origin = "BioPython" tags = ["protein"] [[valid]] filename = "rosemary.fasta" origin = "BioPython" tags = ["protein"] [[valid]] filename = "sweetpea.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "wisteria.fasta" origin = "BioPython" tags = ["dna"] [[valid]] filename = "alnfile.fasta" origin = "BioPerl" tags = ["protein"] [[valid]] filename = "genomic-seq.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "hs_owlmonkey.fasta" origin = "BioPerl" tags = ["dna", "gaps"] [[valid]] filename = "test.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "testaln.fasta" origin = "BioPerl" tags = ["protein", "multi", "gaps"] [[valid]] filename = "testaln2.fasta" origin = "BioPerl" tags = ["protein", "multi", "gaps"] [[valid]] filename = "AAC12660.fasta" origin = "BioPerl" tags = ["protein"] [[valid]] filename = "HUMBETGLOA.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "amino.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "amino.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "badfasta.fasta" origin = "BioPerl" tags = ["dna", "multi"] comments = ["BioPerl suggests that this is invalid due to blank lines."] [[valid]] filename = "bug2901.fasta" origin = "BioPerl" tags = ["dna", "gaps"] [[valid]] filename = "cysprot.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "cysprot1.fasta" origin = "BioPerl" tags = ["protein"] [[valid]] filename = "cysprot1a.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "cysprot1b.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "dna1.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "dna2.fasta" origin = "BioPerl" tags = ["dna", "multi"] [[valid]] filename = "dnaE-bsub-prot.fasta" origin = "BioPerl" tags = ["protein"] [[valid]] filename = "dnaE-bsub.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "ecolitst.fasta" origin = "BioPerl" tags = ["protein"] [[valid]] filename = "forward_primer.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "forward_reverse_primers.fasta" origin = "BioPerl" tags = ["dna", "ambiguity"] [[valid]] filename = "multi_1.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "multi_2.fasta" origin = "BioPerl" tags = ["protein", "multi"] [[valid]] filename = "pictogram.fasta" origin = "BioPerl" tags = ["dna", "multi"] [[valid]] filename = "primedseq.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "spaced_fasta.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "spaced_fasta.fasta" origin = "BioPerl" tags = ["dna"] [[valid]] filename = "P02456.fasta" origin = "UniProt" tags = ["protein", "ambiguity"] needletail-0.6.3/tests/specimen/FASTA/lavender.fasta000064400000000000000000000012431046102023000203630ustar 00000000000000>gi|5690369|gb|AF158246.1|AF158246 Cricetulus griseus glucose phosphate isomerase (GPI) gene, partial intron sequence GGCTCTTAAGTCATGTCTAGGCAGGTGTGCACAAGTTTAGGTCTTGTTCCGCCAGCATCTGAGGAGATTG GGTTGGGAACTGGTATGCATGTCACCATCTGAGTTTAGCCCAGATCGGGAGTCCTCTTCATCAGCATTGA GAAAGTAGAGACTGGCACAGGTCATAATGAGGTGGGTCAAGCATGGATATGAGGCCCTGGTTCTGCCATC ACCGAGACGGCAAAGGCTAGCATAGGTATGAGACTTCCTTCCTGCCAGTGCTGAGGAACTGGGAGCCTAC AGAGGTTTGAGGCCTTGGGTCTGCCAGAAGAAAGGCCAGCTGCGGTAACATCTTTGACCGTCCCTCACGT AGTCTGCCTTGCTGGCCAGCATGAAGAGTCACTAGTTCCTGGATCTGCTGTCTGAACTGGGAAGAGTCGG GTTGGGTCCACCCTCCAGGCTGTTACCTGTGGAAGATTGGCTTTCTGGGGACAGGTGTGGCAGGAGGGAG GGGGGTAGGGTGTGCCTGCCCTCCTCCAGTGCCGTTTCCTTCTCTCCTAGTGGGTAGGTGneedletail-0.6.3/tests/specimen/FASTA/loveliesbleeding.fasta000064400000000000000000000006121046102023000220760ustar 00000000000000>gi|2781234|pdb|1JLY|B Chain B, Crystal Structure Of Amaranthus Caudatus Agglutinin XAGLPVIMCLKSNNHQKYLRYQSDNIQQYGLLQFSADKILDPLAQFEVEPSKTYDGLVHIKSRYTNKYLV RWSPNHYWITASANEPDENKSNWACTLFKPLYVEEGNMKKVRLLHVQLGHYTQNYTVGGSFVSYLFAESS QIDTGSKDVFHVIDWKSIFQFPKGYVTFKGNNGKYLGVITINQLPCLQFGYDNLNDPKVAHQMFVTSNGT ICIKSNYMNKFWRLSTDDWILVDGNDPRETNEAAALFRSDVHDFNVISLLNMQKTWFIKRFTSGKPGFIN CMNAATQNVDETAILEIIELGQNN needletail-0.6.3/tests/specimen/FASTA/lupine.fasta000064400000000000000000000016171046102023000200640ustar 00000000000000>gi|5049839|gb|AI730987.1|AI730987 BNLGHi8354 Six-day Cotton fiber Gossypium hirsutum cDNA 5' similar to TUBULIN BETA-1 CHAIN gi|486734|pir|S35142 tubulin beta chain - white lupine gi|402636 (X70184) Beta tubulin 1 [Lupinus albus], mRNA sequence GAAAATTCATTTTCTTTGGACTTTCTCTGAAATCCGAGTCCTAGGAAAGATGCGTGAGATTCTTCATATT CAGGCAGGGCAGTGCGGCAACCAGATCGGTGCCAATTTTTGGGAGGTGGTTTGCGCCGAACACGGCATAA ATTCAACGGGACGCTATCAAGGGGACAATGATTTGCAACTGGAGCGCGTTAACGTTTACTACAATGAAGC GAGTTGCGGGAGGTTCGTTCCACGAGCCGTCCTTATGGACTTGGAGCCTGGCACTATGGATAGTGTTAGA TCCGGGCCGTACGGGCAGATTTTCAGGCCTGACAACTTTGTTTTCGGCCAGTCCGGTGCAGGGAATAACT GGGCCAAGGGTCATTACACGGAAGGGGCCGAGTTGATCGACTCANTGCTAGATGTGGTGAGGAAAGAAGC CGAAAACTGTGACTGCTTGCAAGGATTTCAAGTATGCCATTCATTGGGAAGAGGAACTGGATCGGGCATG GGAACACTTTTGATTTCCAAGATCCGAGAAGAATACCCAGACCGAATGATGCTCACTTTCTCTGTGTTCC CTTCCCCTAAGGTGTCTGACACTGTTGTCGAACCTTACAATGCTACTCTCTCTGTTCACCANCTTGTTGA GAATGCTGATGAATGTATGGTTTTT needletail-0.6.3/tests/specimen/FASTA/multi_1.fasta000064400000000000000000000016171046102023000201420ustar 00000000000000>gi|239758|bbs|68379 glucocorticoid receptor, GR [human, Peptide Partial, 394 aa] MDSKESLTPGREENPSSVLAQERGDVMDFYKTLRGGATVKVSASSPSLAVASQSDSKQRRLLVDFPKGSV >gi|239752|bbs|68871 PML-3=putative zinc finger protein [human, Peptide, 802 aa] MPPPETPSEGRQPSPSPSPTERAPASEEEFQFLRCQQCQAEAKCPKLLPCLHTLCSGCLEASGMQCPICQ >gi|238775|bbs|65126 putative tyrosine kinase receptor=UFO [human, NIH3T3, Peptide, 894 aa] MAWRCPRMGRVPLAWCLALCGWACMAPRGTQAEESPFVGNPGNITGARGLTGTLRCQLQVQGEPPEVHWL >gi|239006|bbs|65162 alpha(1,3)-fucosyltransferase, ELFT [human, Peptide, 400 aa] MGAPWGSPTAAAGGRRGWRRGRGLPWTVCVLAAAGLTCTALITYACWGQLPPLPWASPTPSRPVGVLLWW >gi|237597|bbs|60089 putative adhesion molecule=ADMLX [human, Peptide, 679 aa] MVPGVPGAVLTLCLWLAASSGSWRPAPARLCAAAGRVAVCRERPARSCASRCLSLQITRISAFFQHFQNN >gi|237995|bbs|62046 NK-1 receptor [human, lung, Peptide, 407 aa] MDNVLPVDSDLSPNISTNTSEPNQFVQPAWEIVLWAAAYTVIVVTSVVGNVVVMWIILAHKRMRTVTNYF needletail-0.6.3/tests/specimen/FASTA/multi_2.fasta000064400000000000000000000016171046102023000201430ustar 00000000000000>gi|239758|bbs|68379 glucocorticoid receptor, GR [human, Peptide Partial, 394 aa] MDSKESLTPGREENPSSVLAQERGDVMDFYKTLRGGATVKVSASSPSLAVASQSDSKQRRLLVDFPKGSV >gi|239752|bbs|68871 PML-3=putative zinc finger protein [human, Peptide, 802 aa] MPPPETPSEGRQPSPSPSPTERAPASEEEFQFLRCQQCQAEAKCPKLLPCLHTLCSGCLEASGMQCPICQ >gi|238775|bbs|65126 putative tyrosine kinase receptor=UFO [human, NIH3T3, Peptide, 894 aa] MAWRCPRMGRVPLAWCLALCGWACMAPRGTQAEESPFVGNPGNITGARGLTGTLRCQLQVQGEPPEVHWL >gi|239006|bbs|65162 alpha(1,3)-fucosyltransferase, ELFT [human, Peptide, 400 aa] MGAPWGSPTAAAGGRRGWRRGRGLPWTVCVLAAAGLTCTALITYACWGQLPPLPWASPTPSRPVGVLLWW >gi|237597|bbs|60089 putative adhesion molecule=ADMLX [human, Peptide, 679 aa] MVPGVPGAVLTLCLWLAASSGSWRPAPARLCAAAGRVAVCRERPARSCASRCLSLQITRISAFFQHFQNN >gi|237995|bbs|62046 NK-1 receptor [human, lung, Peptide, 407 aa] MDNVLPVDSDLSPNISTNTSEPNQFVQPAWEIVLWAAAYTVIVVTSVVGNVVVMWIILAHKRMRTVTNYF needletail-0.6.3/tests/specimen/FASTA/phlox.fasta000064400000000000000000000014301046102023000177130ustar 00000000000000>gi|5052071|gb|AF067555.1|AF067555 Phlox stansburyi internal transcribed spacer 1, 5.8S ribosomal RNA gene, and internal transcribed spacer 2, complete sequence TCGAAACCTGCCTAGCAGAACGACCCGCGAACTTGTATTCAAAACTTGGGTTGTGCGTGCTTCTGCTTCG GCCGTTGCTCGTGTAACCCTCGCTGGTGGTGCATTCATGGCCTCGGCAATGCGTGCGCTTCCCGGCACTT AACTAACCCCGGCACGGTATGTGCCAAGGAATTGTAACAAAGAGAGCTTGTCCGGAAGCCCCGTTCGCGG GTGCCGAAGGGCATTGCCATCTTACACAAAACTAAACGACTCTCGGCAACGGATATCTCGGCTCTCGCAT CGATGAAGAACGTAGCGAAATGCGATACTTGGTGTGAATTGCAGAATCCCGTGAACCATCGAGTTTTTGA ACGCAAGTTGCGCCCGAAGCCATTAGGCCGAGGGCACGTCTGCCTGGGCGTCTCACATCGCGTCGCCCCC AACCCATTTCCTTCGGGATTCAACGGTTTGGGAGCGGAAATTGGTCTCCCGTGCACTTCGGTGTGCGGTT GGCCTAAATAAGAGTGACGTGGACTAGCGACACAACAATTGGTGGTTGTCAAAACCTTATCCTTACTGTT GTGCGTCTTTGCTCCTCGTCTACTCCATTGACCCTGTTGCATCGCGAAAGTGATGCCACGACCneedletail-0.6.3/tests/specimen/FASTA/pictogram.fasta000064400000000000000000000003401046102023000205450ustar 00000000000000>seq1 AGCGTCACA >seq2 ATCGTACTC >seq3 GTGTAATTG >seq3 GTGTAATTG >seq3 GTGTAATTG >seq3 GTGTAATTG >seq3 GTGTAATTG >seq3 GTGTAATTG >seq4 CTCGTACTG >seq4 CTCGTACTG >seq4 CTCGTACTG >seq4 CTCGTACTG >seq4 CTCGTACTG >seq4 CTCGTACTG needletail-0.6.3/tests/specimen/FASTA/primedseq.fasta000064400000000000000000000003451046102023000205560ustar 00000000000000>Test1 AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC TTCTGAACTGGTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAA TATAGGCATAGCGCACAGACAGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACC AAAAAAAA needletail-0.6.3/tests/specimen/FASTA/rose.fasta000064400000000000000000000012621046102023000175340ustar 00000000000000>gi|4959044|gb|AAD34209.1|AF069992_1 LIM domain interacting RING finger protein MENSDSNDKGSDQSAAQRRSQMDRLDREEAFYQFVNNLSEEDYRLMRDNNLLGTPGESTEEELLRRLQQI KEGPPPQSPDENRAGESSDDVTNSDSIIDWLNSVRQTGNTTRSRQRGNQSWRAVSRTNPNSGDFRFSLEI NVNRNNGSQTSENESEPSTRRLSVENMESSSQRQMENSASESASARPSRAERNSTEAVTEVPTTRAQRRA RSRSPEHRRTRARAERSMSPLQPTSEIPRRAPTLEQSSENEPEGSSRTRHHVTLRQQISGPELLGRGLFA ASGSRNPSQGTSSSDTGSNSESSGSGQRPPTIVLDLQVRRVRPGEYRQRDSIASRTRSRSQAPNNTVTYE SERGGFRRTFSRSERAGVRTYVSTIRIPIRRILNTGLSETTSVAIQTMLRQIMTGFGELSYFMYSDSDSE PSASVSSRNVERVESRNGRGSSGGGNSSGSSSSSSPSPSSSGESSESSSKMFEGSSEGGSSGPSRKDGRH RAPVTFDESGSLPFFSLAQFFLLNEDDEDQPRGLTKEQIDNLAMRSFGENDALKTCSVCITEYTEGDKLR KLPCSHEFHVHCIDRWLSENSTCPICRRAVLSSGNRESVV needletail-0.6.3/tests/specimen/FASTA/rosemary.fasta000064400000000000000000000010201046102023000204150ustar 00000000000000>gi|671626|emb|CAA85685.1| rubisco large subunit MSPQTETKASVGFKAGVKEYKLTYYTPEYETKDTDILAAFRVTPQPGVPPEEAGAAVAAESSTGTWTTVW TDGLTSLDRYKGRCYHIEPVPGEKDQCICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRI PVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQP FMRWRDRFLFCAEAIYKAQAETGEIKGHYLNATAGTCEEMIKRAIFARELGVPIVMHDYLTGGFTANTSL AHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVGKLEGERDITLGFVDLLR DDFIEKDRSRGIYFTQDWVSLPGVIPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVAN RVAVEACVKARNEGRDLAAEGNAIIREACKWSPELAAACEVWKEIKFEFPAMDneedletail-0.6.3/tests/specimen/FASTA/spaced_fasta.fasta000064400000000000000000000317531046102023000212110ustar 00000000000000>CEESC12R gcacgagtccatctccatatgccaccacaacantggtcctgtcgaaccaa caaccagcttggctcaatgacaaaatgcttcgcgcgccanaatgccaaca aatcccgtgccaccagagccaccggcgcgatatgcagatcataccgctgg aagacgatctcgatcgagccgtgcatccgatgggagaggaactctgaatg gcggactccatcaccggactagcggaagtcaacggtcggatagtccacct cacacagatgtgagctatgttcagcttcactcatccgatggaactggtag tagtaaggaaagaantngggagcggagaacaccaccgaataaa >CEESC13F cttgcttgaaaaatttatataaatatttaagagaagaaaaataaataatc gcatctaatgacgtctgtccttgtatccctggtttccattgactggtgca ctttcctgtctttgaggacatggacaatattcggcatcagttcctggctc tccctcctctcctggtgctccagcagaaccgttctctccattatctccct tgtctccacgtggtccacgctctcctggtgctcctggaataccttgagct ccctcgtgccgaattcctgcagcccgggggatccactagttctagagcgg ccgccaccgcggtgggagctccagcttttgttncctttagtgagggttaa tttcgagcttggcgtaatcatggtcatagctgtttcctg >CEESC13R gcacgagggagctcaaggtattccaggagcaccaggagagcgtggaccac gtggagacaagggagataatggagagaacggttctgctggagcaccagga gaggagggagagccaggaactgatgccgaatattgtccatgtcctcaaag acaggaaagtgcaccagtcaatggaaaccagggatacaagaacagacgtc attagatgcgattatttatttttcttctcttaaatatttatataaatttt tcaagcaag >CEESC14F aaaaaatgcgaagntccaacagttccatgctatcgttatctggatatttc aaatggattattccttggaggccgtcctggaacttcgaagcaaatcgaga aggccttctctggatgtatttctgatttgtcagtggataaagaagatgtc gattttncaacgatcaaagaaatgcacaaagttggacaagttcatgaagg atgcaagcatcgtaaagatttttnctcaacttcggatggacaatgctcgg ctacctcgaagtgtgtcaatcgttggggaggcagaatttgtagctgtccg caatcggttcattcgactggtgaatgtgttggagcacttggaactcaaga tttacgtgggcattctctatttgaagaggaatcatttgtttttgtaccag ccaagccaagtatctgtaccgtttgaagtttcatttgaattccggacatc tcgagctgatatgcaagt >CEESC14R gcacgagtttttttttttcactgaaatcgatcttccatcaaccaaaacat tccgaatgcatccttcaaaacgtgatggatgtccagttccaggtgcaatt ccaaagtataagctctctagattcatatcagaaatggaagctttagcttc tgcactgtagattccatttatactagttgcaactgaatctgcttcaaact tgatgacaacattcatccaatgctttgatgttacttcaggagctggcaac tcaacttcagaatctccaatgttatatttcaaagttccattcatcaactt ccaagttgtaatgaacacttctttgg >CEESC15F cnctttgtaataaataatttattatgccncgaaaataattnccnccaaaa tcaatctttcagcgggtgggtgtaatcattgggaacngggaagtcactag gaaataaggaaatagngaaatacaataaataaaataataataataatagg cgactatgattagttagaaaacacagctctgggaattgtttggaagtgtt gagagaaattnttgattttttacaaatggggaatatgattgaccgttgga ataagtnaaaatattantaaaaatagcgctgantgaaaacttaataagtg acagtgaaaaggatttgaaaagntaattaanccaactacg >CEESC15R gcacgagggcggacaacctcaaggcgctacaccgggacaacccgatcaga actttgactacatgttcaagctcctgataatcggaaattcatcagttgga aaaacatcattcctcttccgttactgtgatgattcattcacttctgcctt cgtctctactgtcggaatcgatttcaaagtgaaaactgtgttccgtggag acaaacgagtcaaacttcaaatctgggataccgccggacaggagaggtac cgtaccatcaccaccgcctactatcgtggagcaatgggatttcattctga tgtatgacatcacttaatgaagggtcttttaatagtgttc >CEESC15RB ggcggacaacctcaaggcgctacaccgggacaacccgatcagaactttga ctacatgttcaagctcctgataatcggaaattcatcagttggaaaaacat cattcctcttccgttactgtgatgattcattcacttctgccttcgtctct actgtcggaatcgatttcaaagtgaaaactgtgttccgtggagacaaacg agtcaaacttcaaatctggggataccgccggacaggagaggtaccgtacc atcaccaccggcttactattcgtggagcaatggggattcatttctgatgt attgacatcactaattgaaggagtctttttaatagtgttccagggttggt gcactcaaatcaagncatactca >CEESC16F cccattttacaaatttatccagaggaatggattttcaattaaaatcttga aaaaaactaaaaagtagagaaaattggaaactttggtgggtttaaacgtt