pax_global_header00006660000000000000000000000064141164517620014521gustar00rootroot0000000000000052 comment=9eb351f285c83f247214317a0db456f983bd5b25 q2-feature-classifier-2021.8.0/000077500000000000000000000000001411645176200160505ustar00rootroot00000000000000q2-feature-classifier-2021.8.0/.coveragerc000066400000000000000000000003321411645176200201670ustar00rootroot00000000000000[run] branch = True omit = */tests* */__init__.py q2_feature_classifier/_version.py versioneer.py [report] omit = */tests* */__init__.py q2_feature_classifier/_version.py versioneer.py q2-feature-classifier-2021.8.0/.gitattributes000066400000000000000000000000571411645176200207450ustar00rootroot00000000000000q2_feature_classifier/_version.py export-subst q2-feature-classifier-2021.8.0/.github/000077500000000000000000000000001411645176200174105ustar00rootroot00000000000000q2-feature-classifier-2021.8.0/.github/CONTRIBUTING.md000066400000000000000000000015131411645176200216410ustar00rootroot00000000000000# Contributing to this project Thanks for thinking of us :heart: :tada: - we would love a helping hand! ## I just have a question > Note: Please don't file an issue to ask a question. You'll get faster results > by using the resources below. ### QIIME 2 Users Check out the [User Docs](https://docs.qiime2.org) - there are many tutorials, walkthroughs, and guides available. If you still need help, please visit us at the [QIIME 2 Forum](https://forum.qiime2.org/c/user-support). ### QIIME 2 Developers Check out the [Developer Docs](https://dev.qiime2.org) - there are many tutorials, walkthroughs, and guides available. If you still need help, please visit us at the [QIIME 2 Forum](https://forum.qiime2.org/c/dev-discussion). This document is based heavily on the following: https://github.com/atom/atom/blob/master/CONTRIBUTING.md q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/000077500000000000000000000000001411645176200215735ustar00rootroot00000000000000q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/1-user-need-help.md000066400000000000000000000006111411645176200250660ustar00rootroot00000000000000--- name: I am a user and I need help with QIIME 2... about: I am using QIIME 2 and have a question or am experiencing a problem --- Have you had a chance to check out the docs? https://docs.qiime2.org There are many tutorials, walkthroughs, and guides available. If you still need help, please visit: https://forum.qiime2.org/c/user-support Help requests filed here will not be answered. q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/2-dev-need-help.md000066400000000000000000000005641411645176200246760ustar00rootroot00000000000000--- name: I am a developer and I need help with QIIME 2... about: I am developing a QIIME 2 plugin or interface and have a question or a problem --- Have you had a chance to check out the developer docs? https://dev.qiime2.org There are many tutorials, walkthroughs, and guides available. If you still need help, please visit: https://forum.qiime2.org/c/dev-discussion q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/3-found-bug.md000066400000000000000000000017421411645176200241470ustar00rootroot00000000000000--- name: I am a developer and I found a bug... about: I am a developer and I found a bug that I can describe --- **Bug Description** A clear and concise description of what the bug is. **Steps to reproduce the behavior** 1. Go to '...' 2. Click on '....' 3. Scroll down to '....' 4. See error **Expected behavior** A clear and concise description of what you expected to happen. **Screenshots** If applicable, add screenshots to help explain your problem. **Computation Environment** - OS: [e.g. macOS High Sierra] - QIIME 2 Release [e.g. 2018.6] **Questions** 1. An enumerated list with any questions about the problem here. 2. If not applicable, please delete this section. **Comments** 1. An enumerated list with any other context or comments about the problem here. 2. If not applicable, please delete this section. **References** 1. An enumerated list of links to relevant references, including forum posts, stack overflow, etc. 2. If not applicable, please delete this section. q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/4-make-better.md000066400000000000000000000015321411645176200244570ustar00rootroot00000000000000--- name: I am a developer and I have an idea for an improvement... about: I am a developer and I have an idea for an improvement to existing functionality --- **Improvement Description** A clear and concise description of what the improvement is. **Current Behavior** Please provide a brief description of the current behavior. **Proposed Behavior** Please provide a brief description of the proposed behavior. **Questions** 1. An enumerated list of questions related to the proposal. 2. If not applicable, please delete this section. **Comments** 1. An enumerated list of comments related to the proposal that don't fit anywhere else. 2. If not applicable, please delete this section. **References** 1. An enumerated list of links to relevant references, including forum posts, stack overflow, etc. 2. If not applicable, please delete this section. q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/5-make-new.md000066400000000000000000000015131411645176200237630ustar00rootroot00000000000000--- name: I am a developer and I have an idea for a new feature... about: I am a developer and I have an idea for new functionality --- **Addition Description** A clear and concise description of what the addition is. **Current Behavior** Please provide a brief description of the current behavior, if applicable. **Proposed Behavior** Please provide a brief description of the proposed behavior. **Questions** 1. An enumerated list of questions related to the proposal. 