aaaagagattaaatttaaaaaaaaagggagatcgantcgaataatttggg tggatgggatcattgtacaatataaatagaaaaaaaggaagagttcaatt gggatagaaaaaaaaagtgaatttttttttttgataaggtagntagtgtg ggtggtggcggga >CEESC17F tttcctgaaaccgtcagtcttacttctcgacgaaccgaccaatcatttgg atttggaagcttgtgtgtggcttgaggaggaactcgctcagtataaaaga acctngttggtggtttctcactctcaagatttcatgaacggagtttgcac caacatcattcatttgttccaaaagcaattggnttactatggaggaaact acgaccagtttgtgaagacacgtcttgaattgctcgaaaatcaacaaaaa cgntacaactgggaacagtctcaactncaacacatgaaagattacgtcgc gaggttcggtcacggttctgccaaactcgctcgtcaagctcaatncaaag tgaaaa >CEESC17RB gaaaattcacacaaaacactacacatttagtgatgtgacaacaacaaagg agggtaattggaaaaaaagggtagaaacaggaaccggaccaacaattgga ggaaaaccgacaaaaattgggtcaaagagagtaaaagatgaatgaaaaca agagaaaatataatcaaaatcacaggaaaatgnaattgaaatatcctana ttgaanatggggggnaaggtgaataatgngagaaaaatctcgggaaatca gttcgattctaatattagaattggcagattttcgatgttttcggggggaa atagg >CEESC18F aagatcaatgatatggaatggtggaatcgattccttgattccgatcctcc aatcaatactaaggaagtgaagccagagaactcgaaattgagcgacttgg atggagagacacgtgccatggtcgaaaagatgatgcatgaactgttgcag catatcatgcttttccttctcatcagacgttgcggcacgagctcgtgcna aattcctgcagcccgggggatccactagttctagagcggccgccaccgcg gtggagctccagcttttgttccctttagtgagggttaatttcgagcttgg cgtaatcatgggtcatagctgtttcctgtgtgaaattgttatccgctcac aattccacacaacatacgagccggaagcataaagtgtaaagcctgggggt gcctaatgaagtgagctaactcacattaattgcggttgcg >CEESC18R ctcgtgccnaacgtctgatgagaagaaaaagcatgatatgctgcaacagt tcatgcatcatcttttcgaccatggcacgtgtctctccatccaagtcgct caatttcgagttctctggcttcacttccttagtattgattggaggatcgg aatcaaggaatcgattccaccattccatatcattgatcttctcgaggggg ggcccggtacccaattcgccctatagtgagtcgtattacaattcactggc cgtcgttttacaacgtcgtgactgggaaaaccctggggttacccaacttt aatcgccttgcagcacatccccctttcg >CEESC19F gctctcgactccatcattccaccacaacgcccaactgaccgaccactccg tctcccactccaggatgtgtacaagatcggaggaatcggaactgttccag tcggacgngttnagaccggaatcatcaagccaggaatggtcgttaccttc gntccacaaaacgtcaccactgaagtcaagtccgttgagatgcatcacga ntctnttccagaggccgtcccaggagacaacgttggattcaacgtcaaga acgtctccgtcaaggatattcgtcgtggatccgtctgctccgactccaag caagacccantcaaggaggcttcgnaccttccacgnccaggtcatcatca tgaaccatccagggcagatctccaacggantacactccantt >CEESC19R tggatccccngggctgcaggnaaaaatcaacaagataaactcaacaatga agatttacttcttctttggtgcagccttttgggcggacttggtgaccttt ccagaggatccatcagacttctcaacggacttgataactccgacagcgac ggtttgtctcatgtcacgaacggcgaaacgtccgagtngagcgtagtcgg tgaaggattcaacacaaagtggcttggttgggatgagctcgacgattcca gcatctncagacttgnggaactttgggaagtcctcaaccttgttaccggt acgacggtcaaccttctacttaagctcgttgaacttt >CEESC20F aacaacaaaattgattttaattgaaggagaggtagagaatgaaaacttgt gaattgaaaagaatagaaacaaaaaaattaaacagttatttagggcttat ggcgaggggtaacgaatgagaaaagccctttaactgtgagataaagtaaa aagaagaatgaaaaatagaaacaaaaaatatttaacagttatttagggct gaggctaaagaatgaaaatccattaactgtgagagaaattgaatggaaga atagaaaaaaaacaagttcaacagttattggttggcccaaaatcaacctc gatgagcgcttttcggatggcttctgtgcgcacttcgagaaccttctcgt tttcgacgttttcgagagcctctttctacg >CEESC21F gaagttgaggccaacgttccaaatgttatcaatgagcagctgagccggag tattccgaagacatgcagtttgatcagtgatctttgtctgattgcagccg acaagatcggctagtgctgttgatttttgttttgctcgtttcggagaatc cattgaccacttgttgtcgagggatcctgattggagaattccgttttgga ataatcccttcgacgccggtgcaattaagtgagctacaatcgaagctgct ccagccgattctccaaccaacgatatcctcgccggatttcctccaaacga gaaaatatgatcccttatccaataaagtgcgagttgttgatcaagcattc ccatatttccaggnacatcttcatgatctagg >CEESC21R tcgtnccgaattcggcagagntncntatgtgaatatttgggctccggcgg atgcttacaatcttactgtacttgtatggctgtttggtggtggcttctgg tatggntccccatnactgttactttacgncggaaaagaactagcaacacg tggaaatgtgatagtagtgaacatcaactatcgagttggaccatttggat acctgtttctagatcatgaagatgttcctggaaatatgggaatgcttgat caacaactcgcactttattggataagggatcatattt >CEESC22F aatcacaatgattttatagtcgaaaagaaataaaaaaacgcattatgctg agggcttcgacatacaaagtggaaagggttgggggaaatacatggaaatt nccttttttttttcggaaaaacaaatttttgttagtatttacaattacat tttgttaccagtcagacaagttttttgagggaaaaaaatccaataaaaat gagcatttttcagaaggacgtataatgtacacgaaggtggtngtgtnaaa aggagacaacaaaagggaaaaattgcgggttaaaaatggccgggaaaacc >CEESC23F tttttttgttagagtattttatatatttattattattacagcttacagaa ctttgatttgttttacagaaaaaaggtgcaaccgnttagacaaattcaat ggattatcattatttgaaactttttgcagttccttattttcaaaaaaatc ttggtttttggtttgatcagggtgagaaaggatttcgggggtcgaaagct agaaaattatcaattttttgtgattttcgattgtg >CEESC24F gtcttattaaaagctttattatgaatgtggctcaaataatgagcatgatt cagagaaaaaatggtttaaaatgtcaatttngtaatgagaaaatgggggt catcggcagtaatagggtacaacaacaaaagtgattgcattaaacctcaa cttcaaaccaaagttacacagngnacctagttatacatgcctagattact accggantagtattgancaaatacaagagaagttaccaatgaagatttgg gtgagantgggaagcataatgcagtcggctagagaagttgg >CEESC25F taaaccaatatgatttattattaaaattttaaaagaacaaaaacatgctt tagaattccaaaaatgattttaaacaagtgaatgaaagtatcacaaatac gaaaagagaacccgaagaagagaaaagaagaaattataaaaaaaatattt tagagctccgacttttgaaggntcgaataccgtttatcagatggcttaag ctctttgaacactgatggaggtggtgttgtgtcaattggacgagtagatg gagcttgagcttcatgatcatcagtgattccacgtgcagcttttgccttg gcgagctcgatcattcgttggatcaaggttctcgtggaagtccttgtgaa gctttccagagtgaagatccataacaaactctctaagtttacctgggata ttca >CEESC26F ctactcggcgaccagctccaccaagggaaacctcttcttctacctcaacg cgttgatcatctccatcgccccgctctacctnttctacggagttcaccag atggagatccaagactcgcttgtcgtgtggggactctntgccgtcggcac tgcctacctcctgtccctggcctgcaaaaaccagaagtgccttctcaagc atcaaatcgtgatgaagcgcggntcagctgtggaacgcgagatcagcgga caatatgctgctgacaagaaaatgactgttaaggagaaggaggagcgcgc gcttttccgcaaaaacgaggtcgncgacancgaatncacctacttgtcgg tcttctacacaaantcgctctacttgaccat >CEESC27F tcgaaagtttctccagaatttcgatcaattcacagtcgattagactattc actgaagactatgtcattctctcaggattacggagcaatcagtgaagaag gaccaatagaagtaggatcaggaattttgaaggtggagtcaattgaatat atttttgaatacgatgagaacatggntcaagtgaaaatcaaatgtttgtt ggccccggaacttgtgagattctcgaatgataagtcaataatcagaagat attttcattattacctggccgcttcacaacgaattgttcagcatgtcaaa ctcagggaaagtgacagtccatttcgaaaccttcaaagcctaaaanttcc atccatttcttgggactctaaacggagctagaggatatcctcaatttcat caattt >CEESC28F gttgaaaaacatttcattgaaagatcgatttttggtaaagcagatcagtc aaatttgaatgcagtgaaatgatgatctgtggggctggagagagcgattt agtggcaacaattgaaacgnggtaacagggtgaaactttggtttgtgtca aaaaattaattagttaaagcaaaaaaatgtggaaatgtcgggggaacaat aaacatgttaacangantaaaaaaccgtggatttatggaatggctcttct aacaatgttgttgcggaagaattcttgcattctgtgaaagtttccatcaa cattgccaactatggctcgaatattcgcctgcactgggataataattgat tcc >CEESC29F caagaagacaatttgttttgattggaaatggacgaatgatgaaaggaaat aaacatcttttaaaactctacaagtatgggttttcttgaatatttctgga actaatgaatacatatttncagacaccttcaatcggaaaaagtcatcttc ggaccgtcaattctcgaaaccttcaacgatcttgaggaagctgctctacc aagatcggataaattttgatttttggttgagcttaggtttttagatgata gtattcagtttctaacggatattcacttcatgtaactattattgatntca tattttnatgttt >CEESC30F agaaaatcaacaacaatttcatttgaatgaggaagagagtaacataacca acaatgatgaataaaaaacaaagaaatgaacaatttttggggaggggcgc ggggaaacgaacaataatggaaatagaagaaaagagcaaagcctacgtgc agaatagagtgaaagcgggaaatatttctcttctgcgtctctttctgttt gtgtgtgatttagaattccatactatccgtctttcggccttcgaccacaa ctgaagtgataacatgtccgtcttcggtttccttggattcgagctcacgg cgaatttcaggcgagatgagatagtgtccatggaatctgatcagctcata aatagctgccttctgctcggcattcaaatccgttcttgtatcgctggcac ag >CEESC32F gacggggaatggggagcaaaacaaagaacaatttgatatactataaacca ggggactgggaaattgaaagcagagaaagttgggatcacagattatttta tcagtttaatggtacttgcaaacagatggcactgtgcatccgtgcttctt gatgatttcttgagcagcataagatccacaggtgactgaagcttcgactc cctttcctttctctcgtgccgaattcctgcagcccgggggatccactagt tctagagcggccgccaccgcggtggagctccagcttttgttccctttagt gagggttaatttcgagcttggcgtaatcatggtcatagctgtttcctgtg tgaaattgttatccgctcacaattncacacaacatacgagccggaagcat aaagtgtaaagcctgggggtgcctaatgagtgag >CEESC33F aataaataaaattattttattaaagtattctcaaagtcaaaatggcaaat aaagcttganccaaaattttgttcactattattattacaacttccttgct aatttaatgtctccgccggttcttgaatagaactgatttggagcattata tttttnagttccattggaagatgttgagaagtaggcagtgacatctggaa tgacttgaggagtttgagaagcttttggcattgatacacccattcgacgg ccacggtattcacagcttttnccgaaatatggacgttcacagcggcaggc aaagttatagatagctggatttgttttcggtcgtggtaaa >CEESC33R tcggtctaccacaacaagactaccaataactactggtagtacacaaactg gtgaaccgtttcggactatggcaatcaactgaaatggggtgaagtttggt aggaaaacgaaaaaaagaagagaaagaagaagattgcactgccaacataa gatggtcattgtgtggtaccatcaactactgctagtacttctgatattta taggagctgccaaaggagctcagtacataggttcgggagcctcccaaccc aaccgaacggatgttgtgtggatggttccctcttggacatgtaaaaatga ntattcaattgatgtagaaaagtatgggattctgcaaaattgaggtncag ca >CEESC34F ccgtagttntttttttttttttttanttttatgattttattttaacgtga ataaacatcacaaaagtgagcttactcaaggggtggggtntggggcggct aaaccaaccactaacaagtaacaaaaagaagggtgacagtaagananaaa aacaggngatnggtatgcttagcaactnggggaacgtgctaagagcactt ggcaatgaacttattgcttctgagcggaaacgngaaccgatgcagcttcg tcgaccttcgagcggaacaattcactatcttgaagcatcatgatcaactc ggaattt >CEESC35R ggagacaagggacgtgagcgtgacaacatcaaggaggatcagaccctcta ctacaccgtccagctcgtcgatctgttccgcgctgtgccaggagagaagt ggaccaccgatgagggaatcgttattgagcagacacacaagattgatgag gataagtgcaagaagtcgaagagtggagacaccattcaccaacagtacgt gcttcatcttnaggacggaactttcgtcgattcgtctttttntcgcaacg ntccattcatcttcaagtttgaataattaatgaagtcattcaagggaatn ggacattncccattgactggaattgttgcga >CEESC36F aagattttaataaaactttattgaaatttgctcaatatcagangtaaata aatcagtatcaggataaatngtgaacagttatatttgcttctgtaaacag ttgggatttgaattcagatgtaaatttacataactnctcgttgctgaact tnatactccaaaatccatgtatccnctttatgactgangacaatanccgn gaagttgtttatatgaatggncagttg >CEESC37F agtttgaatgtttttatttttttactttaaaaaaaaatttaatttcaaaa ataaaaaaaaacagtttgtggcaaggaaaagggggaaaaattttntgagt gggcgtggggaacaacttgagttttttgaaagagtcattttggcgggaaa agcggaaattnttgcgaaatatctacccgttactcgcgtggctttttgta gnctaaaactttagtagaggaggagaaagaaaaanctggggaaaaaaatt tgggtcacagnaaaaaaatgcaattgattagcaancgcaagaaggtgggt agagcgtgtgaaa >CEESC39F agaattttagtgttttattgaattgttgaatacaaatcaataaaaaaata acatatgancggttattatgactttctttcatatatatatcccatatatg ggtttaccaaaatgtgcacgaaatgaatacaaataaattatttaatcagt gtccatcttcgcctcgaaacggcttcccaacccggtttcacttccagcga ctcctctattcacactatccagaacagagttccagtcgacgccgaatcga tcggttctttcttggattcgaagcacaacttggagagcatcagtggcgac agtcttcttctgttgagcacacagctcgtcggcctgctccaaaatgttgt caatcagcttcccagcggccactgg >CEESC40R cagagttacaaataaaagcgggcaacaatgtcagaaaaatcattgcaatc gaaaatnctttctactgtatttttncttgcaactctaattgcatttnctt ctgccgatggatatacctgtnccggaaatacgctgataaatccatttntn aatctttcggagccctactactatccagggncatggcgagaaaacatgga accagctgantatgctccagntcaaaagtgtaactggaagatca >CEESC41F aagaagaggatatatttatccaaactgcaacaacaaaaaacacaacaata taacttgaaaaataaaatacgctcataaaaaaacaattttaaaaattaaa aattattccttgtgctcggncaattgaaatcctgccttcgtcgagttcac tgatccntttgctttctggcgagggccccaattcttccctttattgcatt ggnaccgtacaaggntctctttcttggnctgttcgatggctccngggtga agagtgaagttgactgtgttggtgatgggttntcccagaatgtgatatcc ngctgattctttggccagacg needletail-0.6.3/tests/specimen/FASTA/sweetpea.fasta000064400000000000000000000006251046102023000204030ustar 00000000000000>gi|3176602|gb|U78617.1|LOU78617 Lathyrus odoratus phytochrome A (PHYA) gene, partial cds CAGGCTGCGCGGTTTCTATTTATGAAGAACAAGGTCCGTATGATAGTTGATTGTCATGCAAAACATGTGA AGGTTCTTCAAGACGAAAAACTCCCATTTGATTTGACTCTGTGCGGTTCGACCTTAAGAGCTCCACATAG TTGCCATTTGCAGTACATGGCTAACATGGATTCAATTGCTTCATTGGTTATGGCAGTGGTCGTCAATGAC AGCGATGAAGATGGAGATAGCCGTGACGCAGTTCTACCACAAAAGAAAAAGAGACTTTGGGGTTTGGTAG TTTGTCATAACACTACTCCGAGGTTTGTT needletail-0.6.3/tests/specimen/FASTA/test.fasta000064400000000000000000000014441046102023000175450ustar 00000000000000>roa1_drome Rea guano receptor type III >> 0.1 MVNSNQNQNGNSNGHDDDFPQDSITEPEHMRKLFIGGLDYRTTDENLKAHEKWGNIVDVV VMKDPRTKRSRGFGFITYSHSSMIDEAQKSRPHKIDGRVEPKRAVPRQDIDSPNAGATVK KLFVGALKDDHDEQSIRDYFQHFGNIVDNIVIDKETGKKRGFAFVEFDDYDPVDKVVLQK QHQLNGKMVDVKKALPKNDQQGGGGGRGGPGGRAGGNRGNMGGGNYGNQNGGGNWNNGGN NWGNNRGNDNWGNNSFGGGGGGGGGYGGGNNSWGNNNPWDNGNGGGNFGGGGNNWNGGND FGGYQQNYGGGPQRGGGNFNNNRMQPYQGGGGFKAGGGNQGNYGNNQGFNNGGNNRRY >roa2_drome Rea guano ligand MVNSNQNQNGNSNGHDDDFPQDSITEPEHMRKLFIGGLDYRTTDENLKAHEKWGNIVDVV VMKDPTSTSTSTSTSTSTSTSTMIDEAQKSRPHKIDGRVEPKRAVPRQDIDSPNAGATVK KLFVGALKDDHDEQSIRDYFQHLLLLLLLDLLLLDLLLLDLLLFVEFDDYDPVDKVVLQK QHQLNGKMVDVKKALPKNDQQGGGGGRGGPGGRAGGNRGNMGGGNYGNQNGGGNWNNGGN NWGNNRGNDNWGNNSFGGGGGGGGGYGGGNNSWGNNNPWDNGNGGGNFGGGGNNWNGGND FGGYQQNYGGGPQRGGGNFNNNRMQPYQGGGGFKAGGGNQGNYGNNQGFNNGGNNRRY needletail-0.6.3/tests/specimen/FASTA/testaln.fasta000064400000000000000000000110511046102023000202330ustar 00000000000000>AK1H_ECOLI/114-431 DESCRIPTION HERE CPDSINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIVAIA >AKH_HAEIN 114-431 -----------------VEDAVKATIDCRGEKLSIAMMKAWFEARGY-S--VHIVDPVKQ LLAKG-GYLESSVEIEESTKRVDAANIA--K-DKVVLMAGF---TAGNEKGELVLLGRNG SDYSAAC-----------------LAACLGASVCEIWTDVDGVYTCDP--RLVPDARLLP TLSYREAMELSYFGAKVIHPRTIGPLLPQNIPCVIKNTGNPSAPGSI-ID--GNVKSESL Q----VKGITNLDNLAMFNVSGPGMQGM---VGMASRVFSAMSGAGISVILITQSSSEYS ---ISFCVPVKSAEVAKTVLETEFA-----NELNEHQLEPIEVIKDLSIISV-VGDGMKQ AKGIAARF------FSALAQANISIVAIA >AKH1_MAIZE/117-440 -----------------ATESFSDFVVGHGELWSAQMLSYAIQKSGT-P--CSWMDTREV LVVNPSGANQVDPDYLESEKRLEKWFSRC-P-AETIIATGF---IASTPENIPTTLKRDG SDFSAAI-----------------IGSLVKARQVTIWTDVDGVFSADP--RKVSEAVILS TLSYQEAWEMSYFGANVLHPRTIIPVMKYNIPIVIRNIFNTSAPGTM-IC--QQPANENG DLEACVKAFATIDKLALVNVEGTGMAGV---PGTANAIFGAVKDVGANVIMISQASSEHS ---VCFAVPEKEVALVSAALHARFR-----EALAAGRLSKVEVIHNCSILAT-VGLRMAS TPGVSATL------FDALAKANINVRAIA >AK2H_ECOLI/112-431 -----------------INDAVYAEVVGHGEVWSARLMSAVLNQQG-----LPAAWLDAR EFLRAERAAQPQVDEGLSYPLLQQLLVQH-P-GKRLVVTGF---ISRNNAGETVLLGRNG SDYSATQ-----------------IGALAGVSRVTIWSDVAGVYSADP--RKVKDACLLP LLRLDEASELARLAAPVLHARTLQPVSGSEIDLQLRCSYTPDQGSTRIERVLASGTGARI VTSHDDVCLI-EFQVPASQDFKLAHKEI--DQILKRAQVRPLAVGVHNDRQLLQFCYTSE VADSALKILDEAG---------LPGELRLRQGLALVAMVGAGVTRNPLHCHRFWQQLKGQ PVEFTWQSDDGISLVAVL >AK1_BACSU/66-374 -----------------ISPREQDLLLSCGETISSVVFTSMLLDNGVKA--AALTGAQAG FLTNDQHTNAKIIEMKPER--LFSVLAN----HDAVVVAGF---QGATEKGDTTTIGRGG