2. If not applicable, please delete this section. **Comments** 1. An enumerated list of comments related to the proposal that don't fit anywhere else. 2. If not applicable, please delete this section. **References** 1. An enumerated list of links to relevant references, including forum posts, stack overflow, etc. 2. If not applicable, please delete this section. q2-feature-classifier-2021.8.0/.github/ISSUE_TEMPLATE/6-where-to-go.md000066400000000000000000000100111411645176200244060ustar00rootroot00000000000000--- name: I don't know where to file my issue... about: I am a developer and I don't know which repo to file this in --- The repos within the QIIME 2 GitHub Organization are listed below, with a brief description about the repo. Sorted alphabetically by repo name. - The CI automation engine that builds and distributes QIIME 2 https://github.com/qiime2/busywork/issues - A Concourse resource for working with conda https://github.com/qiime2/conda-channel-resource/issues - Web app for vanity URLs for QIIME 2 data assets https://github.com/qiime2/data.qiime2.org/issues - The Developer Documentation https://github.com/qiime2/dev-docs/issues - A discourse plugin for handling queued/unqueued topics https://github.com/qiime2/discourse-unhandled-tagger/issues - The User Documentation https://github.com/qiime2/docs/issues - Rendered QIIME 2 environment files for conda https://github.com/qiime2/environment-files/issues - Google Sheets Add-On for validating tabular data https://github.com/qiime2/Keemei/issues - A docker image for linux-based busywork workers https://github.com/qiime2/linux-worker-docker/issues - Official project logos https://github.com/qiime2/logos/issues - The q2-alignment plugin https://github.com/qiime2/q2-alignment/issues - The q2-composition plugin https://github.com/qiime2/q2-composition/issues - The q2-cutadapt plugin https://github.com/qiime2/q2-cutadapt/issues - The q2-dada2 plugin https://github.com/qiime2/q2-dada2/issues - The q2-deblur plugin https://github.com/qiime2/q2-deblur/issues - The q2-demux plugin https://github.com/qiime2/q2-demux/issues - The q2-diversity plugin https://github.com/qiime2/q2-diversity/issues - The q2-diversity-lib plugin https://github.com/qiime2/q2-diversity-lib/issues - The q2-emperor plugin https://github.com/qiime2/q2-emperor/issues - The q2-feature-classifier plugin https://github.com/qiime2/q2-feature-classifier/issues - The q2-feature-table plugin https://github.com/qiime2/q2-feature-table/issues - The q2-fragment-insertion plugin https://github.com/qiime2/q2-fragment-insertion/issues - The q2-gneiss plugin https://github.com/qiime2/q2-gneiss/issues - The q2-longitudinal plugin https://github.com/qiime2/q2-longitudinal/issues - The q2-metadata plugin https://github.com/qiime2/q2-metadata/issues - The q2-phylogeny plugin https://github.com/qiime2/q2-phylogeny/issues - The q2-quality-control plugin https://github.com/qiime2/q2-quality-control/issues - The q2-quality-filter plugin https://github.com/qiime2/q2-quality-filter/issues - The q2-sample-classifier plugin https://github.com/qiime2/q2-sample-classifier/issues - The q2-shogun plugin https://github.com/qiime2/q2-shogun/issues - The q2-taxa plugin https://github.com/qiime2/q2-taxa/issues - The q2-types plugin https://github.com/qiime2/q2-types/issues - The q2-vsearch plugin https://github.com/qiime2/q2-vsearch/issues - The CLI interface https://github.com/qiime2/q2cli/issues - The prototype CWL interface https://github.com/qiime2/q2cwl/issues - The prototype Galaxy interface https://github.com/qiime2/q2galaxy/issues - An internal tool for ensuring header text and copyrights are present https://github.com/qiime2/q2lint/issues - The prototype GUI interface https://github.com/qiime2/q2studio/issues - A base template for use in official QIIME 2 plugins https://github.com/qiime2/q2templates/issues - The read-only web interface at view.qiime2.org https://github.com/qiime2/q2view/issues - The QIIME 2 homepage at qiime2.org https://github.com/qiime2/qiime2.github.io/issues - The QIIME 2 framework https://github.com/qiime2/qiime2/issues - Centralized templates for repo assets https://github.com/qiime2/template-repo/issues - Scripts for building QIIME 2 VMs https://github.com/qiime2/vm-playbooks/issues - Scripts for building QIIME 2 workshop clusters https://github.com/qiime2/workshop-playbooks/issues - The web app that runs workshops.qiime2.org https://github.com/qiime2/workshops.qiime2.org/issues q2-feature-classifier-2021.8.0/.github/SUPPORT.md000066400000000000000000000122421411645176200211070ustar00rootroot00000000000000# QIIME 2 Users Check out the [User Docs](https://docs.qiime2.org) - there are many tutorials, walkthroughs, and guides available. If you still need help, please visit us at the [QIIME 2 Forum](https://forum.qiime2.org/c/user-support). # QIIME 2 Developers Check out the [Developer Docs](https://dev.qiime2.org) - there are many tutorials, walkthroughs, and guides available. If you still need help, please visit us at the [QIIME 2 Forum](https://forum.qiime2.org/c/dev-discussion). # General Bug/Issue Triage Discussion ![rubric](./rubric.png?raw=true) # Projects/Repositories in the QIIME 2 GitHub Organization Sorted alphabetically by repo name. - [busywork](https://github.com/qiime2/busywork/issues) | The CI automation engine that builds and distributes QIIME 2 - [conda-channel-resource](https://github.com/qiime2/conda-channel-resource/issues) | A Concourse resource for working with conda - [data.qiime2.org](https://github.com/qiime2/data.qiime2.org/issues) | Web app for vanity URLs for QIIME 2 data assets - [dev-docs](https://github.com/qiime2/dev-docs/issues) | The Developer Documentation - [discourse-unhandled-tagger](https://github.com/qiime2/discourse-unhandled-tagger/issues) | A discourse plugin for handling queued/unqueued topics - [docs](https://github.com/qiime2/docs/issues) | The User Documentation - [environment-files](https://github.com/qiime2/environment-files/issues) | Rendered QIIME 2 environment files for conda - [Keemei](https://github.com/qiime2/Keemei/issues) | Google Sheets Add-On for validating tabular data - [linux-worker-docker](https://github.com/qiime2/linux-worker-docker/issues) | A docker image for linux-based busywork workers - [logos](https://github.com/qiime2/logos/issues) | Official project logos - [q2-alignment](https://github.com/qiime2/q2-alignment/issues) | The q2-alignment plugin - [q2-composition](https://github.com/qiime2/q2-composition/issues) | The q2-composition plugin - [q2-cutadapt](https://github.com/qiime2/q2-cutadapt/issues) | The q2-cutadapt plugin - [q2-dada2](https://github.com/qiime2/q2-dada2/issues) | The q2-dada2 plugin - [q2-deblur](https://github.com/qiime2/q2-deblur/issues) | The q2-deblur plugin - [q2-demux](https://github.com/qiime2/q2-demux/issues) | The q2-demux plugin - [q2-diversity](https://github.com/qiime2/q2-diversity/issues) | The q2-diversity plugin - [q2-diversity-lib](https://github.com/qiime2/q2-diversity-lib/issues) | The q2-diversity-lib plugin - [q2-emperor](https://github.com/qiime2/q2-emperor/issues) | The q2-emperor plugin - [q2-feature-classifier](https://github.com/qiime2/q2-feature-classifier/issues) | The q2-feature-classifier plugin - [q2-feature-table](https://github.com/qiime2/q2-feature-table/issues) | The q2-feature-table plugin - [q2-fragment-insertion](https://github.com/qiime2/q2-fragment-insertion/issues) | The q2-fragment-insertion plugin - [q2-gneiss](https://github.com/qiime2/q2-gneiss/issues) | The q2-gneiss plugin - [q2-longitudinal](https://github.com/qiime2/q2-longitudinal/issues) | The q2-longitudinal plugin - [q2-metadata](https://github.com/qiime2/q2-metadata/issues) | The q2-metadata plugin - [q2-phylogeny](https://github.com/qiime2/q2-phylogeny/issues) | The q2-phylogeny plugin - [q2-quality-control](https://github.com/qiime2/q2-quality-control/issues) | The q2-quality-control plugin - [q2-quality-filter](https://github.com/qiime2/q2-quality-filter/issues) | The q2-quality-filter plugin - [q2-sample-classifier](https://github.com/qiime2/q2-sample-classifier/issues) | The q2-sample-classifier plugin - [q2-shogun](https://github.com/qiime2/q2-shogun/issues) | The q2-shogun plugin - [q2-taxa](https://github.com/qiime2/q2-taxa/issues) | The q2-taxa plugin - [q2-types](https://github.com/qiime2/q2-types/issues) | The q2-types plugin - [q2-vsearch](https://github.com/qiime2/q2-vsearch/issues) | The q2-vsearch plugin - [q2cli](https://github.com/qiime2/q2cli/issues) | The CLI interface - [q2cwl](https://github.com/qiime2/q2cwl/issues) | The prototype CWL interface - [q2galaxy](https://github.com/qiime2/q2galaxy/issues) | The prototype Galaxy interface - [q2lint](https://github.com/qiime2/q2lint/issues) | An internal tool for ensuring header text and copyrights are present - [q2studio](https://github.com/qiime2/q2studio/issues) | The prototype GUI interface - [q2templates](https://github.com/qiime2/q2templates/issues) | A base template for use in official QIIME 2 plugins - [q2view](https://github.com/qiime2/q2view/issues) | The read-only web interface at view.qiime2.org - [qiime2.github.io](https://github.com/qiime2/qiime2.github.io/issues) | The QIIME 2 homepage at qiime2.org - [qiime2](https://github.com/qiime2/qiime2/issues) | The QIIME 2 framework - [template-repo](https://github.com/qiime2/template-repo/issues) | Centralized templates for repo assets - [vm-playbooks](https://github.com/qiime2/vm-playbooks/issues) | Scripts for building QIIME 2 VMs - [workshop-playbooks](https://github.com/qiime2/workshop-playbooks/issues) | Scripts for building QIIME 2 workshop clusters - [workshops.qiime2.org](https://github.com/qiime2/workshops.qiime2.org/issues) | The web app that runs workshops.qiime2.org q2-feature-classifier-2021.8.0/.github/pull_request_template.md000066400000000000000000000006121411645176200243500ustar00rootroot00000000000000Brief summary of the Pull Request, including any issues it may fix using the GitHub closing syntax: https://help.github.com/articles/closing-issues-using-keywords/ Also, include any co-authors or contributors using the GitHub coauthor tag: https://help.github.com/articles/creating-a-commit-with-multiple-authors/ --- Include any questions for reviewers, screenshots, sample outputs, etc. q2-feature-classifier-2021.8.0/.github/rubric.png000066400000000000000000007014131411645176200214120ustar00rootroot00000000000000PNG  IHDR,4\sBIT|d pHYs.#.#x?vtEXtSoftwarewww.inkscape.org< IDATxw|g3AޫEEQvgmKhQRD.#g$ G)9IIr~vkxr\7ޯ\b0 R1NE/zQ@G E/z'w:~9 .VhhD?^Kg7o78s7HG^{5]~]v ӧOլYD ^-ZٳgW_TB iٲeںufR)//_lRl߾ݤIs8#8ѣGرcٰakQ ___۷Of (p&I8p@sIO5ydXTRZ~ҦMk7oZpDO<1ӧO(8!?0c2dȠs,fݺu_6 8 2?sI @C ޽{uСfIZj& ilϟ߬EILR^DԬYq]]]`I&Ѿ6vUV5o\TD$&~<н{%6p^DGGk֭˓'O/Sڵkhh#^QF &:t\]/TՕ={ve˖M/[l8cǎ%.aÆI ᅲWڴi#F)+)<<\&MҡC8$^dN>mR7n$Y*Toh?^@\UTщ'4tP.]Z3gͫ-[jӦMZf0=ŋMw!;֭ۗ`^q 7|iĚ3gNrN/p6mq$=iӦD Klc׮]K4(z1P ><Ȟ=j֬`gϞ%Y|֋رc; IMMd4k,$ zSLÇ; Id̘Ѭ#GԈ#e\~)z)׉''$w(z6{_uѣ6ͥ\rʔ)SIQh`7ne˖zyr8bŊY4\:t蠀UN/ N%ɝJ,iXQVR 4l0ruw*g͚k׮m+][-Zӧ;8\ !OddgϮGd|k׮ڵ-j9<{Q۶mu=O,XP+VN4ӧOu1*((Haaazː! 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q2-feature-classifier-2021.8.0/q2_feature_classifier/000077500000000000000000000000001411645176200223115ustar00rootroot00000000000000q2-feature-classifier-2021.8.0/q2_feature_classifier/__init__.py000066400000000000000000000012641411645176200244250ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import importlib from ._version import get_versions __version__ = get_versions()['version'] del get_versions importlib.import_module('q2_feature_classifier.classifier') importlib.import_module('q2_feature_classifier._cutter') importlib.import_module('q2_feature_classifier._blast') importlib.import_module('q2_feature_classifier._vsearch') q2-feature-classifier-2021.8.0/q2_feature_classifier/_blast.py000066400000000000000000000122721411645176200241330ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import pandas as pd from q2_types.feature_data import ( FeatureData, Taxonomy, Sequence, DNAFASTAFormat) from