SDTSAAA-----------------LGAAVDAEYIDIFTDVEGVMTADP--RVVENAKPLP VVTYTEICNLAYQGAKVISPRAVEIAMQAKVPIRVRSTYS-NDKGTLVTSHHSSKVGSDV FERLITGIAH-VKDVTQFKVPAKIGQYN-----VQTEVFKAMANAGISVDFFNITPSEIV YTVAGNKTETAQR------------ILMDMGYDPMVTRNCAKVSAVGAGIMGVPGVTSKI ------VSALSEKEIPILQSA >AK2_BACST/63-370 -----------------KRE--MDMLLSTGEQVSIALLAMSLHEKGYKA--VSLTGWQAG ITTEEMHGNARIMNIDTT--RIRRCLDE----GAIVIVAGF---QGVTETGEITTLGRGG SDTTAVA-----------------LAAALKAEKCDIYTDVTGVFTTDP--RYVKTARKIK EISYDEMLELANLGAGVLHPRAVEFAKNYEVPLEVRSSME-NERGTMVK--EEVSMEQHL IVRGIAFEDQ-VTRVTVVGIEKYLQSVA--------TIFTALANRGINVDIIIQNA---- ----------------TNSETAS--VSFSIRTEDLPETLQVLQ-------------ALEG ADVHYESGLAKVSI-VGSGMISNPGVAARV------FEVLADQGIEIKMVS >AK2_BACSU/63-373 -----------------KRE--MDMLLATGEQVTISLLSMALQEKGYDA--VSYTGWQAG IRTEAIHGNARITDIDTS--VLADQLEK----GKIVIVAGF---QGMTEDCEITTLGRGG SDTTAVA-----------------LAAALKVDKCDIYTDVPGVFTTDP--RYVKSARKLE GISYDEMLELANLGAGVLHPRAVEFAKNYQVPLEVRSSTE-TEAGTLIE--EESSMEQNL IVRGIAFEDQ-ITRVTIYGLTSGLTTLS--------TIFTTLAKRNINVDIIIQTQ---- ----------------AEDKTG---ISFSVKTEDADQTVAVLEEYK---------DALEF EKIETESKLAKVSI-VGSGMVSNPGVAAEM------FAVLAQKNILIKMVS >AKAB_CORFL/63-379 -----------------ARE--MDMLLTAGERISNALVAMAIESLGAEA--QSFTGSQAG VLTTERHGNARIVDVTPG--RVREALDE----GKICIVAGF--QGVNKETRDVTTLGRGG SDTTAVA-----------------LAAALNADVCEIYSDVDGVYTADP--RIVPNAQKLE KLSFEEMLELAAVGSKILVLRSVEYARAFNVPLRVRSSYS-NDPGTLIAGSMEDIPVEEA VLTGVATDKS-EAKVTVLGISDKPGEAA--------KVFRALADAEINIDMVLQNV---- ----------------SSVEDGTTDITFTCPRADGRRAMEILKKLQ---------VQGNW TNVLYDDQVDKVSL-VGAGMKSHPGVTAEF------MEALRDVNVNIELIS >AKAB_MYCSM/63-379 -----------------PRE--MDMLLTAGERISNALVAMAIESLGAQA--RSFTGSQAG VITTGTHGNAKIIDVTPG--RLRDALDE----GQIVLVAGF--QGVSQDSKDVTTLGRGG SDTTAVA-----------------VAAALDADVCEIYTDVDGIFTADP--RIVPNARHLD TVSFEEMLEMAACGAKVLMLRCVEYARRYNVPIHVRSSYS-DKPGTIVKGSIEDIPMEDA ILTGVAHDRS-EAKVTVVGLPDVPGYAA--------KVFRAVAEADVNIDMVLQNI---- ----------------SKIEDGKTDITFTCARDNGPRAVEKLSALK---------SEIGF SQVLYDDHIGKVSL-IGAGMRSHPGVTATF------CEALAEAGINIDLIS >AK3_ECOLI/106-407 -----------------TSPALTDELVSHGELMSTLLFVEILRERD--V--QAQWFDVRK VMRTNDRFGRAEPDIAALAELAALQLLPR-LNEGLVITQGF---IGSENKGRTTTLGRGG SDYTAAL-----------------LAEALHASRVDIWTDVPGIYTTDP--RVVSAAKRID EIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRA LAL--RRNQT-LLTLHSLNMLHSRGFLA--------EVFGILARHNISVDLITTSEVSVA LTLDTTGSTSTG----------DTLLTQSLLMELSALCRVEVEEGLALVALIG------- ---NDLSKACGVGKEVF >AK_YEAST/134-472 A COMMENT FOR YEAST -----------------VSSRTVDLVMSCGEKLSCLFMTALCNDRGCKAKYVDLSHIVPS DFSASALDNSFYTFLVQALKEKLAPFVSA-KERIVPVFTGF---FGLVPTGLLNGVGRGY TDLCAAL-----------------IAVAVNADELQVWKEVDGIFTADP--RKVPEARLLD SVTPEEASELTYYGSEVIHPFTMEQVIRAKIPIRIKNVQNPLGNGTIIYPDNVAKKGEST PPHPPENLSS----SFYEKRKRGATAITTKN----DIFVINIHSNKKTLSHGFLAQIFTI LDKYKLVVDLISTSEVHVSMALPIPDADS-LKSLRQAEEKLRILGSVDITKKLSIVSLVG KHMKQYIGIAG---TMFTTLAEEGINIEMIS needletail-0.6.3/tests/specimen/FASTA/testaln2.fasta000064400000000000000000000143061046102023000203230ustar 00000000000000>AK1H_ECOLI/114-431 DESCRIPTION HERE CPDSINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIVAIA >AK1H_ECOLI_dup1 DESCRIPTION HERE CPDSINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIVAIA >AK1H_ECOLI_dup2 DESCRIPTION HERE CPDSINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIVAIA >AK1H_ECOLI_dup3_head_gap DESCRIPTION HERE ---SINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIV--- >AK1H_ECOLI_dup4_end_gap DESCRIPTION HERE CPDSINAALICRGEKMSIAIMAGVLEARGH-N--VTVIDPVEKLLAVG-HYLESTVDIAE STRRIAASRIP------A-DHMVLMAGFTAGN-EKGELVVLGRNGSDYSAAVLAACLRAD CCEIWTDVNGVYTCDP-------------RQVPDARLLKSMSYQEAMELSY--FGAKVLH PRTITPIAQFQIPCLIKNTGNPQAPGTL-IG--ASRDEDELP----VKGISNLN------ NMAMFSVSGP-GMKGMVGMAARVFAAMS-------RARISVVLITQSSSEYSISFCVPQS DCVRAERAMLEEFY-----LELKEGLLEPLAVAERLAIISV-VGDGLRTLRGISAKF--- ---FAALARANINIV--- >AKH_HAEIN 114-431 -----------------VEDAVKATIDCRGEKLSIAMMKAWFEARGY-S--VHIVDPVKQ LLAKG-GYLESSVEIEESTKRVDAANIA--K-DKVVLMAGF---TAGNEKGELVLLGRNG SDYSAAC-----------------LAACLGASVCEIWTDVDGVYTCDP--RLVPDARLLP TLSYREAMELSYFGAKVIHPRTIGPLLPQNIPCVIKNTGNPSAPGSI-ID--GNVKSESL Q----VKGITNLDNLAMFNVSGPGMQGM---VGMASRVFSAMSGAGISVILITQSSSEYS ---ISFCVPVKSAEVAKTVLETEFA-----NELNEHQLEPIEVIKDLSIISV-VGDGMKQ AKGIAARF------FSALAQANISIVAIA >AKH1_MAIZE/117-440 -----------------ATESFSDFVVGHGELWSAQMLSYAIQKSGT-P--CSWMDTREV LVVNPSGANQVDPDYLESEKRLEKWFSRC-P-AETIIATGF---IASTPENIPTTLKRDG SDFSAAI-----------------IGSLVKARQVTIWTDVDGVFSADP--RKVSEAVILS TLSYQEAWEMSYFGANVLHPRTIIPVMKYNIPIVIRNIFNTSAPGTM-IC--QQPANENG DLEACVKAFATIDKLALVNVEGTGMAGV---PGTANAIFGAVKDVGANVIMISQASSEHS ---VCFAVPEKEVALVSAALHARFR-----EALAAGRLSKVEVIHNCSILAT-VGLRMAS TPGVSATL------FDALAKANINVRAIA >AK2H_ECOLI/112-431 -----------------INDAVYAEVVGHGEVWSARLMSAVLNQQG-----LPAAWLDAR EFLRAERAAQPQVDEGLSYPLLQQLLVQH-P-GKRLVVTGF---ISRNNAGETVLLGRNG SDYSATQ-----------------IGALAGVSRVTIWSDVAGVYSADP--RKVKDACLLP LLRLDEASELARLAAPVLHARTLQPVSGSEIDLQLRCSYTPDQGSTRIERVLASGTGARI VTSHDDVCLI-EFQVPASQDFKLAHKEI--DQILKRAQVRPLAVGVHNDRQLLQFCYTSE VADSALKILDEAG---------LPGELRLRQGLALVAMVGAGVTRNPLHCHRFWQQLKGQ PVEFTWQSDDGISLVAVL >AK1_BACSU/66-374 -----------------ISPREQDLLLSCGETISSVVFTSMLLDNGVKA--AALTGAQAG FLTNDQHTNAKIIEMKPER--LFSVLAN----HDAVVVAGF---QGATEKGDTTTIGRGG SDTSAAA-----------------LGAAVDAEYIDIFTDVEGVMTADP--RVVENAKPLP VVTYTEICNLAYQGAKVISPRAVEIAMQAKVPIRVRSTYS-NDKGTLVTSHHSSKVGSDV FERLITGIAH-VKDVTQFKVPAKIGQYN-----VQTEVFKAMANAGISVDFFNITPSEIV YTVAGNKTETAQR------------ILMDMGYDPMVTRNCAKVSAVGAGIMGVPGVTSKI ------VSALSEKEIPILQSA >AK2_BACST/63-370 -----------------KRE--MDMLLSTGEQVSIALLAMSLHEKGYKA--VSLTGWQAG ITTEEMHGNARIMNIDTT--RIRRCLDE----GAIVIVAGF---QGVTETGEITTLGRGG SDTTAVA-----------------LAAALKAEKCDIYTDVTGVFTTDP--RYVKTARKIK EISYDEMLELANLGAGVLHPRAVEFAKNYEVPLEVRSSME-NERGTMVK--EEVSMEQHL IVRGIAFEDQ-VTRVTVVGIEKYLQSVA--------TIFTALANRGINVDIIIQNA---- ----------------TNSETAS--VSFSIRTEDLPETLQVLQ-------------ALEG ADVHYESGLAKVSI-VGSGMISNPGVAARV------FEVLADQGIEIKMVS >AK2_BACSU/63-373 -----------------KRE--MDMLLATGEQVTISLLSMALQEKGYDA--VSYTGWQAG IRTEAIHGNARITDIDTS--VLADQLEK----GKIVIVAGF---QGMTEDCEITTLGRGG SDTTAVA-----------------LAAALKVDKCDIYTDVPGVFTTDP--RYVKSARKLE GISYDEMLELANLGAGVLHPRAVEFAKNYQVPLEVRSSTE-TEAGTLIE--EESSMEQNL IVRGIAFEDQ-ITRVTIYGLTSGLTTLS--------TIFTTLAKRNINVDIIIQTQ---- ----------------AEDKTG---ISFSVKTEDADQTVAVLEEYK---------DALEF EKIETESKLAKVSI-VGSGMVSNPGVAAEM------FAVLAQKNILIKMVS >AKAB_CORFL/63-379 -----------------ARE--MDMLLTAGERISNALVAMAIESLGAEA--QSFTGSQAG VLTTERHGNARIVDVTPG--RVREALDE----GKICIVAGF--QGVNKETRDVTTLGRGG SDTTAVA-----------------LAAALNADVCEIYSDVDGVYTADP--RIVPNAQKLE KLSFEEMLELAAVGSKILVLRSVEYARAFNVPLRVRSSYS-NDPGTLIAGSMEDIPVEEA VLTGVATDKS-EAKVTVLGISDKPGEAA--------KVFRALADAEINIDMVLQNV---- ----------------SSVEDGTTDITFTCPRADGRRAMEILKKLQ---------VQGNW TNVLYDDQVDKVSL-VGAGMKSHPGVTAEF------MEALRDVNVNIELIS >AKAB_MYCSM/63-379 -----------------PRE--MDMLLTAGERISNALVAMAIESLGAQA--RSFTGSQAG VITTGTHGNAKIIDVTPG--RLRDALDE----GQIVLVAGF--QGVSQDSKDVTTLGRGG SDTTAVA-----------------VAAALDADVCEIYTDVDGIFTADP--RIVPNARHLD TVSFEEMLEMAACGAKVLMLRCVEYARRYNVPIHVRSSYS-DKPGTIVKGSIEDIPMEDA ILTGVAHDRS-EAKVTVVGLPDVPGYAA--------KVFRAVAEADVNIDMVLQNI---- ----------------SKIEDGKTDITFTCARDNGPRAVEKLSALK---------SEIGF SQVLYDDHIGKVSL-IGAGMRSHPGVTATF------CEALAEAGINIDLIS >AK3_ECOLI/106-407 -----------------TSPALTDELVSHGELMSTLLFVEILRERD--V--QAQWFDVRK VMRTNDRFGRAEPDIAALAELAALQLLPR-LNEGLVITQGF---IGSENKGRTTTLGRGG SDYTAAL-----------------LAEALHASRVDIWTDVPGIYTTDP--RVVSAAKRID EIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRA LAL--RRNQT-LLTLHSLNMLHSRGFLA--------EVFGILARHNISVDLITTSEVSVA LTLDTTGSTSTG----------DTLLTQSLLMELSALCRVEVEEGLALVALIG------- ---NDLSKACGVGKEVF >AK_YEAST/134-472 A COMMENT FOR YEAST -----------------VSSRTVDLVMSCGEKLSCLFMTALCNDRGCKAKYVDLSHIVPS DFSASALDNSFYTFLVQALKEKLAPFVSA-KERIVPVFTGF---FGLVPTGLLNGVGRGY TDLCAAL-----------------IAVAVNADELQVWKEVDGIFTADP--RKVPEARLLD SVTPEEASELTYYGSEVIHPFTMEQVIRAKIPIRIKNVQNPLGNGTIIYPDNVAKKGEST PPHPPENLSS----SFYEKRKRGATAITTKN----DIFVINIHSNKKTLSHGFLAQIFTI LDKYKLVVDLISTSEVHVSMALPIPDADS-LKSLRQAEEKLRILGSVDITKKLSIVSLVG KHMKQYIGIAG---TMFTTLAEEGINIEMIS needletail-0.6.3/tests/specimen/FASTA/wisteria.fasta000064400000000000000000000052551046102023000204210ustar 00000000000000>gi|5817701|gb|AF142731.1|AF142731 Wisteria frutescens maturase-like protein (matK) gene, complete cds; chloroplast gene for chloroplast product GCTCCATTTTTTACACATTTCTATGAACTAATTGGTTCATCCATACCATCGGTAGGGTTTGTAAGACCAC GAGTGATCCAGAAAGGAATGAATGGAAAAAGCAGCATGTCGTATCAATGGCGAATTCTAAAAATATTTCA TTCGTATTGGACCCGGCCTAAATTTTTGTTTGAATTCTTGGCTCGGAACAAAGGAATTCAGTTGGGTTGA ATTAATAAAGGGATAGAGCTTGGCTGCTCCAATTATAGGGAAACAAAAAGCAACGAGCTTTCATTTTTAA TTTGAATGATTACCCCATCTAATTCTATGTTAAAAAGAGATTAGTGCTTGCTGTGGAAAAAGTTTTTCCC ACGAACGGATTATGGATTTTTGTTATGAGTCCTAACTATTAGCTATTTTCCATTATGTTATGGGGTAGCG ATAAATGTGTAGAAGAAAGAGTATATTGATAAAGATATTTTTTTTTCCAAAATCAAAAGAGCGATTGGGC AAAAAAATAAAGGATTTCTAACTAGCTTGTTGTCCTAGAACAATTAGATGGAACAAGCGAGGAGAGATAG TCCATTGATAAGTTTTACTTGTTTTCTAGGTATCTATTCATATTCGTTTTTTATTTGAATTCGAATACTA ATATATAATAGAGTACCCTGTGATGACTGTATCGCACTATGTATCATTTGATAATCCAATGAATCTCTGA TCCTTTGACCAAATAGAATTTCTAAAATGAAGGAATATCAAGTATATTTAGAACGAGATAGATCTCGCCA ACAGGACTTCCTATACCCACTTATTTTTCGGGAGTATATTTATGGACTTGCTTATAGTCATGATTTTAAT AGATCCATTTTTGTGGAAAATGTAGGTTATGACAATAAATCTAGTTTACTAATTGTAAAACGTTTAATTA CTCGAATGTATCAACAGAATCATTTGATCATTTCCGCTAATGATTCTAACAAAAATCCATTTTTGGGGTA TAATAAGAATTTTTATTCTCAAATAATATCAGACGGTTTTGCCGTCGTTGTGGAAATTCCATTTTTCCTA CAATTAAGCTCTTCCTTAGAGGAGGCAGAAATCGTAAAATCTTATCATAATTTGCGATCAATTCATTCCA TTTTTCCCTTTTTGGAGGATAAATTTACATATTTAAATTATGTGTCAGATATACGAATACCCTATCCTAT CCATCTGGAAATCTTAGTTCAAATCCTTCGATACTGGGTGAAAGATGCCTCCTTTTTTCATTTATTACGG TTTTTTCTTTATCATTTTTCTAATAGGAATAGTCTTATTACTCCAAAAAAATCGATTTCTACCTTTTCAA AAAGTAATCCAAGATTATTCTTGTTCCTCTATAATTTTTATGTATGTGAATATGAATCTATCTTCCGTTT TCTACGTAACCAATCCTCTCATTTACGATTAAAATCTTTTAGCGTTTTTTTTGAGCGAATCTTTTTTTAT GCAAAAAGAGAACATCTTGTAAAAGTTTTTCCTAAGGATTTTTCGTCTACCTTAACATTCTTCAAGGATC CTTTCATTCATTATGTTAGATATCAAGGAAAATCCATTCTGGCTTCAAAGAATGCGCCTCTTTTGATGAA TAAATGGAAACACTATTTTATCCATTTATGGCAATGTTTTTTTGATGTTTGGTCTCAACCAGGAACGATC CATATAAACCAATTATCCGAACATTCATTTCACTTTTTAGGCTATTTTTCAAATGTGCGGCTAAATCGTT CAGTGGTACGGAGTCAAATGCTGCAAAATACATTTCTAATCGAAATTGTTATCAAAAAGCTTGATATAAT AGTTCCAATTATTCCTCTAATTAGATCATTGGCTAAAGCGAAATTTTGTAATGTATTAGGGCATCCCCTT AGTAAGTCGGTCTGGGCCGATTCATCCGATTTTGATATTATTGACCGATTTTTGCGAATATGCAGAAATC TTTCTCATTATTACAATGGATCCTCAAAAAAAAAAAATTTGTATCGAATAAAATATATACTTCGGCTTTC TTGTATTAAAACTTTGGCTTGTAAACACAAAAGTACTGTACGCGCTTTTTTGAAAAAATCTGGTTCAGAA GAATTATTGGAAGAATTCTTTACAGAGGAAGAAGAGATTCTTTCTTTGATTTTTCCAAGAACTTCTTCTA CTTTGCAGAGATTACATAGAAATCGGATTTGGTATTTGGATATTCTTTTCAGCAACGATTTGGTCAATCA TGAATGATTGGTTATGTTATGAGACTTTGTAAATGAGTAAATGGAAATTATCCTTAAATGAAGATAAGAA AATTCATTCATTTCTATTAGTATTCTATATCTATAGGATTATGAAATGTTCATGTATGTAATAAGAGTGG AGTTTCAAGATTCCTCAATTGAGTATTTAACTTTCTTATAGTCTTGTTCTGGGAAAGTAACTCAGGTTTA GATGTATACATAGGGAAAGCCGTGTGCAATGAAAAATGCAAGCACGGCTTGGGGAGGGATTTTTTCTTGT TTTATTTTTTAAATTTGATTAAACATGATGA needletail-0.6.3/tests/specimen/FASTQ/error_diff_ids.fastq000064400000000000000000000011401046102023000215770ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_124 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_double_qual.fastq000064400000000000000000000012351046102023000223310ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_double_seq.fastq000064400000000000000000000012351046102023000221570ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_long_qual.fastq000064400000000000000000000011411046102023000220120ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWYY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_no_qual.fastq000064400000000000000000000007421046102023000214750ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGC +SLXA-B3_649_FC8437_R1_1_1_850_123 @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 needletail-0.6.3/tests/specimen/FASTQ/error_qual_del.fastq000064400000000000000000000011401046102023000216160ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_qual_escape.fastq000064400000000000000000000011401046102023000223120ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_qual_null.fastq000064400000000000000000000011421046102023000220260ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_qual_space.fastq000064400000000000000000000011411046102023000221460ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYY WWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_qual_tab.fastq000064400000000000000000000011411046102023000216210ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYY YYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_qual_unit_sep.fastq000064400000000000000000000011401046102023000227000ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_qual_vtab.fastq000064400000000000000000000011401046102023000220060ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYY YYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_short_qual.fastq000064400000000000000000000011371046102023000222170ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYS @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_spaces.fastq000064400000000000000000000011641046102023000213140ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAA TACCTTTGTA GAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYY YYYYYYYYYW YWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGA AAGAGAAATG AGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYY WYYYYWWYYY WYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTT GATCATGATG ATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYY YYYYWYYWYY SYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAA GTTTTTCTCA ACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYY YYYYYYYYYW WWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTT AATGGCATAC ACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYY YWYYYYWYWW UWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_tabs.fastq000064400000000000000000000011651046102023000207700ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAA TACCTTTGTA GAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYY YYYYYYYYYW YWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGA AAGAGAAATG AGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYY WYYYYWWYYY WYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTT GATCATGATG ATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYY YYYYWYYWYY SYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAA GTTTTTCTCA ACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYY YYYYYYYYYW WWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTT AATGGCATAC ACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYY YWYYYYWYWW UWWWQQ needletail-0.6.3/tests/specimen/FASTQ/error_trunc_at_plus.fastq000064400000000000000000000010441046102023000227150ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA needletail-0.6.3/tests/specimen/FASTQ/error_trunc_at_qual.fastq000064400000000000000000000011061046102023000226730ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 needletail-0.6.3/tests/specimen/FASTQ/error_trunc_at_seq.fastq000064400000000000000000000010121046102023000225150ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 needletail-0.6.3/tests/specimen/FASTQ/error_trunc_in_plus.fastq000064400000000000000000000010621046102023000227170ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA 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YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGneedletail-0.6.3/tests/specimen/FASTQ/error_trunc_in_title.fastq000064400000000000000000000010011046102023000230460ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_needletail-0.6.3/tests/specimen/FASTQ/example.fastq000064400000000000000000000003521046102023000202560ustar 00000000000000@EAS54_6_R1_2_1_413_324 CCCTTCTTGTCTTCAGCGTTTCTCC + ;;3;;;;;;;;;;;;7;;;;;;;88 @EAS54_6_R1_2_1_540_792 TTGGCAGGCCAAGGCCGATGGATCA + ;;;;;;;;;;;7;;;;;-;;;3;83 @EAS54_6_R1_2_1_443_348 GTTGCTTCTGGCGTGGGTGGGGGGG + ;;;;;;;;;;;9;7;;.7;393333 needletail-0.6.3/tests/specimen/FASTQ/example_dos.fastq000064400000000000000000000003521046102023000211230ustar 00000000000000@EAS54_6_R1_2_1_413_324 CCCTTCTTGTCTTCAGCGTTTCTCC + ;;3;;;;;;;;;;;;7;;;;;;;88 @EAS54_6_R1_2_1_540_792 TTGGCAGGCCAAGGCCGATGGATCA + ;;;;;;;;;;;7;;;;;-;;;3;83 @EAS54_6_R1_2_1_443_348 GTTGCTTCTGGCGTGGGTGGGGGGG + ;;;;;;;;;;;9;7;;.7;393333 needletail-0.6.3/tests/specimen/FASTQ/illumina_faked.fastq000064400000000000000000000002031046102023000215620ustar 00000000000000@Test PHRED qualities from 40 to 0 inclusive ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTN + hgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@ needletail-0.6.3/tests/specimen/FASTQ/illumina_full_range_as_illumina.fastq000064400000000000000000000006521046102023000252130ustar 00000000000000@FAKE0005 Original version has PHRED scores from 0 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACG + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0006 Original version has PHRED scores from 62 to 0 inclusive (in that order) GCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@ needletail-0.6.3/tests/specimen/FASTQ/illumina_full_range_as_sanger.fastq000064400000000000000000000006521046102023000246600ustar 00000000000000@FAKE0005 Original version has PHRED scores from 0 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACG + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_ @FAKE0006 Original version has PHRED scores from 62 to 0 inclusive (in that order) GCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + _^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"! needletail-0.6.3/tests/specimen/FASTQ/illumina_full_range_as_solexa.fastq000064400000000000000000000006521046102023000246740ustar 00000000000000@FAKE0005 Original version has PHRED scores from 0 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACG + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0006 Original version has PHRED scores from 62 to 0 inclusive (in that order) GCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJHGFECB@>;; needletail-0.6.3/tests/specimen/FASTQ/illumina_full_range_original_illumina.fastq000064400000000000000000000006521046102023000264140ustar 00000000000000@FAKE0005 Original version has PHRED scores from 0 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACG + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0006 Original version has PHRED scores from 62 to 0 inclusive (in that order) GCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@ needletail-0.6.3/tests/specimen/FASTQ/index.toml000064400000000000000000000106621046102023000175740ustar 00000000000000[[invalid]] filename = "error_diff_ids.fastq" origin = "Biopython" [[invalid]] filename = "error_double_qual.fastq" origin = "Biopython" [[invalid]] filename = "error_double_seq.fastq" origin = "Biopython" [[invalid]] filename = "error_long_qual.fastq" origin = "Biopython" [[invalid]] filename = "error_no_qual.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_del.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_escape.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_null.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_space.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_tab.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_unit_sep.fastq" origin = "Biopython" [[invalid]] filename = "error_qual_vtab.fastq" origin = "Biopython" [[invalid]] filename = "error_short_qual.fastq" origin = "Biopython" [[invalid]] filename = "error_spaces.fastq" origin = "Biopython" [[invalid]] filename = "error_tabs.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_at_plus.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_at_qual.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_at_seq.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_in_plus.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_in_qual.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_in_seq.fastq" origin = "Biopython" [[invalid]] filename = "error_trunc_in_title.fastq" origin = "Biopython" [[valid]] filename = "example.fastq" origin = "Biopython" [[valid]] filename = "example_dos.fastq" origin = "Biopython" [[valid]] filename = "illumina_faked.fastq" origin = "Biopython" [[valid]] filename = "illumina_full_range_as_illumina.fastq" origin = "Biopython" [[valid]] filename = "illumina_full_range_as_sanger.fastq" origin = "Biopython" [[valid]] filename = "illumina_full_range_as_solexa.fastq" origin = "Biopython" [[valid]] filename = "illumina_full_range_original_illumina.fastq" origin = "Biopython" [[valid]] filename = "longreads_as_illumina.fastq" origin = "Biopython" [[valid]] filename = "longreads_as_sanger.fastq" origin = "Biopython" [[valid]] filename = "longreads_as_solexa.fastq" origin = "Biopython" [[valid]] filename = "longreads_original_sanger.fastq" origin = "Biopython" tags = ["linewrap"] [[valid]] filename = "misc_dna_as_illumina.fastq" origin = "Biopython" tags = ["dna", "ambiguity"] [[valid]] filename = "misc_dna_as_sanger.fastq" origin = "Biopython" tags = ["dna", "ambiguity"] [[valid]] filename = "misc_dna_as_solexa.fastq" origin = "Biopython" tags = ["dna", "ambiguity"] [[valid]] filename = "misc_dna_original_sanger.fastq" origin = "Biopython" tags = ["dna", "ambiguity"] [[valid]] filename = "misc_rna_as_illumina.fastq" origin = "Biopython" tags = ["rna", "ambiguity"] [[valid]] filename = "misc_rna_as_sanger.fastq" origin = "Biopython" tags = ["rna", "ambiguity"] [[valid]] filename = "misc_rna_as_solexa.fastq" origin = "Biopython" tags = ["rna", "ambiguity"] [[valid]] filename = "misc_rna_original_sanger.fastq" origin = "Biopython" tags = ["rna", "ambiguity"] [[valid]] filename = "sanger_93.fastq" origin = "Biopython" [[valid]] filename = "sanger_faked.fastq" origin = "Biopython" [[valid]] filename = "sanger_full_range_as_illumina.fastq" origin = "Biopython" [[valid]] filename = "sanger_full_range_as_sanger.fastq" origin = "Biopython" [[valid]] filename = "sanger_full_range_as_solexa.fastq" origin = "Biopython" [[valid]] filename = "sanger_full_range_original_sanger.fastq" origin = "Biopython" [[valid]] filename = "solexa_example.fastq" origin = "Biopython" [[valid]] filename = "solexa_faked.fastq" origin = "Biopython" [[valid]] filename = "solexa_full_range_as_illumina.fastq" origin = "Biopython" [[valid]] filename = "solexa_full_range_as_sanger.fastq" origin = "Biopython" [[valid]] filename = "solexa_full_range_as_solexa.fastq" origin = "Biopython" [[valid]] filename = "solexa_full_range_original_solexa.fastq" origin = "Biopython" [[valid]] filename = "tricky.fastq" origin = "Biopython" tags = ["linewrap"] [[valid]] filename = "wrapping_as_illumina.fastq" origin = "Biopython" [[valid]] filename = "wrapping_as_sanger.fastq" origin = "Biopython" [[valid]] filename = "wrapping_as_solexa.fastq" origin = "Biopython" [[valid]] filename = "wrapping_original_sanger.fastq" origin = "Biopython" tags = ["linewrap"] [[valid]] filename = "zero_length.fastq" origin = "Biopython" needletail-0.6.3/tests/specimen/FASTQ/longreads_as_illumina.fastq000064400000000000000000000203041046102023000231550ustar 00000000000000@FSRRS4401BE7HA [length=395] [gc=36.46] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=95] tcagTTAAGATGGGATAATATCCTCAGATTGCGTGATGAACTTTGTTCTGGTGGAGGAGAAGGAAGTGCATTCGACGTATGCCCGTTTGTCGATATTTGtatttaaagtaatccgtcacaaatcagtgacataaatattatttagatttcgggagcaactttatttattccacaagcaggtttaaattttaaatttaaattattgcagaagactttaaattaacctcgttgtcggagtcatttgttcggttattggtcgaaagtaaccncgggaagtgccgaaaactaacaaacaaaagaagatagtgaaattttaattaaaanaaatagccaaacgtaactaactaaaacggacccgtcgaggaactgccaacggacgacacagggagtagnnn + eeeccccccc`UUU^UWWeegffhhhhhhhhhhhhhhhhhhggghhhhhhhhhfgfeeeee\\\\ceeeeeeeeeeeeeec^^^YRPOSNVU\YTMMMSMRKKKRUUNNNNS[`aa```\bbeccccccccYUUUbceeee\[`a`\ZYRRRPPP[\\\XXZaWWXeeeeeeccacaccc\WWSSQRPMMKKKLKKKKKKKKPPRRMMLLLPVPPPKKKKKQQTTTPRPPQPMLLMKRRRPPKMKKRLLKKMKKLLKRTPPPQRMMLL@KKKKLLKLLLLXKKKKW\KKLKKKLKKKKLLLQUYXYTLMMPKKKKPPNNKKKK@KKPXPVLLKKKKLRMKLLKKPVKKKKLLLJPPPPRMOROOOOKKKOSSSOOORUZXUUUQMNNZV][Z@@@ @FSRRS4401BRRTC [length=145] [gc=38.62] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=74] tcagCCAGCAATTCCGACTTAATTGTTCTTCTTCCATCATTCATCTCGACTAACAGTTCTACGATTAATGAGTTTGGCtttaatttgttgttcattattgtcacaattacactactgagactgccaaggcacncagggataggnn + eeeeeeeeecccceeeefecccca`````\[SSSS__a\TTTYaaaaa__^WYW[^[WXWXW[WSSSQZ\\RKKKTPSKKKPPKKKMKKQPVVVTTTTPRKMMLLPPPTVTWMNNRSSWW][[ZZZZXXSSN@NSKKKTVWTT@@ @FSRRS4401B64ST [length=382] [gc=40.58] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=346] tcagTTTTCTTAAATTACTTGAATCTGTTGAAGTGGATGTCCACTTTTGTATGCCAAATATGCCCAGCGTATACGATCTTGGCCACATCTCCACATAATCATCAGTCGGATGCAAAAAGCGATTAAACTAAAAATGAATGCGTTTTTAGATGAGTAAATAGGTAATACTTTGTTTAAATAATAAATGTCACAAACAGAACGCGGATTACAGTACCTGAAAATAGTTGTACTGTATCTGTGCCGGCACTTCCTCGGCCCTGAGAAGTTGTCCCGTTGTTTCCATTCGCACCATCCAATGGCCAAAGTTTGCGAAGAATCTGTTCCGTTCCATTACCAATTGTTTTTCCATGctgagactgccaaggcacacaggggataggnn + hhhhbbbbh^^UUUhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhUUUUh`hhhhh^^^hhhhbbbhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhUURRRdhbdYYRRW\NLLLLKW\]]^^YQLNNNNV]bddhdhggghhhhhhhhhdZZXXPPPXXa^^^habghhhhhhggghhggghhhhhhhhhhhhhhhhhhaabbhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhfffhhhhhhhhhc^\\\chhhggghhhhhhhhhggghhhhhhhhhhggghggghhhhhhhhhhhhhhhhhhhhhh^]ZXXWW\\TLLLLM__`dfhhhhhhhhhgg^^^^dhhheeXXXZdhhaa@@ @FSRRS4401EJ0YH [length=381] [gc=48.29] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=343] tcagTTTTTGGAGAATTCCGTCAGGGACGGCATGGCATATTTGTGGGTTCGGCACGGCGTCCTGGCCAAGAAGAAGAAGACGAATTAGCCCGTTAATTTAATGACACCTTCCCCAATTTTGCAGCAATGATTGGTTCATTCTTGGCGGTGCGTTTTTGTGCTTCGTCGAATTGTTGGCCATTTTGGTCCACCGGCCATCATCTTTACGCTATCCGACTGATTGGAAATCACCGCCTAGCATTTTGCCGAAGATTGTTGCGTTGTACGGCCATGTGCTGATTGTTTACATTGGCATTCTTGGCAATTTGTCCTTGGTCGGCTTTGACGGCAAATTTGCGGTGTTAAGTctgagactgccaaggcacacagggggatagggnn + hhhh^^^^^hhhhhhhhhhhhhhggghhhhhhhhhhhhhggghhggghhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhggghhhhhggghhhhhhhhhhh````hh]]]]hhhhhhhhhhhhhhhhhhhhhhhhhhddhddZRRRRRcVhhhhhhhhhhhhhhhhhhhhhbb__gghhhhhhhhhhhhhhhhggghhhhhhhhhhhhhhhhhhhggghhhhhhhhhhhhhaaaahgbcbghhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhggghhhggbbchhhhhhggghhbbbg\bbhhhhhhhhhfffhhhhhhgggggghhhhhhhhhhhhhhhggghhggd^^]]^dedd^NNNNNZYWOLL@@ @FSRRS4401BK0IB [length=507] [gc=49.