qiime2.plugin import Int, Str, Float, Choices, Range from .plugin_setup import plugin, citations from ._consensus_assignment import (_consensus_assignments, _get_default_unassignable_label) # --------------------------------------------------------------- # Reason for num_thread not being exposed. # BLAST doesn't allow threading when a subject is provided(As of 2/19/20). # num_thread was removed to prevent warning that stated: # "'Num_thread' is currently ignored when 'subject' is specified"(issue #77). # Seen here: https://github.com/qiime2/q2-feature-classifier/issues/77. # A '-subject' input is required in this function. # Therefore num_thread is not exposable. # --------------------------------------------------------------- def classify_consensus_blast( query: DNAFASTAFormat, reference_reads: DNAFASTAFormat, reference_taxonomy: pd.Series, maxaccepts: int = 10, perc_identity: float = 0.8, query_cov: float = 0.8, strand: str = 'both', evalue: float = 0.001, min_consensus: float = 0.51, unassignable_label: str = _get_default_unassignable_label(), ) -> pd.DataFrame: perc_identity = perc_identity * 100 query_cov = query_cov * 100 seqs_fp = str(query) ref_fp = str(reference_reads) cmd = ['blastn', '-query', seqs_fp, '-evalue', str(evalue), '-strand', strand, '-outfmt', '7', '-subject', ref_fp, '-perc_identity', str(perc_identity), '-qcov_hsp_perc', str(query_cov), '-max_target_seqs', str(maxaccepts), '-out'] consensus = _consensus_assignments( cmd, reference_taxonomy, unassignable_label=unassignable_label, min_consensus=min_consensus, output_no_hits=True, exp_seq_ids=seqs_fp) return consensus plugin.methods.register_function( function=classify_consensus_blast, inputs={'query': FeatureData[Sequence], 'reference_reads': FeatureData[Sequence], 'reference_taxonomy': FeatureData[Taxonomy]}, parameters={'evalue': Float, 'maxaccepts': Int % Range(1, None), 'perc_identity': Float % Range(0.0, 1.0, inclusive_end=True), 'query_cov': Float % Range(0.0, 1.0, inclusive_end=True), 'strand': Str % Choices(['both', 'plus', 'minus']), 'min_consensus': Float % Range(0.5, 1.0, inclusive_end=True, inclusive_start=False), 'unassignable_label': Str}, outputs=[('classification', FeatureData[Taxonomy])], input_descriptions={'query': 'Sequences to classify taxonomically.', 'reference_reads': 'reference sequences.', 'reference_taxonomy': 'reference taxonomy labels.'}, parameter_descriptions={ 'evalue': 'BLAST expectation value (E) threshold for saving hits.', 'strand': ('Align against reference sequences in forward ("plus"), ' 'reverse ("minus"), or both directions ("both").'), 'maxaccepts': ('Maximum number of hits to keep for each query. Must ' 'be in range [1, infinity]. BLAST will choose the ' 'first N hits in the reference database that exceed ' 'perc_identity similarity to query.'), 'perc_identity': ('Reject match if percent identity to query is ' 'lower. Must be in range [0.0, 1.0].'), 'query_cov': 'Reject match if query alignment coverage per high-' 'scoring pair is lower. Note: this uses blastn\'s ' 'qcov_hsp_perc parameter, and may not behave identically ' 'to the query_cov parameter used by classify-consensus-' 'vsearch. Must be in range [0.0, 1.0].', 'min_consensus': ('Minimum fraction of assignments must match top ' 'hit to be accepted as consensus assignment. Must ' 'be in range (0.5, 1.0].') }, output_descriptions={ 'classification': 'Taxonomy classifications of query sequences.'}, name='BLAST+ consensus taxonomy classifier', description=('Assign taxonomy to query sequences using BLAST+. Performs ' 'BLAST+ local alignment between query and reference_reads, ' 'then assigns consensus taxonomy to each query sequence from ' 'among maxaccepts hits, min_consensus of which share ' 'that taxonomic assignment. Note that maxaccepts selects the ' 'first N hits with > perc_identity similarity to query, ' 'not the top N matches. For top N hits, use ' 'classify-consensus-vsearch.'), citations=[citations['camacho2009blast+']] ) q2-feature-classifier-2021.8.0/q2_feature_classifier/_consensus_assignment.py000066400000000000000000000241701411645176200272760ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import tempfile import subprocess import pandas as pd from os.path import isfile from collections import Counter, defaultdict import qiime2 def _get_default_unassignable_label(): return "Unassigned" def _consensus_assignments( cmd, ref_taxa, min_consensus=0.51, output_no_hits=False, exp_seq_ids=None, unassignable_label=_get_default_unassignable_label()): '''Run command line subprocess and find consensus taxonomy.''' with tempfile.NamedTemporaryFile() as output: cmd = cmd + [output.name] _run_command(cmd) obs_taxa = _import_blast_format_assignments( output.name, ref_taxa, unassignable_label=unassignable_label) consensus = _compute_consensus_annotations( obs_taxa, min_consensus=min_consensus, unassignable_label=unassignable_label) # If output_no_hits=True, find/add query IDs missing from consensus if output_no_hits is True: consensus = _output_no_hits( consensus, exp_seq_ids, unassignable_label) # if there are no consensus results (no hits for any query), default # to empty result file (must create empty dict or fail on pd error) if not consensus: consensus = {'': ('', '')} result = pd.DataFrame.from_dict(consensus, 'index') result.index.name = 'Feature ID' result.columns = ['Taxon', 'Consensus'] return result def _output_no_hits(obs_taxa, exp_seq_ids, unassignable_label=_get_default_unassignable_label()): '''If a query ID has no hits, report as unassigned.''' # extract list of query sequence IDs exp = _open_list_or_file(exp_seq_ids) exp = [line.strip('>') for line in exp if line.startswith('>')] # iterate over expected IDs, add as unassigned to obs_taxa if missing for _id in exp: if _id not in obs_taxa: obs_taxa[_id] = (unassignable_label, 0.0) return obs_taxa # Replace this function with QIIME2 API for wrapping commands/binaries, # pending https://github.com/qiime2/qiime2/issues/224 def _run_command(cmd, verbose=True): if verbose: print("Running external command line application. This may print " "messages to stdout and/or stderr.") print("The command being run is below. This command cannot " "be manually re-run as it will depend on temporary files that " "no longer exist.") print("\nCommand:", end=' ') print(" ".join(cmd), end='\n\n') subprocess.run(cmd, check=True) def _import_blast_format_assignments( assignments, ref_taxa, unassignable_label=_get_default_unassignable_label()): '''import observed assignments in blast6 or blast7 format to dict of lists. assignments: path or list Taxonomy observation map in blast format 6 or 7. Each line consists of taxonomy assignments of a query sequence in tab-delimited format: <...other columns are ignored> ref_taxa: dict or pd.Series Reference taxonomies in tab-delimited format: kingdom;phylum;class;order;family;genus;species ''' obs_taxa = defaultdict(list) lines = _open_list_or_file(assignments) for line in lines: if not line.startswith('#') or line == "": fields = line.split('\t') # if vsearch fails to find assignment, it reports '*' as the # accession ID, which is completely useless and unproductive. if fields[1] == '*': t = [unassignable_label] else: id_ = fields[1] try: t = ref_taxa[id_] except KeyError: raise KeyError(( 'Identifier {0} was reported in taxonomic search ' 'results, but was not present in the reference ' 'taxonomy.').format(str(id_))) try: t = t.split(';') except ValueError: raise ValueError(( 'Reference taxonomy {0} (id: {1}) is incorrectly ' 'formatted.').format(t, str(id_))) obs_taxa[fields[0]].append(t) return obs_taxa def _open_list_or_file(infile): if isinstance(infile, list): lines = infile elif isfile(infile): with open(infile, "r") as inputfile: lines = [line.strip() for line in inputfile] return lines # This code has been ported and adapted from QIIME 1.9.1 with permission from # @gregcaporaso. def _compute_consensus_annotations( query_annotations, min_consensus, unassignable_label=_get_default_unassignable_label()): """ Parameters ---------- query_annotations : dict of lists Keys are query identifiers, and values are lists of all taxonomic annotations associated with that identfier. Returns ------- dict Keys are query identifiers, and values are the consensus of the input taxonomic annotations. """ result = {} for query_id, annotations in query_annotations.items(): consensus_annotation, consensus_fraction = \ _compute_consensus_annotation(annotations, min_consensus, unassignable_label) result[query_id] = ( ';'.join(consensus_annotation), consensus_fraction) return result # This code has been ported from QIIME 1.9.1 with permission from @gregcaporaso def _compute_consensus_annotation(annotations, min_consensus, unassignable_label): """ Compute the consensus of a collection of annotations Parameters ---------- annotations : list of lists Taxonomic annotations to compute the consensus of. min_consensus : float The minimum fraction of the annotations that a specfic annotation must be present in for that annotation to be accepted. This must be greater than or equal to 0.51. unassignable_label : str The label to apply if no acceptable annotations are identified. Result ------ consensus_annotation List containing the consensus assignment consensus_fraction Fraction of input annotations that agreed at the deepest level of assignment """ if min_consensus <= 0.5: raise ValueError("min_consensus must be greater than 0.5.") num_input_annotations = len(annotations) consensus_annotation = [] # if the annotations don't all have the same number # of levels, the resulting annotation will have a max number # of levels equal to the number of levels in the assignment # with the fewest number of levels. this is to avoid # a case where, for example, there are n assignments, one of # which has 7 levels, and the other n-1 assignments have 6 levels. # A 7th level in the result would be misleading because it # would appear to the user as though it was the consensus # across all n assignments. num_levels = min([len(a) for a in annotations]) # iterate over the assignment levels for level in range(num_levels): # count the different taxonomic assignments at the current level. # the counts are computed based on the current level and all higher # levels to reflect that, for example, 'p__A; c__B; o__C' and # 'p__X; c__Y; o__C' represent different taxa at the o__ level (since # they are different at the p__ and c__ levels). current_level_annotations = \ Counter([tuple(e[:level + 1]) for e in annotations]) # identify the most common taxonomic assignment, and compute the # fraction of annotations that contained it. it's safe to compute the # fraction using num_assignments because the deepest level we'll # ever look at here is num_levels (see above comment on how that # is decided). tax, max_count = current_level_annotations.most_common(1)[0] max_consensus_fraction = max_count / num_input_annotations # check whether the most common taxonomic assignment is observed # in at least min_consensus of the sequences if max_consensus_fraction >= min_consensus: # if so, append the current level only (e.g., 'o__C' if tax is # 'p__A; c__B; o__C', and continue on to the next level consensus_annotation.append((tax[-1], max_consensus_fraction)) else: # if not, there is no assignment at this level, and we're # done iterating over levels break # construct the results # determine the number of levels in the consensus assignment consensus_annotation_depth = len(consensus_annotation) if consensus_annotation_depth > 0: # if it's greater than 0, generate a list of the # taxa assignments at each level annotation = [a[0] for a in consensus_annotation] # and assign the consensus_fraction_result as the # consensus fraction at the deepest level consensus_fraction_result = \ consensus_annotation[consensus_annotation_depth - 1][1] else: # if there are zero assignments, indicate that