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=208] tcagTTGACCGGCGTTGTGTAACAATAATTCATTATTCTGAGACGATGCCAATGTAATCGACGGTTTATGCCCAATTATTCCCATCTATGCTTAACTGATCAAATACTATTTGCATTACGTCACGAAATTGCGCGAACACCGCCGGCCGACAATAATTTATACCGGACATACCGGAGTTGATGGTAATCGGTAAAGAGTTTTATTTAATTATntattatcnctattaattattgttancaacaatgtgcacgctntgccgcccgccgccgccgtgtcggtaggaccccggacggacccggacccggttcgggtacccgttttcgggttcccggaaccgtttttcgggtacccggttttttcggggggccccccggtaaaaaaccggggaaccccctaaaacgggtaaacgtaccgtaagggaccccctaaacgggggccccgaaaaaccgggacccaaaccggggggaaacggttaaaggggggggaagtaggngnnnnnnnnnnnn + eee`__eeeeeeeeeeggaYYY_aeeeeffghghhhhhhhhhhhhhhhhhhhhhhheeeeeeeee^\a`_PPPWWOPP[[WWZ^``accb^^^cc````c`UUUc^ccc\\\\\``]^]][[[\[PPPWW[[^^^``^XTTT\`aaa__^\]]^__PPPSQYYcc`^^^ceeeeeeeeeeeeea````[[OOOOMQQ\NNNNWKLLPPPPPP@QRLLNQS@RVYUUUU[ZWQQNMMS@SUTQPPVVTTRMLMQR@QRPPQPPPQKKLKKQPP\\TLLLLLLKPQKKKKKKLKKKLPKKKKLKKPTTLLKKKKPRPPPMKKKKKKKKJJPPPMMPPMMPKKKKKKKKKJRKKKKKLLQQLLLLLNNLLLLTTNNIINLLQQLLIIKKKKIIKKKKKKMPMKIKKKKIIIKKKKKKKKKKKKKKKKKKKKKKKHKKLKKKKKKHKKKKKIINNMHKKKNNNKKKKKKKKKKKMHHRRLLLKKKKKKKKKKGOKKK@M@@@@@@@@@@@@ @FSRRS4401ARCCB [length=258] [gc=46.90] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=193] tcagTTATTGCAGTCGTTCCGCGCCATCGCCGGTAACCGTCCGCGTGTTATTCTGTGTATCGGCCAACCTTCGTATAACTTCGTATAATGTATGCTATACGAAGTTATTACGATCTATACCGGCGAAACTCAGCCGAAAGGTCTCGCGGTAGAGCCTATGAGCTGCCCGACCGATGCATTTAAATTTCCGGGGATCGtcgctgatctgagactgccaaaggcacactagggggataggnnnnnnnnnnnnnnnnnnnn + eee[WYY_ceeeeeeeffecb`````a__OOOOSU[ZUURQQRUUVUQQSRRSW[[\^^SSSTYY]`a```_[[\\a\YTTTYaac^^\acccceeebbbbbbbeebccceeeeeca``\\WWWWOOOS][[[XXUWWZWWX[WWX^aaaa`\^^^ccaaa__^^WWWWXLLLQRVVVPKKKKKKKKLLPPTQ[[OOPTW`_][[[[[SRQVVVPPKKKLLRV\\\VTKLLLLRSUUU@@@@@@@@@@@@@@@@@@@@ @FSRRS4401CM938 [length=453] [gc=44.15] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=418] tcagGTTTTAAATCGCTTTCCAAGGAATTTGAGTCTAAATCCGGTGGATCCCATCAGTACAAATGCGGCGACAAGGCCGTGAAAACACTGCTTAATTCTTTGCACTTTTTGGCCACCTTTTTGGAAATGTTGTTTTGTGTTCTCAAAATTTTCCATCTCAGAACAAACATTCCATCGGGCTGATGTTGTGGCTTTTGGCGCGCGAAGTGCTGCTACTGCGCGGCAAAATCAGTCGCCAGACCGGTTTTGTTGTGGACGACAAAGTGATCATGCCTGACTTGTACTTCTACCGCGATCCGCAAGCGCGAATTGGTCACATAGTTATAGAATTTTTGAGCCTTTTTCTTGACATAAAAAGTGTGGTTTTAAAAATTTCCTGGCAGGACCCACGCCAACGTTCAGGAATAATATCTTTTAAAAAGctgagactgccaaggcacacaggggataggn + hhhhhbb]]UUUhhhhbbbhhhhhhhhggghhhhhfUUUhhhhhhhhhhggghhhhhhhhbbbhhhhhhhhhhhhhhhhhh____hhhhhhhhhhhhhggghhhh^^^\ZhhddhYYNNNNNVTSSY^haaVQQSSdWddbdab\_______gghhhhhhhhhhaaahhhhhhhhhggghhhhhhhhhhhhhbbbbhhhhhhhhhhhhhhhhhhhhhhhhhhhhUUUUcdhhgda^^c_VVVVVQQQQcWXddhhhhhhhggghhhhhhhhggghhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhggghhhhhhhhhhhhhhh\\^\\hhhhh^^^\ZhURcccWQLLKKKRW\\YYLLLLKKLLLJJJRROUUZ_URWOOOWNYWWX[Yafhhhhhhhhhed[^eTTOOLLLLLTYZZZY]^_b[[VXXXdddddd____ddddd@ @FSRRS4401EQLIK [length=411] [gc=34.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=374] tcagTTTAATTTGGTGCTTCCTTTCAATTCCTTAGTTTAAACTTGGCACTGAAGTCTCGCATTTATAACTAGAGCCCGGATTTTAGAGGCTAAAAAGTTTTCCAGATTTCAAAATTTATTTCGAAACTATTTTTCTGATTGTGATGTGACGGATTTCTAAATTAAATCGAAATGATGTGTATTGAACTTAACAAGTGATTTTTATCAGATTTTGTCAATGAATAAATTTTAATTTAAATCTCTTTCTAACACTTTCATGATTAAAATCTAACAAAGCGCGACCAGTATGTGAGAAGAGCAAAAACAACAAAAAGTGCTAGCACTAAAGAAGGTTCGAACCCAACACATAACGTAAGAGTTACCGGGAAGAAAACCACTctgagactgccaaggcacacagggggataggnn + hhh^UUU^^ggghhhhhhhhhfffhhhhhhhhhhhfffggghhhhhhhhhhhhhhhhhhhhfffhhhhhhhhhhggghhh____hhhhdhdPPPPOOLLLLQQ^\WLLLYLLLLLLLKKKKRRLLLTYRKLLLLYPaadddghhhhhhhhhhha^^`PQQOOOMMMY^\OQSfhhhhhhhhhhhhhhhhhhdbbgga\NNLKKQP^^[TLOOQ\Ueaa^YX[\PPNSSSSNNLNNVV^^fdhddgh`bbhhhggghhhhhhhbbb`hhhgggggghhhhhhhhhhhhhhhhhhhhhhddPNNLLWQQZLLLLMVVV_dhhhhhh^^^hhhhhhhhhhhggghhhhhhhhhhhhhhhhhhhhXXSQQVVVTTTT`dZhdddddhhhhh^^XVTT]_\\YRKKKKKRRRRU@@ @FSRRS4401AOV6A [length=309] [gc=22.98] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=273] tcagTTTTCAAATTTTCCGAAATTTGCTGTTTGGTAGAAGGCAAATTATTTGATTGAATTTTGTATTTATTTAAAACAATTTATTTTAAAATAATAATTTTCCATTGACTTTTTACATTTAATTGATTTTATTATGCATTTTATATTTGTTTTCTAAATATTCGTTTGCAAACTCACGTTGAAATTGTATTAAACTCGAAATTAGAGTTTTTGAAATTAATTTTTATGTAGCATAATATTTTAAACATATTGGAATTTTATAAAACATTATATTTTTctgagactgccaaggcacacagggggataggn + hhhhbbbbhZZZbbbbhhh^^^ggghhhhggghhhhhhhhhhggghhhggghhhhhhh____hehbbbhb``ZZZZdc^a__cUUSSTTTT[[[fhh]]``hhhhhhhhZZZYYhhh^^^bbbhhhZZZZheehhhhhbbbahahddcbSSSS^Saaad^dhhhbgghhZZZghhhhhhggZZZgghhhhhZZZhhhhggghhhhhh]]^^]hddaffYYPPPPNSUeaeaa^\Z\`^XVVVPPPXYd```ccacVVVV\NPPPPQQc`__aUWZZZhWgghhhhhZZZZ^]hdbbbaNNNNNZVST\@ @FSRRS4401EG0ZW [length=424] [gc=23.82] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=389] tcagTTTTGATCTTTTAATAATGAATTTTAATGTGTTAAAATGATTGCATTGATGGCATAACCGCATTTAAATTAATTACATGAAGTGTAAGTATGAAATTTTCCTTTCCAAATTGCAAAAACTAAAATTTAAAATTTATCGTAAAAATTAACATATATTTTAAACGATTTTAAGAAACATTTGTAAATTATATTTTTGTGAAGCGTTCAAACAAAAATAAACAATAAAATATTTTTCTATTTAATAGCAAAACATTTGACGATGAAAAGGAAAATGCGGGTTTGAAAATGGGCTTTGCCATGCTATTTTCATAATAACATATTTTTATTATGAATAATAAATTTACATACAATATATACAGTCTTAAATTTATTCATAATATTTTTGAGAATctgagactgccaaggcacacaggggataggn + hh`XSSSTddhh\\\]hhhhhhhhhbbbbhhghhhbbZZZZhhhhhhhhhhhhhhhhhhhhhhhhheZZUUUcchhhhhhhhhhhhhhhhhhhddXSSSQQSS__UUUbb[[acc`\LLLLLQ[KKKKUTXNNOO\\\WbhhhZ]]\\ggZZhhhhhhbb__^^^hhh____hb^UUUghccbh^a^^bb[ddPPPPPaSaccbaZ\_aVVV]NNNNL\RQR^SQRKKKN\PKKKKLYSdZ^^dhhhhhbbbbh]ZZZhhhhhhh[[__^\NNNNV\`XXXWW[[SSTThdddhhhhhhhhhhhhh[XXXghhhhhhhhhhh^^^^^hhhhhhhhhhhb`bZTTTRXdhhhhhhhhhhhhhhhhggXXXgggh`\`ddee_\MMMMM`c___ccddddehhhZZZXVVeebbb_QSSSX^ecc@ needletail-0.6.3/tests/specimen/FASTQ/longreads_as_sanger.fastq000064400000000000000000000203041046102023000226220ustar 00000000000000@FSRRS4401BE7HA [length=395] [gc=36.46] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=95] tcagTTAAGATGGGATAATATCCTCAGATTGCGTGATGAACTTTGTTCTGGTGGAGGAGAAGGAAGTGCATTCGACGTATGCCCGTTTGTCGATATTTGtatttaaagtaatccgtcacaaatcagtgacataaatattatttagatttcgggagcaactttatttattccacaagcaggtttaaattttaaatttaaattattgcagaagactttaaattaacctcgttgtcggagtcatttgttcggttattggtcgaaagtaaccncgggaagtgccgaaaactaacaaacaaaagaagatagtgaaattttaattaaaanaaatagccaaacgtaactaactaaaacggacccgtcgaggaactgccaacggacgacacagggagtagnnn + FFFDDDDDDDA666?688FFHGGIIIIIIIIIIIIIIIIIIHHHIIIIIIIIIGHGFFFFF====DFFFFFFFFFFFFFFD???:3104/76=:5...4.3,,,366////4<;!!! @FSRRS4401BRRTC [length=145] [gc=38.62] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=74] tcagCCAGCAATTCCGACTTAATTGTTCTTCTTCCATCATTCATCTCGACTAACAGTTCTACGATTAATGAGTTTGGCtttaatttgttgttcattattgtcacaattacactactgagactgccaaggcacncagggataggnn + FFFFFFFFFDDDDFFFFGFDDDDBAAAAA=<4444@@B=555:BBBBB@@?8:8<<;;;;9944/!/4,,,57855!! @FSRRS4401B64ST [length=382] [gc=40.58] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=346] tcagTTTTCTTAAATTACTTGAATCTGTTGAAGTGGATGTCCACTTTTGTATGCCAAATATGCCCAGCGTATACGATCTTGGCCACATCTCCACATAATCATCAGTCGGATGCAAAAAGCGATTAAACTAAAAATGAATGCGTTTTTAGATGAGTAAATAGGTAATACTTTGTTTAAATAATAAATGTCACAAACAGAACGCGGATTACAGTACCTGAAAATAGTTGTACTGTATCTGTGCCGGCACTTCCTCGGCCCTGAGAAGTTGTCCCGTTGTTTCCATTCGCACCATCCAATGGCCAAAGTTTGCGAAGAATCTGTTCCGTTCCATTACCAATTGTTTTTCCATGctgagactgccaaggcacacaggggataggnn + IIIICCCCI??666IIIIIIIIIIIIIIIIIIIIIIIIIIIIII6666IAIIIII???IIIICCCIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII66333EICE::338=/----,8=>>??:2-////7>CEEIEIHHHIIIIIIIIIE;;9911199B???IBCHIIIIIIHHHIIHHHIIIIIIIIIIIIIIIIIIBBCCIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIGGGIIIIIIIIID?===DIIIHHHIIIIIIIIIHHHIIIIIIIIIIHHHIHHHIIIIIIIIIIIIIIIIIIIIII?>;9988==5----.@@AEGIIIIIIIIIHH????EIIIFF999;EIIBB!! @FSRRS4401EJ0YH [length=381] [gc=48.29] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=343] tcagTTTTTGGAGAATTCCGTCAGGGACGGCATGGCATATTTGTGGGTTCGGCACGGCGTCCTGGCCAAGAAGAAGAAGACGAATTAGCCCGTTAATTTAATGACACCTTCCCCAATTTTGCAGCAATGATTGGTTCATTCTTGGCGGTGCGTTTTTGTGCTTCGTCGAATTGTTGGCCATTTTGGTCCACCGGCCATCATCTTTACGCTATCCGACTGATTGGAAATCACCGCCTAGCATTTTGCCGAAGATTGTTGCGTTGTACGGCCATGTGCTGATTGTTTACATTGGCATTCTTGGCAATTTGTCCTTGGTCGGCTTTGACGGCAAATTTGCGGTGTTAAGTctgagactgccaaggcacacagggggatagggnn + IIII?????IIIIIIIIIIIIIIHHHIIIIIIIIIIIIIHHHIIHHHIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIHHHIIIIIHHHIIIIIIIIIIIAAAAII>>>>IIIIIIIIIIIIIIIIIIIIIIIIIIEEIEE;33333D7IIIIIIIIIIIIIIIIIIIIICC@@HHIIIIIIIIIIIIIIIIHHHIIIIIIIIIIIIIIIIIIIHHHIIIIIIIIIIIIIBBBBIHCDCHIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIHHHIIIHHCCDIIIIIIHHHIICCCH=CCIIIIIIIIIGGGIIIIIIHHHHHHIIIIIIIIIIIIIIIHHHIIHHE??>>?EFEE?/////;:80--!! @FSRRS4401BK0IB [length=507] [gc=49.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=208] tcagTTGACCGGCGTTGTGTAACAATAATTCATTATTCTGAGACGATGCCAATGTAATCGACGGTTTATGCCCAATTATTCCCATCTATGCTTAACTGATCAAATACTATTTGCATTACGTCACGAAATTGCGCGAACACCGCCGGCCGACAATAATTTATACCGGACATACCGGAGTTGATGGTAATCGGTAAAGAGTTTTATTTAATTATntattatcnctattaattattgttancaacaatgtgcacgctntgccgcccgccgccgccgtgtcggtaggaccccggacggacccggacccggttcgggtacccgttttcgggttcccggaaccgtttttcgggtacccggttttttcggggggccccccggtaaaaaaccggggaaccccctaaaacgggtaaacgtaccgtaagggaccccctaaacgggggccccgaaaaaccgggacccaaaccggggggaaacggttaaaggggggggaagtaggngnnnnnnnnnnnn + FFFA@@FFFFFFFFFFHHB:::@BFFFFGGHIHIIIIIIIIIIIIIIIIIIIIIIIFFFFFFFFF?=BA@11188011<<88;?AABDDC???DDAAAADA666D?DDD=====AA>?>><<<=<11188<>?@@11142::DDA???DFFFFFFFFFFFFFBAAAA<<0000.22=////8,--111111!23--/24!37:6666<;822/..4!46521177553.-.23!231121112,,-,,211==5------,12,,,,,,-,,,-1,,,,-,,155--,,,,13111.,,,,,,,,++111..11..1,,,,,,,,,+3,,,,,--22-----//----55//**/--22--**,,,,**,,,,,,.1.,*,,,,***,,,,,,,,,,,,,,,,,,,,,,,),,-,,,,,,),,,,,**//.),,,///,,,,,,,,,,,.))33---,,,,,,,,,,(0,,,!.!!!!!!!!!!!! @FSRRS4401ARCCB [length=258] [gc=46.90] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=193] tcagTTATTGCAGTCGTTCCGCGCCATCGCCGGTAACCGTCCGCGTGTTATTCTGTGTATCGGCCAACCTTCGTATAACTTCGTATAATGTATGCTATACGAAGTTATTACGATCTATACCGGCGAAACTCAGCCGAAAGGTCTCGCGGTAGAGCCTATGAGCTGCCCGACCGATGCATTTAAATTTCCGGGGATCGtcgctgatctgagactgccaaaggcacactagggggataggnnnnnnnnnnnnnnnnnnnn + FFF<8::@DFFFFFFFGGFDCAAAAAB@@000046<;66322366762243348<<=??4445::>ABAAA@<<==B=:555:BBD??=BDDDDFFFCCCCCCCFFCDDDFFFFFDBAA==88880004><<<99688;889<889?BBBBA=???DDBBB@@??88889---237771,,,,,,,,--1152<<00158A@><<<<<43277711,,,--37===75,----34666!!!!!!!!!!!!!!!!!!!! @FSRRS4401CM938 [length=453] [gc=44.15] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=418] tcagGTTTTAAATCGCTTTCCAAGGAATTTGAGTCTAAATCCGGTGGATCCCATCAGTACAAATGCGGCGACAAGGCCGTGAAAACACTGCTTAATTCTTTGCACTTTTTGGCCACCTTTTTGGAAATGTTGTTTTGTGTTCTCAAAATTTTCCATCTCAGAACAAACATTCCATCGGGCTGATGTTGTGGCTTTTGGCGCGCGAAGTGCTGCTACTGCGCGGCAAAATCAGTCGCCAGACCGGTTTTGTTGTGGACGACAAAGTGATCATGCCTGACTTGTACTTCTACCGCGATCCGCAAGCGCGAATTGGTCACATAGTTATAGAATTTTTGAGCCTTTTTCTTGACATAAAAAGTGTGGTTTTAAAAATTTCCTGGCAGGACCCACGCCAACGTTCAGGAATAATATCTTTTAAAAAGctgagactgccaaggcacacaggggataggn + IIIIICC>>666IIIICCCIIIIIIIIHHHIIIIIG666IIIIIIIIIIHHHIIIIIIIICCCIIIIIIIIIIIIIIIIII@@@@IIIIIIIIIIIIIHHHIIII???=;IIEEI:://///7544:?IBB72244E8EECEBC=@@@@@@@HHIIIIIIIIIIBBBIIIIIIIIIHHHIIIIIIIIIIIIICCCCIIIIIIIIIIIIIIIIIIIIIIIIIIII6666DEIIHEB??D@777772222D89EEIIIIIIIHHHIIIIIIIIHHHIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIHHHIIIIIIIIIIIIIII==?==IIIII???=;I63DDD82--,,,38==::----,,---+++33066;@6380008/:889<:BGIIIIIIIIIFE?@C<<7999EEEEEE@@@@EEEEE! @FSRRS4401EQLIK [length=411] [gc=34.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=374] tcagTTTAATTTGGTGCTTCCTTTCAATTCCTTAGTTTAAACTTGGCACTGAAGTCTCGCATTTATAACTAGAGCCCGGATTTTAGAGGCTAAAAAGTTTTCCAGATTTCAAAATTTATTTCGAAACTATTTTTCTGATTGTGATGTGACGGATTTCTAAATTAAATCGAAATGATGTGTATTGAACTTAACAAGTGATTTTTATCAGATTTTGTCAATGAATAAATTTTAATTTAAATCTCTTTCTAACACTTTCATGATTAAAATCTAACAAAGCGCGACCAGTATGTGAGAAGAGCAAAAACAACAAAAAGTGCTAGCACTAAAGAAGGTTCGAACCCAACACATAACGTAAGAGTTACCGGGAAGAAAACCACTctgagactgccaaggcacacagggggataggnn + III?666??HHHIIIIIIIIIGGGIIIIIIIIIIIGGGHHHIIIIIIIIIIIIIIIIIIIIGGGIIIIIIIIIIHHHIII@@@@IIIIEIE111100----22?=8---:-------,,,,33---5:3,----:1BBEEEHIIIIIIIIIIIB??A122000...:?=024GIIIIIIIIIIIIIIIIIIECCHHB=//-,,21??<5-002=6FBB?:9<=11/4444//-//77??GEIEEHIACCIIIHHHIIIIIIICCCAIIIHHHHHHIIIIIIIIIIIIIIIIIIIIIIEE1//--822;----.777@EIIIIII???IIIIIIIIIIIHHHIIIIIIIIIIIIIIIIIIII994227775555AE;IEEEEEIIIII??9755>@==:3,,,,,33336!! @FSRRS4401AOV6A [length=309] [gc=22.98] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=273] tcagTTTTCAAATTTTCCGAAATTTGCTGTTTGGTAGAAGGCAAATTATTTGATTGAATTTTGTATTTATTTAAAACAATTTATTTTAAAATAATAATTTTCCATTGACTTTTTACATTTAATTGATTTTATTATGCATTTTATATTTGTTTTCTAAATATTCGTTTGCAAACTCACGTTGAAATTGTATTAAACTCGAAATTAGAGTTTTTGAAATTAATTTTTATGTAGCATAATATTTTAAACATATTGGAATTTTATAAAACATTATATTTTTctgagactgccaaggcacacagggggataggn + IIIICCCCI;;;CCCCIII???HHHIIIIHHHIIIIIIIIIIHHHIIIHHHIIIIIII@@@@IFICCCICAA;;;;ED?B@@D66445555<<>AAIIIIIIII;;;::III???CCCIII;;;;IFFIIIIICCCBIBIEEDC4444?4BBBE?EIIICHHII;;;HIIIIIIHH;;;HHIIIII;;;IIIIHHHIIIIII>>??>IEEBGG::1111/46FBFBB?=;=A?97771119:EAAADDBD7777=/111122DA@@B68;;;I8HHIIIII;;;;?>IECCCB/////;745=! @FSRRS4401EG0ZW [length=424] [gc=23.82] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=389] tcagTTTTGATCTTTTAATAATGAATTTTAATGTGTTAAAATGATTGCATTGATGGCATAACCGCATTTAAATTAATTACATGAAGTGTAAGTATGAAATTTTCCTTTCCAAATTGCAAAAACTAAAATTTAAAATTTATCGTAAAAATTAACATATATTTTAAACGATTTTAAGAAACATTTGTAAATTATATTTTTGTGAAGCGTTCAAACAAAAATAAACAATAAAATATTTTTCTATTTAATAGCAAAACATTTGACGATGAAAAGGAAAATGCGGGTTTGAAAATGGGCTTTGCCATGCTATTTTCATAATAACATATTTTTATTATGAATAATAAATTTACATACAATATATACAGTCTTAAATTTATTCATAATATTTTTGAGAATctgagactgccaaggcacacaggggataggn + IIA94445EEII===>IIIIIIIIICCCCIIHIIICC;;;;IIIIIIIIIIIIIIIIIIIIIIIIIF;;666DDIIIIIIIIIIIIIIIIIIIEE94442244@@666CC<>==HH;;IIIIIICC@@???III@@@@IC?666HIDDCI?B??CC////-=323?423,,,/=1,,,,-:4E;??EIIIIICCCCI>;;;IIIIIII<<@@?