the taxa is # unknown annotation = [unassignable_label] # and assign the consensus_fraction_result to 1.0 (this is # somewhat arbitrary, but could be interpreted as all of the # assignments suggest an unknown taxonomy) consensus_fraction_result = 1.0 return annotation, consensus_fraction_result def _annotate_method(taxa, method): taxa = taxa.view(pd.DataFrame) taxa['Method'] = method return qiime2.Artifact.import_data('FeatureData[Taxonomy]', taxa) q2-feature-classifier-2021.8.0/q2_feature_classifier/_cutter.py000066400000000000000000000303771411645176200243420ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import skbio import os from joblib import Parallel, delayed, effective_n_jobs from qiime2.plugin import Int, Str, Float, Range, Choices from q2_types.feature_data import (FeatureData, Sequence, DNAIterator, DNASequencesDirectoryFormat) from q2_types.feature_data._format import DNAFASTAFormat from q2_feature_classifier._skl import _chunks from q2_feature_classifier.classifier import _autotune_reads_per_batch from .plugin_setup import plugin def _seq_to_regex(seq): """Build a regex out of a IUPAC consensus sequence""" result = [] for base in str(seq): if base in skbio.DNA.degenerate_chars: result.append('[{0}]'.format( ''.join(skbio.DNA.degenerate_map[base]))) else: result.append(base) return ''.join(result) def _primers_to_regex(f_primer, r_primer): return '({0}.*{1})'.format(_seq_to_regex(f_primer), _seq_to_regex(r_primer.reverse_complement())) def _local_aln(primer, sequence): best_score = None for one_primer in primer.expand_degenerates(): # `sequence` may contain degenerates. These will usually be N # characters, which SSW will score as zero. Although undocumented, SSW # will treat other degenerate characters as a mismatch. We acknowledge # that this approach is a heuristic to finding an optimal alignment and # may be revisited in the future if there's an aligner that explicitly # handles degenerates. this_aln = \ skbio.alignment.local_pairwise_align_ssw(one_primer, sequence) score = this_aln[1] if best_score is None or score > best_score: best_score = score best_aln = this_aln return best_aln def _semisemiglobal(primer, sequence, reverse=False): if reverse: primer = primer.reverse_complement() # locally align the primer (aln_prim, aln_seq), score, (prim_pos, seq_pos) = \ _local_aln(primer, sequence) amplicon_pos = seq_pos[1]+len(primer)-prim_pos[1] # naively extend the alignment to be semi-global bits = [primer[:prim_pos[0]], aln_prim, primer[prim_pos[1]+1:]] aln_prim = ''.join(map(str, bits)) bits = ['-'*(prim_pos[0]-seq_pos[0]), sequence[max(seq_pos[0]-prim_pos[0], 0):seq_pos[0]], aln_seq, sequence[seq_pos[1]+1:amplicon_pos], '-'*(amplicon_pos-len(sequence))] aln_seq = ''.join(map(str, bits)) # count the matches matches = sum(s in skbio.DNA.degenerate_map.get(p, {p}) for p, s in zip(aln_prim, aln_seq)) if reverse: amplicon_pos = max(seq_pos[0]-prim_pos[0], 0) return amplicon_pos, matches, len(aln_prim) def _exact_match(seq, f_primer, r_primer): try: regex = _primers_to_regex(f_primer, r_primer) match = next(seq.find_with_regex(regex)) beg, end = match.start + len(f_primer), match.stop - len(r_primer) return seq[beg:end] except StopIteration: return None def _approx_match(seq, f_primer, r_primer, identity): beg, b_matches, b_length = _semisemiglobal(f_primer, seq) end, e_matches, e_length = _semisemiglobal(r_primer, seq, reverse=True) if (b_matches + e_matches) / (b_length + e_length) >= identity: return seq[beg:end] return None def _gen_reads(sequence, f_primer, r_primer, trim_right, trunc_len, trim_left, identity, min_length, max_length, read_orientation): f_primer = skbio.DNA(f_primer) r_primer = skbio.DNA(r_primer) amp = None if read_orientation in ['forward', 'both']: amp = _exact_match(sequence, f_primer, r_primer) if not amp and read_orientation in ['reverse', 'both']: amp = _exact_match(sequence.reverse_complement(), f_primer, r_primer) if not amp and read_orientation in ['forward', 'both']: amp = _approx_match(sequence, f_primer, r_primer, identity) if not amp and read_orientation in ['reverse', 'both']: amp = _approx_match( sequence.reverse_complement(), f_primer, r_primer, identity) if not amp: return # we want to filter by max length before trimming if max_length > 0 and len(amp) > max_length: return if trim_right > 0: amp = amp[:-trim_right] if trunc_len > 0: amp = amp[:trunc_len] if trim_left > 0: amp = amp[trim_left:] if min_length > 0 and len(amp) < min_length: return if not amp: return return amp def extract_reads(sequences: DNASequencesDirectoryFormat, f_primer: str, r_primer: str, trim_right: int = 0, trunc_len: int = 0, trim_left: int = 0, identity: float = 0.8, min_length: int = 50, max_length: int = 0, n_jobs: int = 1, batch_size: int = 'auto', read_orientation: str = 'both') \ -> DNAFASTAFormat: """Extract the read selected by a primer or primer pair. Only sequences which match the primers at greater than the specified identity are returned Parameters ---------- sequences : DNASequencesDirectoryFormat An aligned list of skbio.sequence.DNA query sequences f_primer : skbio.sequence.DNA Forward primer sequence r_primer : skbio.sequence.DNA Reverse primer sequence trim_right : int, optional `trim_right` nucleotides are removed from the 3' end if trim_right is positive. Applied before trunc_len. trunc_len : int, optional Read is cut to trunc_len if trunc_len is positive. Applied after trim_right. trim_left : int, optional `trim_left` nucleotides are removed from the 5' end if trim_left is positive. Applied after trim_right and trunc_len. identity : float, optional Minimum combined primer match identity threshold. Default: 0.8 min_length: int, optional Minimum amplicon length. Shorter amplicons are discarded. Default: 50 max_length: int, optional Maximum amplicon length. Longer amplicons are discarded. n_jobs: int, optional Number of seperate processes to break the task into. batch_size: int, optional Number of samples to be processed in one batch. read_orientation: str, optional 'Orientation of primers relative to the sequences: "forward" searches ' 'for primer hits in the forward direction, "reverse" searches the ' 'reverse-complement, and "both" searches both directions.' Returns ------- q2_types.DNAFASTAFormat containing the reads """ if min_length > trunc_len - (trim_left + trim_right) and trunc_len > 0: raise ValueError('The minimum length setting is greater than the ' 'length of the truncated sequences. This will cause ' 'all sequences to be removed from the dataset. To ' 'proceed, set ' 'min_length ≤ trunc_len - (trim_left + ' 'trim_right).') n_jobs = effective_n_jobs(n_jobs) if batch_size == 'auto': batch_size = _autotune_reads_per_batch( sequences.file.view(DNAFASTAFormat), n_jobs) sequences = sequences.file.view(DNAIterator) ff = DNAFASTAFormat() with open(str(ff), 'a') as fh: with Parallel(n_jobs) as parallel: for chunk in _chunks(sequences, batch_size): amplicons = parallel(delayed(_gen_reads)(sequence, f_primer, r_primer, trim_right, trunc_len, trim_left, identity, min_length, max_length, read_orientation) for sequence in chunk) for amplicon in amplicons: if amplicon is not None: skbio.write(amplicon, format='fasta', into=fh) if os.stat(str(ff)).st_size == 0: raise RuntimeError("No matches found") return ff plugin.methods.register_function( function=extract_reads, inputs={'sequences': FeatureData[Sequence]}, parameters={'trunc_len': Int, 'trim_left': Int, 'trim_right': Int, 'f_primer': Str, 'r_primer': Str, 'identity': Float, 'min_length': Int % Range(0, None), 'max_length': Int % Range(0, None), 'n_jobs': Int % Range(1, None), 'batch_size': Int % Range(1, None) | Str % Choices(['auto']), 'read_orientation': Str % Choices(['both', 'forward', 'reverse'])}, outputs=[('reads', FeatureData[Sequence])], name='Extract reads from reference sequences.', description='Extract simulated amplicon reads from a reference database. ' 'Performs in-silico PCR to extract simulated amplicons from ' 'reference sequences that match the input primer sequences ' '(within the mismatch threshold specified by `identity`). ' 'Both primer sequences must be in the 5\' -> 3\' orientation. ' 'Sequences that fail to match both primers will be excluded. ' 'Reads are extracted, trimmed, and filtered in the following ' 'order: 1. reads are extracted in specified orientation; 2. ' 'primers are removed; 3. reads longer than `max_length` are ' 'removed; 4. reads are trimmed with `trim_right`; 5. reads ' 'are truncated to `trunc_len`; 6. reads are trimmed with ' '`trim_left`; 7. reads shorter than `min_length` are removed.', parameter_descriptions={ 'f_primer': 'forward primer sequence (5\' -> 3\').', 'r_primer': 'reverse primer sequence (5\' -> 3\'). Do not use reverse-' 'complemented primer sequence.', 'trim_right': 'trim_right nucleotides are removed from the 3\' end if ' 'trim_right is positive. Applied before trunc_len and ' 'trim_left.', 'trunc_len': 'read is cut to trunc_len if trunc_len is positive. ' 'Applied after trim_right but before trim_left.', 'trim_left': 'trim_left nucleotides are removed from the 5\' end if ' 'trim_left is positive. Applied after trim_right and ' 'trunc_len.', 'identity': 'minimum combined primer match identity threshold.', 'min_length': 'Minimum amplicon length. Shorter amplicons are ' 'discarded. Applied after trimming and truncation, so ' 'be aware that trimming may impact sequence retention. ' 'Set to zero to disable min length filtering.', 'max_length': 'Maximum amplicon length. Longer amplicons are ' 'discarded. Applied before trimming and truncation, ' 'so plan accordingly. Set to zero (default) to disable ' 'max length filtering.', 'n_jobs': 'Number of seperate processes to run.', 'batch_size': 'Number of sequences to process in a batch. The `auto` ' 'option is calculated from the number of sequences and ' 'number of jobs specified.', 'read_orientation': 'Orientation of primers relative to the ' 'sequences: "forward" searches for primer hits in ' 'the forward direction, "reverse" searches ' 'reverse-complement, and "both" searches both ' 'directions.'} ) q2-feature-classifier-2021.8.0/q2_feature_classifier/_skl.py000066400000000000000000000066011411645176200236160ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- from itertools import islice, repeat from copy import deepcopy from joblib import Parallel, delayed _specific_fitters = [ ['naive_bayes', [['feat_ext', {'__type__': 'feature_extraction.text.HashingVectorizer', 'analyzer': 'char_wb', 'n_features': 8192, 'ngram_range': [7, 7], 'alternate_sign': False}], ['classify', {'__type__': 'custom.LowMemoryMultinomialNB', 'alpha': 0.001, 'fit_prior': False}]]]] def fit_pipeline(reads, taxonomy, pipeline): seq_ids, X = _extract_reads(reads) data = [(taxonomy[s], x) for s, x in zip(seq_ids, X) if s in taxonomy] y, X = list(zip(*data)) pipeline.fit(X, y) return pipeline def _extract_reads(reads): return zip(*[(r.metadata['id'], r._string) for r in reads]) def predict(reads, pipeline, separator=';', chunk_size=262144, n_jobs=1, pre_dispatch='2*n_jobs', confidence='disable'): jobs = ( delayed(_predict_chunk)(pipeline, separator, confidence, chunk) for chunk in _chunks(reads, chunk_size)) workers = Parallel(n_jobs=n_jobs, batch_size=1, pre_dispatch=pre_dispatch) for calculated in workers(jobs): yield from calculated def _predict_chunk(pipeline, separator, confidence, chunk): if confidence == 'disable': return _predict_chunk_without_conf(pipeline, chunk) else: return _predict_chunk_with_conf(pipeline, separator, confidence, chunk) def _predict_chunk_without_conf(pipeline, chunk): seq_ids, X = _extract_reads(chunk) y = pipeline.predict(X) return zip(seq_ids, y, repeat(-1.)) def _predict_chunk_with_conf(pipeline, separator, confidence, chunk): seq_ids, X = _extract_reads(chunk) if not hasattr(pipeline, "predict_proba"): raise ValueError('this classifier does not support