=////7=A99988<<4455IEEEIIIIIIIIIIIII<999HIIIIIIIIIII?????IIIIIIIIIIICAC;55539EIIIIIIIIIIIIIIIIHH999HHHIA=AEEFF@=.....AD@@@DDEEEEFIII;;;977FFCCC@24449?FDD! needletail-0.6.3/tests/specimen/FASTQ/longreads_as_solexa.fastq000064400000000000000000000203041046102023000226360ustar 00000000000000@FSRRS4401BE7HA [length=395] [gc=36.46] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=95] tcagTTAAGATGGGATAATATCCTCAGATTGCGTGATGAACTTTGTTCTGGTGGAGGAGAAGGAAGTGCATTCGACGTATGCCCGTTTGTCGATATTTGtatttaaagtaatccgtcacaaatcagtgacataaatattatttagatttcgggagcaactttatttattccacaagcaggtttaaattttaaatttaaattattgcagaagactttaaattaacctcgttgtcggagtcatttgttcggttattggtcgaaagtaaccncgggaagtgccgaaaactaacaaacaaaagaagatagtgaaattttaattaaaanaaatagccaaacgtaactaactaaaacggacccgtcgaggaactgccaacggacgacacagggagtagnnn + eeeccccccc`UUU^UWWeegffhhhhhhhhhhhhhhhhhhggghhhhhhhhhfgfeeeee\\\\ceeeeeeeeeeeeeec^^^YRPOSNVU\YTMMMSMRKKKRUUNNNNS[`aa```\bbeccccccccYUUUbceeee\[`a`\ZYRRRPPP[\\\XXZaWWXeeeeeeccacaccc\WWSSQRPMMKKKLKKKKKKKKPPRRMMLLLPVPPPKKKKKQQTTTPRPPQPMLLMKRRRPPKMKKRLLKKMKKLLKRTPPPQRMMLL;KKKKLLKLLLLXKKKKW\KKLKKKLKKKKLLLQUYXYTLMMPKKKKPPNNKKKK;KKPXPVLLKKKKLRMKLLKKPVKKKKLLLJPPPPRMOROOOOKKKOSSSOOORUZXUUUQMNNZV][Z;;; @FSRRS4401BRRTC [length=145] [gc=38.62] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=74] tcagCCAGCAATTCCGACTTAATTGTTCTTCTTCCATCATTCATCTCGACTAACAGTTCTACGATTAATGAGTTTGGCtttaatttgttgttcattattgtcacaattacactactgagactgccaaggcacncagggataggnn + eeeeeeeeecccceeeefecccca`````\[SSSS__a\TTTYaaaaa__^WYW[^[WXWXW[WSSSQZ\\RKKKTPSKKKPPKKKMKKQPVVVTTTTPRKMMLLPPPTVTWMNNRSSWW][[ZZZZXXSSN;NSKKKTVWTT;; @FSRRS4401B64ST [length=382] [gc=40.58] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=346] tcagTTTTCTTAAATTACTTGAATCTGTTGAAGTGGATGTCCACTTTTGTATGCCAAATATGCCCAGCGTATACGATCTTGGCCACATCTCCACATAATCATCAGTCGGATGCAAAAAGCGATTAAACTAAAAATGAATGCGTTTTTAGATGAGTAAATAGGTAATACTTTGTTTAAATAATAAATGTCACAAACAGAACGCGGATTACAGTACCTGAAAATAGTTGTACTGTATCTGTGCCGGCACTTCCTCGGCCCTGAGAAGTTGTCCCGTTGTTTCCATTCGCACCATCCAATGGCCAAAGTTTGCGAAGAATCTGTTCCGTTCCATTACCAATTGTTTTTCCATGctgagactgccaaggcacacaggggataggnn + hhhhbbbbh^^UUUhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhUUUUh`hhhhh^^^hhhhbbbhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhUURRRdhbdYYRRW\NLLLLKW\]]^^YQLNNNNV]bddhdhggghhhhhhhhhdZZXXPPPXXa^^^habghhhhhhggghhggghhhhhhhhhhhhhhhhhhaabbhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhfffhhhhhhhhhc^\\\chhhggghhhhhhhhhggghhhhhhhhhhggghggghhhhhhhhhhhhhhhhhhhhhh^]ZXXWW\\TLLLLM__`dfhhhhhhhhhgg^^^^dhhheeXXXZdhhaa;; @FSRRS4401EJ0YH [length=381] [gc=48.29] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=343] tcagTTTTTGGAGAATTCCGTCAGGGACGGCATGGCATATTTGTGGGTTCGGCACGGCGTCCTGGCCAAGAAGAAGAAGACGAATTAGCCCGTTAATTTAATGACACCTTCCCCAATTTTGCAGCAATGATTGGTTCATTCTTGGCGGTGCGTTTTTGTGCTTCGTCGAATTGTTGGCCATTTTGGTCCACCGGCCATCATCTTTACGCTATCCGACTGATTGGAAATCACCGCCTAGCATTTTGCCGAAGATTGTTGCGTTGTACGGCCATGTGCTGATTGTTTACATTGGCATTCTTGGCAATTTGTCCTTGGTCGGCTTTGACGGCAAATTTGCGGTGTTAAGTctgagactgccaaggcacacagggggatagggnn + hhhh^^^^^hhhhhhhhhhhhhhggghhhhhhhhhhhhhggghhggghhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhggghhhhhggghhhhhhhhhhh````hh]]]]hhhhhhhhhhhhhhhhhhhhhhhhhhddhddZRRRRRcVhhhhhhhhhhhhhhhhhhhhhbb__gghhhhhhhhhhhhhhhhggghhhhhhhhhhhhhhhhhhhggghhhhhhhhhhhhhaaaahgbcbghhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhggghhhggbbchhhhhhggghhbbbg\bbhhhhhhhhhfffhhhhhhgggggghhhhhhhhhhhhhhhggghhggd^^]]^dedd^NNNNNZYWOLL;; @FSRRS4401BK0IB [length=507] [gc=49.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=208] tcagTTGACCGGCGTTGTGTAACAATAATTCATTATTCTGAGACGATGCCAATGTAATCGACGGTTTATGCCCAATTATTCCCATCTATGCTTAACTGATCAAATACTATTTGCATTACGTCACGAAATTGCGCGAACACCGCCGGCCGACAATAATTTATACCGGACATACCGGAGTTGATGGTAATCGGTAAAGAGTTTTATTTAATTATntattatcnctattaattattgttancaacaatgtgcacgctntgccgcccgccgccgccgtgtcggtaggaccccggacggacccggacccggttcgggtacccgttttcgggttcccggaaccgtttttcgggtacccggttttttcggggggccccccggtaaaaaaccggggaaccccctaaaacgggtaaacgtaccgtaagggaccccctaaacgggggccccgaaaaaccgggacccaaaccggggggaaacggttaaaggggggggaagtaggngnnnnnnnnnnnn + eee`__eeeeeeeeeeggaYYY_aeeeeffghghhhhhhhhhhhhhhhhhhhhhhheeeeeeeee^\a`_PPPWWOPP[[WWZ^``accb^^^cc````c`UUUc^ccc\\\\\``]^]][[[\[PPPWW[[^^^``^XTTT\`aaa__^\]]^__PPPSQYYcc`^^^ceeeeeeeeeeeeea````[[OOOOMQQ\NNNNWKLLPPPPPP;QRLLNQS;RVYUUUU[ZWQQNMMS;SUTQPPVVTTRMLMQR;QRPPQPPPQKKLKKQPP\\TLLLLLLKPQKKKKKKLKKKLPKKKKLKKPTTLLKKKKPRPPPMKKKKKKKKJJPPPMMPPMMPKKKKKKKKKJRKKKKKLLQQLLLLLNNLLLLTTNNHHNLLQQLLHHKKKKHHKKKKKKMPMKHKKKKHHHKKKKKKKKKKKKKKKKKKKKKKKGKKLKKKKKKGKKKKKHHNNMGKKKNNNKKKKKKKKKKKMGGRRLLLKKKKKKKKKKFOKKK;M;;;;;;;;;;;; @FSRRS4401ARCCB [length=258] [gc=46.90] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=193] tcagTTATTGCAGTCGTTCCGCGCCATCGCCGGTAACCGTCCGCGTGTTATTCTGTGTATCGGCCAACCTTCGTATAACTTCGTATAATGTATGCTATACGAAGTTATTACGATCTATACCGGCGAAACTCAGCCGAAAGGTCTCGCGGTAGAGCCTATGAGCTGCCCGACCGATGCATTTAAATTTCCGGGGATCGtcgctgatctgagactgccaaaggcacactagggggataggnnnnnnnnnnnnnnnnnnnn + eee[WYY_ceeeeeeeffecb`````a__OOOOSU[ZUURQQRUUVUQQSRRSW[[\^^SSSTYY]`a```_[[\\a\YTTTYaac^^\acccceeebbbbbbbeebccceeeeeca``\\WWWWOOOS][[[XXUWWZWWX[WWX^aaaa`\^^^ccaaa__^^WWWWXLLLQRVVVPKKKKKKKKLLPPTQ[[OOPTW`_][[[[[SRQVVVPPKKKLLRV\\\VTKLLLLRSUUU;;;;;;;;;;;;;;;;;;;; @FSRRS4401CM938 [length=453] [gc=44.15] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=418] tcagGTTTTAAATCGCTTTCCAAGGAATTTGAGTCTAAATCCGGTGGATCCCATCAGTACAAATGCGGCGACAAGGCCGTGAAAACACTGCTTAATTCTTTGCACTTTTTGGCCACCTTTTTGGAAATGTTGTTTTGTGTTCTCAAAATTTTCCATCTCAGAACAAACATTCCATCGGGCTGATGTTGTGGCTTTTGGCGCGCGAAGTGCTGCTACTGCGCGGCAAAATCAGTCGCCAGACCGGTTTTGTTGTGGACGACAAAGTGATCATGCCTGACTTGTACTTCTACCGCGATCCGCAAGCGCGAATTGGTCACATAGTTATAGAATTTTTGAGCCTTTTTCTTGACATAAAAAGTGTGGTTTTAAAAATTTCCTGGCAGGACCCACGCCAACGTTCAGGAATAATATCTTTTAAAAAGctgagactgccaaggcacacaggggataggn + hhhhhbb]]UUUhhhhbbbhhhhhhhhggghhhhhfUUUhhhhhhhhhhggghhhhhhhhbbbhhhhhhhhhhhhhhhhhh____hhhhhhhhhhhhhggghhhh^^^\ZhhddhYYNNNNNVTSSY^haaVQQSSdWddbdab\_______gghhhhhhhhhhaaahhhhhhhhhggghhhhhhhhhhhhhbbbbhhhhhhhhhhhhhhhhhhhhhhhhhhhhUUUUcdhhgda^^c_VVVVVQQQQcWXddhhhhhhhggghhhhhhhhggghhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhggghhhhhhhhhhhhhhh\\^\\hhhhh^^^\ZhURcccWQLLKKKRW\\YYLLLLKKLLLJJJRROUUZ_URWOOOWNYWWX[Yafhhhhhhhhhed[^eTTOOLLLLLTYZZZY]^_b[[VXXXdddddd____ddddd; @FSRRS4401EQLIK [length=411] [gc=34.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=374] tcagTTTAATTTGGTGCTTCCTTTCAATTCCTTAGTTTAAACTTGGCACTGAAGTCTCGCATTTATAACTAGAGCCCGGATTTTAGAGGCTAAAAAGTTTTCCAGATTTCAAAATTTATTTCGAAACTATTTTTCTGATTGTGATGTGACGGATTTCTAAATTAAATCGAAATGATGTGTATTGAACTTAACAAGTGATTTTTATCAGATTTTGTCAATGAATAAATTTTAATTTAAATCTCTTTCTAACACTTTCATGATTAAAATCTAACAAAGCGCGACCAGTATGTGAGAAGAGCAAAAACAACAAAAAGTGCTAGCACTAAAGAAGGTTCGAACCCAACACATAACGTAAGAGTTACCGGGAAGAAAACCACTctgagactgccaaggcacacagggggataggnn + hhh^UUU^^ggghhhhhhhhhfffhhhhhhhhhhhfffggghhhhhhhhhhhhhhhhhhhhfffhhhhhhhhhhggghhh____hhhhdhdPPPPOOLLLLQQ^\WLLLYLLLLLLLKKKKRRLLLTYRKLLLLYPaadddghhhhhhhhhhha^^`PQQOOOMMMY^\OQSfhhhhhhhhhhhhhhhhhhdbbgga\NNLKKQP^^[TLOOQ\Ueaa^YX[\PPNSSSSNNLNNVV^^fdhddgh`bbhhhggghhhhhhhbbb`hhhgggggghhhhhhhhhhhhhhhhhhhhhhddPNNLLWQQZLLLLMVVV_dhhhhhh^^^hhhhhhhhhhhggghhhhhhhhhhhhhhhhhhhhXXSQQVVVTTTT`dZhdddddhhhhh^^XVTT]_\\YRKKKKKRRRRU;; @FSRRS4401AOV6A [length=309] [gc=22.98] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=273] tcagTTTTCAAATTTTCCGAAATTTGCTGTTTGGTAGAAGGCAAATTATTTGATTGAATTTTGTATTTATTTAAAACAATTTATTTTAAAATAATAATTTTCCATTGACTTTTTACATTTAATTGATTTTATTATGCATTTTATATTTGTTTTCTAAATATTCGTTTGCAAACTCACGTTGAAATTGTATTAAACTCGAAATTAGAGTTTTTGAAATTAATTTTTATGTAGCATAATATTTTAAACATATTGGAATTTTATAAAACATTATATTTTTctgagactgccaaggcacacagggggataggn + hhhhbbbbhZZZbbbbhhh^^^ggghhhhggghhhhhhhhhhggghhhggghhhhhhh____hehbbbhb``ZZZZdc^a__cUUSSTTTT[[[fhh]]``hhhhhhhhZZZYYhhh^^^bbbhhhZZZZheehhhhhbbbahahddcbSSSS^Saaad^dhhhbgghhZZZghhhhhhggZZZgghhhhhZZZhhhhggghhhhhh]]^^]hddaffYYPPPPNSUeaeaa^\Z\`^XVVVPPPXYd```ccacVVVV\NPPPPQQc`__aUWZZZhWgghhhhhZZZZ^]hdbbbaNNNNNZVST\; @FSRRS4401EG0ZW [length=424] [gc=23.82] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=389] tcagTTTTGATCTTTTAATAATGAATTTTAATGTGTTAAAATGATTGCATTGATGGCATAACCGCATTTAAATTAATTACATGAAGTGTAAGTATGAAATTTTCCTTTCCAAATTGCAAAAACTAAAATTTAAAATTTATCGTAAAAATTAACATATATTTTAAACGATTTTAAGAAACATTTGTAAATTATATTTTTGTGAAGCGTTCAAACAAAAATAAACAATAAAATATTTTTCTATTTAATAGCAAAACATTTGACGATGAAAAGGAAAATGCGGGTTTGAAAATGGGCTTTGCCATGCTATTTTCATAATAACATATTTTTATTATGAATAATAAATTTACATACAATATATACAGTCTTAAATTTATTCATAATATTTTTGAGAATctgagactgccaaggcacacaggggataggn + hh`XSSSTddhh\\\]hhhhhhhhhbbbbhhghhhbbZZZZhhhhhhhhhhhhhhhhhhhhhhhhheZZUUUcchhhhhhhhhhhhhhhhhhhddXSSSQQSS__UUUbb[[acc`\LLLLLQ[KKKKUTXNNOO\\\WbhhhZ]]\\ggZZhhhhhhbb__^^^hhh____hb^UUUghccbh^a^^bb[ddPPPPPaSaccbaZ\_aVVV]NNNNL\RQR^SQRKKKN\PKKKKLYSdZ^^dhhhhhbbbbh]ZZZhhhhhhh[[__^\NNNNV\`XXXWW[[SSTThdddhhhhhhhhhhhhh[XXXghhhhhhhhhhh^^^^^hhhhhhhhhhhb`bZTTTRXdhhhhhhhhhhhhhhhhggXXXgggh`\`ddee_\MMMMM`c___ccddddehhhZZZXVVeebbb_QSSSX^ecc; needletail-0.6.3/tests/specimen/FASTQ/longreads_original_sanger.fastq000064400000000000000000000223721046102023000240320ustar 00000000000000@FSRRS4401BE7HA [length=395] [gc=36.46] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=95] tcagTTAAGATGGGATAATATCCTCAGATTGCGTGATGAACTTTGTTCTGGTGGAGGAGAAGGAAGTGCATTCGACGTAT GCCCGTTTGTCGATATTTGtatttaaagtaatccgtcacaaatcagtgacataaatattatttagatttcgggagcaact ttatttattccacaagcaggtttaaattttaaatttaaattattgcagaagactttaaattaacctcgttgtcggagtca tttgttcggttattggtcgaaagtaaccncgggaagtgccgaaaactaacaaacaaaagaagatagtgaaattttaatta aaanaaatagccaaacgtaactaactaaaacggacccgtcgaggaactgccaacggacgacacagggagtagnnn +FSRRS4401BE7HA [length=395] [gc=36.46] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=95] FFFDDDDDDDA666?688FFHGGIIIIIIIIIIIIIIIIIIHHHIIIIIIIIIGHGFFFFF====DFFFFFFFFFFFFFF D???:3104/76=:5...4.3,,,366////4<;!!! @FSRRS4401BRRTC [length=145] [gc=38.62] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=74] tcagCCAGCAATTCCGACTTAATTGTTCTTCTTCCATCATTCATCTCGACTAACAGTTCTACGATTAATGAGTTTGGCtt taatttgttgttcattattgtcacaattacactactgagactgccaaggcacncagggataggnn +FSRRS4401BRRTC [length=145] [gc=38.62] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=74] FFFFFFFFFDDDDFFFFGFDDDDBAAAAA=<4444@@B=555:BBBBB@@?8:8<<;;;;9944/!/4,,,57855!! @FSRRS4401B64ST [length=382] [gc=40.58] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=346] tcagTTTTCTTAAATTACTTGAATCTGTTGAAGTGGATGTCCACTTTTGTATGCCAAATATGCCCAGCGTATACGATCTT GGCCACATCTCCACATAATCATCAGTCGGATGCAAAAAGCGATTAAACTAAAAATGAATGCGTTTTTAGATGAGTAAATA GGTAATACTTTGTTTAAATAATAAATGTCACAAACAGAACGCGGATTACAGTACCTGAAAATAGTTGTACTGTATCTGTG CCGGCACTTCCTCGGCCCTGAGAAGTTGTCCCGTTGTTTCCATTCGCACCATCCAATGGCCAAAGTTTGCGAAGAATCTG TTCCGTTCCATTACCAATTGTTTTTCCATGctgagactgccaaggcacacaggggataggnn +FSRRS4401B64ST [length=382] [gc=40.58] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=346] IIIICCCCI??666IIIIIIIIIIIIIIIIIIIIIIIIIIIIII6666IAIIIII???IIIICCCIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII66333EICE::338=/----,8=>>??:2-////7>CEEIEIHHHII IIIIIIIE;;9911199B???IBCHIIIIIIHHHIIHHHIIIIIIIIIIIIIIIIIIBBCCIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIGGGIIIIIIIIID?===DIIIHHHIIIIIIIIIHHHIIIIIIIIIIHHHIHHHIIIIIIIIIIII IIIIIIIIII?>;9988==5----.@@AEGIIIIIIIIIHH????EIIIFF999;EIIBB!! @FSRRS4401EJ0YH [length=381] [gc=48.29] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=343] tcagTTTTTGGAGAATTCCGTCAGGGACGGCATGGCATATTTGTGGGTTCGGCACGGCGTCCTGGCCAAGAAGAAGAAGA CGAATTAGCCCGTTAATTTAATGACACCTTCCCCAATTTTGCAGCAATGATTGGTTCATTCTTGGCGGTGCGTTTTTGTG CTTCGTCGAATTGTTGGCCATTTTGGTCCACCGGCCATCATCTTTACGCTATCCGACTGATTGGAAATCACCGCCTAGCA TTTTGCCGAAGATTGTTGCGTTGTACGGCCATGTGCTGATTGTTTACATTGGCATTCTTGGCAATTTGTCCTTGGTCGGC TTTGACGGCAAATTTGCGGTGTTAAGTctgagactgccaaggcacacagggggatagggnn +FSRRS4401EJ0YH [length=381] [gc=48.29] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=343] IIII?????IIIIIIIIIIIIIIHHHIIIIIIIIIIIIIHHHIIHHHIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIHHHIIIIIHHHIIIIIIIIIIIAAAAII>>>>IIIIIIIIIIIIIIIIIIIIIIIIIIEEIEE;33333D7I IIIIIIIIIIIIIIIIIIIICC@@HHIIIIIIIIIIIIIIIIHHHIIIIIIIIIIIIIIIIIIIHHHIIIIIIIIIIIII BBBBIHCDCHIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIHHHIIIHHCCDIIIIIIHHHIICCCH=CCIIIIIIIII GGGIIIIIIHHHHHHIIIIIIIIIIIIIIIHHHIIHHE??>>?EFEE?/////;:80--!! @FSRRS4401BK0IB [length=507] [gc=49.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=208] tcagTTGACCGGCGTTGTGTAACAATAATTCATTATTCTGAGACGATGCCAATGTAATCGACGGTTTATGCCCAATTATT CCCATCTATGCTTAACTGATCAAATACTATTTGCATTACGTCACGAAATTGCGCGAACACCGCCGGCCGACAATAATTTA TACCGGACATACCGGAGTTGATGGTAATCGGTAAAGAGTTTTATTTAATTATntattatcnctattaattattgttanca acaatgtgcacgctntgccgcccgccgccgccgtgtcggtaggaccccggacggacccggacccggttcgggtacccgtt ttcgggttcccggaaccgtttttcgggtacccggttttttcggggggccccccggtaaaaaaccggggaaccccctaaaa cgggtaaacgtaccgtaagggaccccctaaacgggggccccgaaaaaccgggacccaaaccggggggaaacggttaaagg ggggggaagtaggngnnnnnnnnnnnn +FSRRS4401BK0IB [length=507] [gc=49.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=208] FFFA@@FFFFFFFFFFHHB:::@BFFFFGGHIHIIIIIIIIIIIIIIIIIIIIIIIFFFFFFFFF?=BA@11188011<< 88;?AABDDC???DDAAAADA666D?DDD=====AA>?>><<<=<11188<>?@@1114 2::DDA???DFFFFFFFFFFFFFBAAAA<<0000.22=////8,--111111!23--/24!37:6666<;822/..4!46 521177553.-.23!231121112,,-,,211==5------,12,,,,,,-,,,-1,,,,-,,155--,,,,13111.,, ,,,,,,++111..11..1,,,,,,,,,+3,,,,,--22-----//----55//**/--22--**,,,,**,,,,,,.1., *,,,,***,,,,,,,,,,,,,,,,,,,,,,,),,-,,,,,,),,,,,**//.),,,///,,,,,,,,,,,.))33---,, ,,,,,,,,(0,,,!.!!!!!!!!!!!! @FSRRS4401ARCCB [length=258] [gc=46.90] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=193] tcagTTATTGCAGTCGTTCCGCGCCATCGCCGGTAACCGTCCGCGTGTTATTCTGTGTATCGGCCAACCTTCGTATAACT TCGTATAATGTATGCTATACGAAGTTATTACGATCTATACCGGCGAAACTCAGCCGAAAGGTCTCGCGGTAGAGCCTATG AGCTGCCCGACCGATGCATTTAAATTTCCGGGGATCGtcgctgatctgagactgccaaaggcacactagggggataggnn nnnnnnnnnnnnnnnnnn +FSRRS4401ARCCB [length=258] [gc=46.90] [flows=800] [phred_min=0] [phred_max=38] [trimmed_length=193] FFF<8::@DFFFFFFFGGFDCAAAAAB@@000046<;66322366762243348<<=??4445::>ABAAA@<<==B=:5 55:BBD??=BDDDDFFFCCCCCCCFFCDDDFFFFFDBAA==88880004><<<99688;889<889?BBBBA=???DDBB B@@??88889---237771,,,,,,,,--1152<<00158A@><<<<<43277711,,,--37===75,----34666!! !!!!!!!!!!!!!!!!!! @FSRRS4401CM938 [length=453] [gc=44.15] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=418] tcagGTTTTAAATCGCTTTCCAAGGAATTTGAGTCTAAATCCGGTGGATCCCATCAGTACAAATGCGGCGACAAGGCCGT GAAAACACTGCTTAATTCTTTGCACTTTTTGGCCACCTTTTTGGAAATGTTGTTTTGTGTTCTCAAAATTTTCCATCTCA GAACAAACATTCCATCGGGCTGATGTTGTGGCTTTTGGCGCGCGAAGTGCTGCTACTGCGCGGCAAAATCAGTCGCCAGA CCGGTTTTGTTGTGGACGACAAAGTGATCATGCCTGACTTGTACTTCTACCGCGATCCGCAAGCGCGAATTGGTCACATA GTTATAGAATTTTTGAGCCTTTTTCTTGACATAAAAAGTGTGGTTTTAAAAATTTCCTGGCAGGACCCACGCCAACGTTC AGGAATAATATCTTTTAAAAAGctgagactgccaaggcacacaggggataggn +FSRRS4401CM938 [length=453] [gc=44.15] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=418] IIIIICC>>666IIIICCCIIIIIIIIHHHIIIIIG666IIIIIIIIIIHHHIIIIIIIICCCIIIIIIIIIIIIIIIII I@@@@IIIIIIIIIIIIIHHHIIII???=;IIEEI:://///7544:?IBB72244E8EECEBC=@@@@@@@HHIIIIII IIIIBBBIIIIIIIIIHHHIIIIIIIIIIIIICCCCIIIIIIIIIIIIIIIIIIIIIIIIIIII6666DEIIHEB??D@7 77772222D89EEIIIIIIIHHHIIIIIIIIHHHIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIHHHIIIIII IIIIIIIII==?==IIIII???=;I63DDD82--,,,38==::----,,---+++33066;@6380008/:889<:BGII IIIIIIIFE?@C<<7999EEEEEE@@@@EEEEE! @FSRRS4401EQLIK [length=411] [gc=34.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=374] tcagTTTAATTTGGTGCTTCCTTTCAATTCCTTAGTTTAAACTTGGCACTGAAGTCTCGCATTTATAACTAGAGCCCGGA TTTTAGAGGCTAAAAAGTTTTCCAGATTTCAAAATTTATTTCGAAACTATTTTTCTGATTGTGATGTGACGGATTTCTAA ATTAAATCGAAATGATGTGTATTGAACTTAACAAGTGATTTTTATCAGATTTTGTCAATGAATAAATTTTAATTTAAATC TCTTTCTAACACTTTCATGATTAAAATCTAACAAAGCGCGACCAGTATGTGAGAAGAGCAAAAACAACAAAAAGTGCTAG CACTAAAGAAGGTTCGAACCCAACACATAACGTAAGAGTTACCGGGAAGAAAACCACTctgagactgccaaggcacacag ggggataggnn +FSRRS4401EQLIK [length=411] [gc=34.31] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=374] III?666??HHHIIIIIIIIIGGGIIIIIIIIIIIGGGHHHIIIIIIIIIIIIIIIIIIIIGGGIIIIIIIIIIHHHIII @@@@IIIIEIE111100----22?=8---:-------,,,,33---5:3,----:1BBEEEHIIIIIIIIIIIB??A122 000...:?=024GIIIIIIIIIIIIIIIIIIECCHHB=//-,,21??<5-002=6FBB?:9<=11/4444//-//77??G EIEEHIACCIIIHHHIIIIIIICCCAIIIHHHHHHIIIIIIIIIIIIIIIIIIIIIIEE1//--822;----.777@EII IIII???IIIIIIIIIIIHHHIIIIIIIIIIIIIIIIIIII994227775555AE;IEEEEEIIIII??9755>@==:3, ,,,,33336!! @FSRRS4401AOV6A [length=309] [gc=22.98] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=273] tcagTTTTCAAATTTTCCGAAATTTGCTGTTTGGTAGAAGGCAAATTATTTGATTGAATTTTGTATTTATTTAAAACAAT TTATTTTAAAATAATAATTTTCCATTGACTTTTTACATTTAATTGATTTTATTATGCATTTTATATTTGTTTTCTAAATA TTCGTTTGCAAACTCACGTTGAAATTGTATTAAACTCGAAATTAGAGTTTTTGAAATTAATTTTTATGTAGCATAATATT TTAAACATATTGGAATTTTATAAAACATTATATTTTTctgagactgccaaggcacacagggggataggn +FSRRS4401AOV6A [length=309] [gc=22.98] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=273] IIIICCCCI;;;CCCCIII???HHHIIIIHHHIIIIIIIIIIHHHIIIHHHIIIIIII@@@@IFICCCICAA;;;;ED?B @@D66445555<<>AAIIIIIIII;;;::III???CCCIII;;;;IFFIIIIICCCBIBIEEDC4444?4BBBE? EIIICHHII;;;HIIIIIIHH;;;HHIIIII;;;IIIIHHHIIIIII>>??>IEEBGG::1111/46FBFBB?=;=A?97 771119:EAAADDBD7777=/111122DA@@B68;;;I8HHIIIII;;;;?>IECCCB/////;745=! @FSRRS4401EG0ZW [length=424] [gc=23.82] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=389] tcagTTTTGATCTTTTAATAATGAATTTTAATGTGTTAAAATGATTGCATTGATGGCATAACCGCATTTAAATTAATTAC ATGAAGTGTAAGTATGAAATTTTCCTTTCCAAATTGCAAAAACTAAAATTTAAAATTTATCGTAAAAATTAACATATATT TTAAACGATTTTAAGAAACATTTGTAAATTATATTTTTGTGAAGCGTTCAAACAAAAATAAACAATAAAATATTTTTCTA TTTAATAGCAAAACATTTGACGATGAAAAGGAAAATGCGGGTTTGAAAATGGGCTTTGCCATGCTATTTTCATAATAACA TATTTTTATTATGAATAATAAATTTACATACAATATATACAGTCTTAAATTTATTCATAATATTTTTGAGAATctgagac tgccaaggcacacaggggataggn +FSRRS4401EG0ZW [length=424] [gc=23.82] [flows=800] [phred_min=0] [phred_max=40] [trimmed_length=389] IIA94445EEII===>IIIIIIIIICCCCIIHIIICC;;;;IIIIIIIIIIIIIIIIIIIIIIIIIF;;666DDIIIIII IIIIIIIIIIIIIEE94442244@@666CC<>==HH;;IIIIIICC @@???III@@@@IC?666HIDDCI?B??CC////-=323?423,,,/=1,,,,-:4E ;??EIIIIICCCCI>;;;IIIIIII<<@@?=////7=A99988<<4455IEEEIIIIIIIIIIIII<999HIIIIIIIII II?????IIIIIIIIIIICAC;55539EIIIIIIIIIIIIIIIIHH999HHHIA=AEEFF@=.....AD@@@DDEEEEFI II;;;977FFCCC@24449?FDD! needletail-0.6.3/tests/specimen/FASTQ/misc_dna_as_illumina.fastq000064400000000000000000000013771046102023000227650ustar 00000000000000@FAKE0007 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTA + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0008 Original version has mixed case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) gTcatAGcgTcatAGcgTcatAGcgTcatAGcgTcatAGcg + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0009 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) tcagtcagtcagtcagtcagtcagtcagtcagtcagtcagt + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0010 Original version has mixed case ambiguous DNA and PHRED scores of 40, 30, 20, 10 (cycled) gatcrywsmkhbvdnGATCRYWSMKHBVDN + h^TJh^TJh^TJh^TJh^TJh^TJh^TJh^ needletail-0.6.3/tests/specimen/FASTQ/misc_dna_as_sanger.fastq000064400000000000000000000013771046102023000224320ustar 00000000000000@FAKE0007 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTA + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0008 Original version has mixed case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) gTcatAGcgTcatAGcgTcatAGcgTcatAGcgTcatAGcg + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0009 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) tcagtcagtcagtcagtcagtcagtcagtcagtcagtcagt + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0010 Original version has mixed case ambiguous DNA and PHRED scores of 40, 30, 20, 10 (cycled) gatcrywsmkhbvdnGATCRYWSMKHBVDN + I?5+I?5+I?5+I?5+I?5+I?5+I?5+I? needletail-0.6.3/tests/specimen/FASTQ/misc_dna_as_solexa.fastq000064400000000000000000000013771046102023000224460ustar 00000000000000@FAKE0007 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTA + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0008 Original version has mixed case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) gTcatAGcgTcatAGcgTcatAGcgTcatAGcgTcatAGcg + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0009 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) tcagtcagtcagtcagtcagtcagtcagtcagtcagtcagt + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0010 Original version has mixed case ambiguous DNA and PHRED scores of 40, 30, 20, 10 (cycled) gatcrywsmkhbvdnGATCRYWSMKHBVDN + h^TJh^TJh^TJh^TJh^TJh^TJh^TJh^ needletail-0.6.3/tests/specimen/FASTQ/misc_dna_original_sanger.fastq000064400000000000000000000013771046102023000236330ustar 00000000000000@FAKE0007 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTA + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0008 Original version has mixed case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) gTcatAGcgTcatAGcgTcatAGcgTcatAGcgTcatAGcg + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0009 Original version has lower case unambiguous DNA with PHRED scores from 0 to 40 inclusive (in that order) tcagtcagtcagtcagtcagtcagtcagtcagtcagtcagt + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0010 Original version has mixed case ambiguous DNA and PHRED scores of 40, 30, 20, 10 (cycled) gatcrywsmkhbvdnGATCRYWSMKHBVDN + I?5+I?5+I?5+I?5+I?5+I?5+I?5+I? needletail-0.6.3/tests/specimen/FASTQ/misc_rna_as_illumina.fastq000064400000000000000000000014061046102023000227740ustar 00000000000000@FAKE0011 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ACGUACGUACGUACGUACGUACGUACGUACGUACGUACGUA + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0012 Original version has mixed case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) gUcauAGcgUcauAGcgUcauAGcgUcauAGcgUcauAGcg + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0013 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ucagucagucagucagucagucagucagucagucagucagu + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0014 Original version has mixed case ambiguous RNA with PHRED scores from 35 to 40 inclusive (cycled) gaucrywsmkhbvdnGAUCRYWSMKHBVDN + cdefghcdefghcdefghcdefghcdefgh needletail-0.6.3/tests/specimen/FASTQ/misc_rna_as_sanger.fastq000064400000000000000000000014061046102023000224410ustar 00000000000000@FAKE0011 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ACGUACGUACGUACGUACGUACGUACGUACGUACGUACGUA + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0012 Original version has mixed case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) gUcauAGcgUcauAGcgUcauAGcgUcauAGcgUcauAGcg + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0013 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ucagucagucagucagucagucagucagucagucagucagu + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0014 Original version has mixed case ambiguous RNA with PHRED scores from 35 to 40 inclusive (cycled) gaucrywsmkhbvdnGAUCRYWSMKHBVDN + DEFGHIDEFGHIDEFGHIDEFGHIDEFGHI needletail-0.6.3/tests/specimen/FASTQ/misc_rna_as_solexa.fastq000064400000000000000000000014061046102023000224550ustar 00000000000000@FAKE0011 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ACGUACGUACGUACGUACGUACGUACGUACGUACGUACGUA + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0012 Original version has mixed case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) gUcauAGcgUcauAGcgUcauAGcgUcauAGcgUcauAGcg + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0013 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ucagucagucagucagucagucagucagucagucagucagu + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefgh @FAKE0014 Original version has mixed case ambiguous RNA with PHRED scores from 35 to 40 inclusive (cycled) gaucrywsmkhbvdnGAUCRYWSMKHBVDN + cdefghcdefghcdefghcdefghcdefgh needletail-0.6.3/tests/specimen/FASTQ/misc_rna_original_sanger.fastq000064400000000000000000000014061046102023000236420ustar 00000000000000@FAKE0011 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ACGUACGUACGUACGUACGUACGUACGUACGUACGUACGUA + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0012 Original version has mixed case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) gUcauAGcgUcauAGcgUcauAGcgUcauAGcgUcauAGcg + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0013 Original version has lower case unambiguous RNA with PHRED scores from 0 to 40 inclusive (in that order) ucagucagucagucagucagucagucagucagucagucagu + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHI @FAKE0014 Original version has mixed case ambiguous RNA with PHRED scores from 35 to 40 inclusive (cycled) gaucrywsmkhbvdnGAUCRYWSMKHBVDN + DEFGHIDEFGHIDEFGHIDEFGHIDEFGHI needletail-0.6.3/tests/specimen/FASTQ/sanger_93.fastq000064400000000000000000000003551046102023000204200ustar 00000000000000@Test PHRED qualities from 93 to 0 inclusive ACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGACTGAN + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"! needletail-0.6.3/tests/specimen/FASTQ/sanger_faked.fastq000064400000000000000000000002031046102023000212270ustar 00000000000000@Test PHRED qualities from 40 to 0 inclusive ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTN + IHGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"! needletail-0.6.3/tests/specimen/FASTQ/sanger_full_range_as_illumina.fastq000064400000000000000000000010461046102023000246560ustar 00000000000000@FAKE0001 Original version has PHRED scores from 0 to 93 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTAC + @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @FAKE0002 Original version has PHRED scores from 93 to 0 inclusive (in that order) CATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@ needletail-0.6.3/tests/specimen/FASTQ/sanger_full_range_as_sanger.fastq000064400000000000000000000010461046102023000243230ustar 00000000000000@FAKE0001 Original version has PHRED scores from 0 to 93 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTAC + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0002 Original version has PHRED scores from 93 to 0 inclusive (in that order) CATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"! needletail-0.6.3/tests/specimen/FASTQ/sanger_full_range_as_solexa.fastq000064400000000000000000000010461046102023000243370ustar 00000000000000@FAKE0001 Original version has PHRED scores from 0 to 93 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTAC + ;;>@BCEFGHJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ @FAKE0002 Original version has PHRED scores from 93 to 0 inclusive (in that order) CATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJHGFECB@>;; needletail-0.6.3/tests/specimen/FASTQ/sanger_full_range_original_sanger.fastq000064400000000000000000000010461046102023000255240ustar 00000000000000@FAKE0001 Original version has PHRED scores from 0 to 93 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTAC + !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0002 Original version has PHRED scores from 93 to 0 inclusive (in that order) CATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876543210/.-,+*)('&%$#"! needletail-0.6.3/tests/specimen/FASTQ/solexa_example.fastq000064400000000000000000000011401046102023000216250ustar 00000000000000@SLXA-B3_649_FC8437_R1_1_1_610_79 GATGTGCAATACCTTTGTAGAGGAA +SLXA-B3_649_FC8437_R1_1_1_610_79 YYYYYYYYYYYYYYYYYYWYWYYSU @SLXA-B3_649_FC8437_R1_1_1_397_389 GGTTTGAGAAAGAGAAATGAGATAA +SLXA-B3_649_FC8437_R1_1_1_397_389 YYYYYYYYYWYYYYWWYYYWYWYWW @SLXA-B3_649_FC8437_R1_1_1_850_123 GAGGGTGTTGATCATGATGATGGCG +SLXA-B3_649_FC8437_R1_1_1_850_123 YYYYYYYYYYYYYWYYWYYSYYYSY @SLXA-B3_649_FC8437_R1_1_1_362_549 GGAAACAAAGTTTTTCTCAACATAG +SLXA-B3_649_FC8437_R1_1_1_362_549 YYYYYYYYYYYYYYYYYYWWWWYWY @SLXA-B3_649_FC8437_R1_1_1_183_714 GTATTATTTAATGGCATACACTCAA +SLXA-B3_649_FC8437_R1_1_1_183_714 YYYYYYYYYYWYYYYWYWWUWWWQQ needletail-0.6.3/tests/specimen/FASTQ/solexa_faked.fastq000064400000000000000000000002101046102023000212410ustar 00000000000000@slxa_0001_1_0001_01 ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTNNNNNN +slxa_0001_1_0001_01 hgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<; needletail-0.6.3/tests/specimen/FASTQ/solexa_full_range_as_illumina.fastq000064400000000000000000000007021046102023000246700ustar 00000000000000@FAKE0003 Original version has Solexa scores from -5 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGT + AABBCCDDEEFGHIJJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0004 Original version has Solexa scores from 62 to -5 inclusive (in that order) TGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJJIHGFEEDDCCBBAA needletail-0.6.3/tests/specimen/FASTQ/solexa_full_range_as_sanger.fastq000064400000000000000000000007021046102023000243350ustar 00000000000000@FAKE0003 Original version has Solexa scores from -5 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGT + ""##$$%%&&'()*++,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_ @FAKE0004 Original version has Solexa scores from 62 to -5 inclusive (in that order) TGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + _^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<;:9876543210/.-,++*)('&&%%$$##"" needletail-0.6.3/tests/specimen/FASTQ/solexa_full_range_as_solexa.fastq000064400000000000000000000007021046102023000243510ustar 00000000000000@FAKE0003 Original version has Solexa scores from -5 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGT + ;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0004 Original version has Solexa scores from 62 to -5 inclusive (in that order) TGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<; needletail-0.6.3/tests/specimen/FASTQ/solexa_full_range_original_solexa.fastq000064400000000000000000000007021046102023000255520ustar 00000000000000@FAKE0003 Original version has Solexa scores from -5 to 62 inclusive (in that order) ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGT + ;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ @FAKE0004 Original version has Solexa scores from 62 to -5 inclusive (in that order) TGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCATGCA + ~}|{zyxwvutsrqponmlkjihgfedcba`_^]\[ZYXWVUTSRQPONMLKJIHGFEDCBA@?>=<; needletail-0.6.3/tests/specimen/FASTQ/tricky.fastq000064400000000000000000000007121046102023000201300ustar 00000000000000@071113_EAS56_0053:1:1:998:236 TTTCTTGCCCCCATAGACTGAGACCTTCCCTAAATA +071113_EAS56_0053:1:1:998:236 IIIIIIIIIIIIIIIIIIIIIIIIIIIIICII+III @071113_EAS56_0053:1:1:182:712 ACCCAGCTAATTTTTGTATTTTTGTTAGAGACAGTG + @IIIIIIIIIIIIIIICDIIIII<%<6&-*).(*%+ @071113_EAS56_0053:1:1:153:10 TGTTCTGAAGGAAGGTGTGCGTGCGTGTGTGTGTGT + IIIIIIIIIIIICIIGIIIII>IAIIIE65I=II:6 @071113_EAS56_0053:1:3:990:501 TGGGAGGTTTTATGTGGA AAGCAGCAATGTACAAGA + IIIIIII.IIIIII1@44 @-7.%<&+/$/%4(++(% needletail-0.6.3/tests/specimen/FASTQ/wrapping_as_illumina.fastq000064400000000000000000000017031046102023000230300ustar 00000000000000@SRR014849.50939 EIXKN4201BA2EC length=135 GAAATTTCAGGGCCACCTTTTTTTTGATAGAATAATGGAGAAAATTAAAAGCTGTACATATACCAATGAACAATAAATCAATACATAAAAAAGGAGAAGTTGGAACCGAAAGGGTTTGAATTCAAACCCTTTCGG + Zb^Ld`N\[d`NaZ[aZc]UOKHDA[\YT[_W[aZ\aZ[Zd`SF_WeaUI[Y\[[\\\[\Z\aY`X[[aZ\aZ\d`OY[aY[[\[[e`WPJC^UZ[`X\[R]T_V_W[`[Ga\I`\H[[Q^TVa\Ia\Ic^LY\S @SRR014849.110027 EIXKN4201APUB0 length=131 CTTCAAATGATTCCGGGACTGTTGGAACCGAAAGGGTTTGAATTCAAACCCTTTTCGGTTCCAACTCGCCGTCCGAATAATCCGTTCAAAATCTTGGCCTGTCAAAACGACTTTACGACCAGAACGATCCG + \aYY_[FY\T`X^Vd`OY\[[^U_V[R^T[_ZDc^La\HYYO\S[c^Ld`Nc_QAZaZaYaY`XZZ\[aZZ[aZ[aZ[aZY`Z[`ZWeaVJ\[aZaY`X[PY\eaUG[\[[d`OXTUZ[Q\\`W\\\Y_W\ @SRR014849.203935 EIXKN4201B4HU6 length=144 AACCCGTCCCATCAAAGATTTTGGTTGGAACCCGAAAGGGTTTTGAATTCAAACCCCTTTCGGTTCCAACTATTCAATTGTTTAACTTTTTTTAAATTGATGGTCTGTTGGACCATTTGTAATAATCCCCATCGGAATTTCTTT + `Z_ZDVT^YB[[Xd`PZ\d`RDaZaZ`ZaZ_ZDXd`Pd`Pd`RD[aZ`ZWd`Oc_RCd`P\aZ`ZaZaZY\YaZYaY`XYd`O`X[e`WPJEAc^LaZS[YYN[Z\Y`XWLT^U\b]JW[[RZ\SYc`RD[Z\WLXM`\HYa\I needletail-0.6.3/tests/specimen/FASTQ/wrapping_as_sanger.fastq000064400000000000000000000017031046102023000224750ustar 00000000000000@SRR014849.50939 EIXKN4201BA2EC length=135 GAAATTTCAGGGCCACCTTTTTTTTGATAGAATAATGGAGAAAATTAAAAGCTGTACATATACCAATGAACAATAAATCAATACATAAAAAAGGAGAAGTTGGAACCGAAAGGGTTTGAATTCAAACCCTTTCGG + ;C?-EA/=60,)%"<=:5<@85@7@8+8<<3;=4:DA3%<;=8-9.A=):B=* needletail-0.6.3/tests/specimen/FASTQ/wrapping_as_solexa.fastq000064400000000000000000000017031046102023000225110ustar 00000000000000@SRR014849.50939 EIXKN4201BA2EC length=135 GAAATTTCAGGGCCACCTTTTTTTTGATAGAATAATGGAGAAAATTAAAAGCTGTACATATACCAATGAACAATAAATCAATACATAAAAAAGGAGAAGTTGGAACCGAAAGGGTTTGAATTCAAACCCTTTCGG + Zb^Ld`N\[d`NaZ[aZc]UOKGB;[\YT[_W[aZ\aZ[Zd`SE_WeaUH[Y\[[\\\[\Z\aY`X[[aZ\aZ\d`OY[aY[[\[[e`WPJ@^UZ[`X\[R]T_V_W[`[Fa\H`\G[[Q^TVa\Ha\Hc^LY\S @SRR014849.110027 EIXKN4201APUB0 length=131 CTTCAAATGATTCCGGGACTGTTGGAACCGAAAGGGTTTGAATTCAAACCCTTTTCGGTTCCAACTCGCCGTCCGAATAATCCGTTCAAAATCTTGGCCTGTCAAAACGACTTTACGACCAGAACGATCCG + \aYY_[EY\T`X^Vd`OY\[[^U_V[R^T[_ZBc^La\GYYO\S[c^Ld`Nc_Q;ZaZaYaY`XZZ\[aZZ[aZ[aZ[aZY`Z[`ZWeaVJ\[aZaY`X[PY\eaUF[\[[d`OXTUZ[Q\\`W\\\Y_W\ @SRR014849.203935 EIXKN4201B4HU6 length=144 AACCCGTCCCATCAAAGATTTTGGTTGGAACCCGAAAGGGTTTTGAATTCAAACCCCTTTCGGTTCCAACTATTCAATTGTTTAACTTTTTTTAAATTGATGGTCTGTTGGACCATTTGTAATAATCCCCATCGGAATTTCTTT + `Z_ZBVT^Y>[[Xd`PZ\d`RBaZaZ`ZaZ_ZBXd`Pd`Pd`RB[aZ`ZWd`Oc_R@d`P\aZ`ZaZaZY\YaZYaY`XYd`O`X[e`WPJC;c^LaZS[YYN[Z\Y`XWLT^U\b]JW[[RZ\SYc`RB[Z\WLXM`\GYa\H needletail-0.6.3/tests/specimen/FASTQ/wrapping_original_sanger.fastq000064400000000000000000000017171046102023000237030ustar 00000000000000@SRR014849.50939 EIXKN4201BA2EC length=135 GAAATTTCAGGGCCACCTTTTTTTTGATAGAATAATGGAGAAAATTAAAAGCTGTACATATACCAATGAACAATAAATCAATACATAAAAAAGGAGAAGTTGGAACCGAAAGGGTTTGAATTCAAACCCTTTCGG + ;C?-EA/=60,)%"<=:5< @85@7@8+8< <3;=4:DA3%<;=8-9.A=):B=* needletail-0.6.3/tests/specimen/FASTQ/zero_length.fastq000064400000000000000000000012241046102023000211420ustar 00000000000000@EMWLCP001DET6P CCCATCATTTATAATTTTAACACGTCCTAGCGTGTAATCTACGGTAT + NA+??K=????;>?>K==????K>?>; @EMWLCP001CB6TP CAGAGTTGCAAGTGCCGGTAATCGCCCTCTCACAGCTGAACCGTGGGCCAGAGCAGCGAGCCGACAAGATGCCGGCCCTGAGCGACCTGCGTGAGTCGGGTTCGCTCGAGCAAGACGCCGACCTAGT + ?;??>K>?>K>=??K>K>?K>?>>K>K>>?RD1K>??>>??????>J=???><=K>J=PC.??>?>?=I=>>?;=:=?;>?>?K=>4<>F8>>?= @EMWLCP001DHOHL + @EMWLCP001C1YIG CAGAGGCAAAATGAGAAGGCAGAAAGGGATAGGAGCTG + >??;I;?TD4%>>>?E7G9=>?PC.PC.>?>?K @EMWLCP001AOVPY CAGTCGGACAGGCGCAGTTCATGGCGGCGCGAGCACACCGTTTCGCCCAGGTAGACGATGTCCACAGG + >>>???K>??>??K><=?K>?K>????=RD1>>?=>?=????K>?>>K= needletail-0.6.3/tests/specimen/LICENSE.md000064400000000000000000000235641046102023000163230ustar 00000000000000This folder contains data taken from a number of sources. Licences are reproduced below, and the origin of each specimen is listed in the index file. # Biopython ``` Biopython License Agreement Permission to use, copy, modify, and distribute this software and its documentation with or without modifications and for any purpose and without fee is hereby granted, provided that any copyright notices appear in all copies and that both those copyright notices and this permission notice appear in supporting documentation, and that the names of the contributors or copyright holders not be used in advertising or publicity pertaining to distribution of the software without specific prior permission. 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The End ```needletail-0.6.3/tests/test_compressed.rs000064400000000000000000000024071046102023000166560ustar 00000000000000use needletail::parse_fastx_file; const TEST_FILES: [&str; 4] = [ "./tests/data/test.fa.gz", "./tests/data/test.fa.bz2", "./tests/data/test.fa.xz", "./tests/data/test.fa.zst", ]; #[cfg(feature = "compression")] #[test] fn can_read_compressed_files_automatically() { use needletail::parser::Format; for p in &TEST_FILES { let mut reader = parse_fastx_file(p).unwrap(); let mut i = 0; while let Some(record) = reader.next() { let seq = record.unwrap(); assert_eq!(seq.format(), Format::Fasta); match i { 0 => { assert_eq!(seq.id(), b"test"); assert_eq!(seq.raw_seq(), b"AGCTGATCGA"); assert_eq!(seq.qual(), None); } 1 => { assert_eq!(seq.id(), b"test2"); assert_eq!(seq.raw_seq(), b"TAGC"); assert_eq!(seq.qual(), None); } _ => unreachable!("Too many records"), } i += 1; } assert_eq!(i, 2); } } #[cfg(not(feature = "compression"))] #[test] fn errors_on_compressed_files() { for p in &TEST_FILES { assert!(parse_fastx_file(p).is_err()); } } needletail-0.6.3/tests/test_stdin.rs000064400000000000000000000111361046102023000156320ustar 00000000000000use std::io::{Seek, SeekFrom, Write}; use assert_cmd::prelude::*; use predicates::str::contains; #[cfg(feature = "compression")] #[test] fn test_stdin_gz() { // Generated with `echo ">id1\nAGTCGTCA" | gzip -c | xxd -i` let input: &[u8] = &[ 0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0xb3, 0xcb, 0x4c, 0x31, 0xe4, 0x72, 0x74, 0x0f, 0x71, 0x06, 0x22, 0x47, 0x2e, 0x00, 0x9e, 0x3a, 0x32, 0x8c, 0x0e, 0x00, 0x00, 0x00, ]; let mut file = tempfile::NamedTempFile::new().unwrap(); file.write_all(input).unwrap(); file.flush().unwrap(); file.seek(SeekFrom::Start(0)).unwrap(); escargot::CargoBuild::new() .example("stdin_pipe") .current_release() .current_target() .run() .unwrap() .command() .stdin(file.into_file()) .assert() .success() .stdout(contains("There are 8 bases in your file")) .stdout(contains("There are 0 AAAAs in your file")); } #[cfg(feature = "compression")] #[test] fn test_stdin_xz() { // Generated with `echo ">id1\nAGTCGTCA" | xz -c | xxd -i` let input: &[u8] = &[ 0xfd, 0x37, 0x7a, 0x58, 0x5a, 0x00, 0x00, 0x04, 0xe6, 0xd6, 0xb4, 0x46, 0x02, 0x00, 0x21, 0x01, 0x16, 0x00, 0x00, 0x00, 0x74, 0x2f, 0xe5, 0xa3, 0x01, 0x00, 0x0d, 0x3e, 0x69, 0x64, 0x31, 0x0a, 0x41, 0x47, 0x54, 0x43, 0x47, 0x54, 0x43, 0x41, 0x0a, 0x00, 0x00, 0x00, 0x12, 0x0f, 0x91, 0x75, 0xef, 0x7b, 0x63, 0x17, 0x00, 0x01, 0x26, 0x0e, 0x08, 0x1b, 0xe0, 0x04, 0x1f, 0xb6, 0xf3, 0x7d, 0x01, 0x00, 0x00, 0x00, 0x00, 0x04, 0x59, 0x5a, ]; let mut file = tempfile::NamedTempFile::new().unwrap(); file.write_all(input).unwrap(); file.flush().unwrap(); file.seek(SeekFrom::Start(0)).unwrap(); escargot::CargoBuild::new() .example("stdin_pipe") .current_release() .current_target() .run() .unwrap() .command() .stdin(file.into_file()) .assert() .success() .stdout(contains("There are 8 bases in your file")) .stdout(contains("There are 0 AAAAs in your file")); } #[cfg(feature = "compression")] #[test] fn test_stdin_bzip() { // Generated with `echo ">id1\nAGTCGTCA" | bzip2 -c | xxd -i` let input: &[u8] = &[ 0x42, 0x5a, 0x68, 0x39, 0x31, 0x41, 0x59, 0x26, 0x53, 0x59, 0x9f, 0x9d, 0xf9, 0xa2, 0x00, 0x00, 0x01, 0xcf, 0x00, 0x00, 0x10, 0x20, 0x01, 0x28, 0x80, 0x04, 0x00, 0x04, 0x20, 0x20, 0x00, 0x22, 0x0c, 0x9a, 0x64, 0x20, 0xc9, 0x88, 0x21, 0x95, 0x8e, 0x82, 0x75, 0x27, 0x8b, 0xb9, 0x22, 0x9c, 0x28, 0x48, 0x4f, 0xce, 0xfc, 0xd1, 0x00, ]; let mut file = tempfile::NamedTempFile::new().unwrap(); file.write_all(input).unwrap(); file.flush().unwrap(); file.seek(SeekFrom::Start(0)).unwrap(); escargot::CargoBuild::new() .example("stdin_pipe") .current_release() .current_target() .run() .unwrap() .command() .stdin(file.into_file()) .assert() .success() .stdout(contains("There are 8 bases in your file")) .stdout(contains("There are 0 AAAAs in your file")); } #[cfg(feature = "compression")] #[test] fn test_stdin_zstd() { // Generated with `echo ">id1\nAGTCGTCA" | zstd -c | xxd -i` let input: &[u8] = &[ 0x28, 0xb5, 0x2f, 0xfd, 0x04, 0x58, 0x71, 0x00, 0x00, 0x3e, 0x69, 0x64, 0x31, 0x0a, 0x41, 0x47, 0x54, 0x43, 0x47, 0x54, 0x43, 0x41, 0x0a, 0x52, 0x9d, 0x37, 0x8d, ]; let mut file = tempfile::NamedTempFile::new().unwrap(); file.write_all(input).unwrap(); file.flush().unwrap(); file.seek(SeekFrom::Start(0)).unwrap(); escargot::CargoBuild::new() .example("stdin_pipe") .current_release() .current_target() .run() .unwrap() .command() .stdin(file.into_file()) .assert() .success() .stdout(contains("There are 8 bases in your file")) .stdout(contains("There are 0 AAAAs in your file")); } #[test] fn test_stdin_no_compression() { let input: &[u8] = b">id1\nAGTCGTCA"; let mut file = tempfile::NamedTempFile::new().unwrap(); file.write_all(input).unwrap(); file.flush().unwrap(); file.seek(SeekFrom::Start(0)).unwrap(); escargot::CargoBuild::new() .example("stdin_pipe") .current_release() .current_target() .run() .unwrap() .command() .stdin(file.into_file()) .assert() .success() .stdout(contains("There are 8 bases in your file")) .stdout(contains("There are 0 AAAAs in your file")); }