confidence values') prob_pos = pipeline.predict_proba(X) if prob_pos.shape != (len(X), len(pipeline.classes_)): raise ValueError('this classifier does not support confidence values') y = pipeline.classes_[prob_pos.argmax(axis=1)] results = [] split_classes = [c.split(separator) for c in pipeline.classes_] for seq_id, taxon, class_probs in zip(seq_ids, y, prob_pos): taxon = taxon.split(separator) classes = zip(deepcopy(split_classes), class_probs) result = [] for level in taxon: classes = [cls for cls in classes if cls[0].pop(0) == level] cum_prob = sum(c[1] for c in classes) if cum_prob < confidence: break result.append(level) result_confidence = cum_prob if result: result = separator.join(result) results.append((seq_id, result, result_confidence)) else: results.append((seq_id, 'Unassigned', 1. - cum_prob)) return results def _chunks(reads, chunk_size): reads = iter(reads) while True: chunk = list(islice(reads, chunk_size)) if len(chunk) == 0: break yield chunk q2-feature-classifier-2021.8.0/q2_feature_classifier/_taxonomic_classifier.py000066400000000000000000000100511411645176200272240ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import json import tarfile import os import sklearn import joblib from sklearn.pipeline import Pipeline import qiime2.plugin import qiime2.plugin.model as model from .plugin_setup import plugin # Semantic Types TaxonomicClassifier = qiime2.plugin.SemanticType('TaxonomicClassifier') # Formats class PickleFormat(model.BinaryFileFormat): def sniff(self): return tarfile.is_tarfile(str(self)) # https://github.com/qiime2/q2-types/issues/49 class JSONFormat(model.TextFileFormat): def sniff(self): with self.open() as fh: try: json.load(fh) return True except json.JSONDecodeError: pass return False class TaxonomicClassifierDirFmt(model.DirectoryFormat): preprocess_params = model.File('preprocess_params.json', format=JSONFormat) sklearn_pipeline = model.File('sklearn_pipeline.tar', format=PickleFormat) class TaxonomicClassiferTemporaryPickleDirFmt(model.DirectoryFormat): version_info = model.File('sklearn_version.json', format=JSONFormat) sklearn_pipeline = model.File('sklearn_pipeline.tar', format=PickleFormat) # Transformers @plugin.register_transformer def _1(dirfmt: TaxonomicClassiferTemporaryPickleDirFmt) -> Pipeline: sklearn_version = dirfmt.version_info.view(dict)['sklearn-version'] if sklearn_version != sklearn.__version__: raise ValueError('The scikit-learn version (%s) used to generate this' ' artifact does not match the current version' ' of scikit-learn installed (%s). Please retrain your' ' classifier for your current deployment to prevent' ' data-corruption errors.' % (sklearn_version, sklearn.__version__)) sklearn_pipeline = dirfmt.sklearn_pipeline.view(PickleFormat) with tarfile.open(str(sklearn_pipeline)) as tar: tmpdir = model.DirectoryFormat() dirname = str(tmpdir) tar.extractall(dirname) pipeline = joblib.load(os.path.join(dirname, 'sklearn_pipeline.pkl')) for fn in tar.getnames(): os.unlink(os.path.join(dirname, fn)) return pipeline @plugin.register_transformer def _2(data: Pipeline) -> TaxonomicClassiferTemporaryPickleDirFmt: sklearn_pipeline = PickleFormat() with tarfile.open(str(sklearn_pipeline), 'w') as tar: tmpdir = model.DirectoryFormat() pf = os.path.join(str(tmpdir), 'sklearn_pipeline.pkl') for fn in joblib.dump(data, pf): tar.add(fn, os.path.basename(fn)) os.unlink(fn) dirfmt = TaxonomicClassiferTemporaryPickleDirFmt() dirfmt.version_info.write_data( {'sklearn-version': sklearn.__version__}, dict) dirfmt.sklearn_pipeline.write_data(sklearn_pipeline, PickleFormat) return dirfmt @plugin.register_transformer def _3(dirfmt: TaxonomicClassifierDirFmt) -> Pipeline: raise ValueError('The scikit-learn version could not be determined for' ' this artifact, please retrain your classifier for your' ' current deployment to prevent data-corruption errors.') @plugin.register_transformer def _4(fmt: JSONFormat) -> dict: with fmt.open() as fh: return json.load(fh) @plugin.register_transformer def _5(data: dict) -> JSONFormat: result = JSONFormat() with result.open() as fh: json.dump(data, fh) return result # Registrations plugin.register_semantic_types(TaxonomicClassifier) plugin.register_formats(TaxonomicClassifierDirFmt, TaxonomicClassiferTemporaryPickleDirFmt) plugin.register_semantic_type_to_format( TaxonomicClassifier, artifact_format=TaxonomicClassiferTemporaryPickleDirFmt) q2-feature-classifier-2021.8.0/q2_feature_classifier/_version.py000066400000000000000000000441371411645176200245200ustar00rootroot00000000000000 # This file helps to compute a version number in source trees obtained from # git-archive tarball (such as those provided by githubs download-from-tag # feature). Distribution tarballs (built by setup.py sdist) and build # directories (produced by setup.py build) will contain a much shorter file # that just contains the computed version number. # This file is released into the public domain. Generated by # versioneer-0.18 (https://github.com/warner/python-versioneer) """Git implementation of _version.py.""" import errno import os import re import subprocess import sys def get_keywords(): """Get the keywords needed to look up the version information.""" # these strings will be replaced by git during git-archive. # setup.py/versioneer.py will grep for the variable names, so they must # each be defined on a line of their own. _version.py will just call # get_keywords(). git_refnames = " (tag: 2021.8.0)" git_full = "9eb351f285c83f247214317a0db456f983bd5b25" git_date = "2021-09-09 18:35:30 +0000" keywords = {"refnames": git_refnames, "full": git_full, "date": git_date} return keywords class VersioneerConfig: """Container for Versioneer configuration parameters.""" def get_config(): """Create, populate and return the VersioneerConfig() object.""" # these strings are filled in when 'setup.py versioneer' creates # _version.py cfg = VersioneerConfig() cfg.VCS = "git" cfg.style = "pep440" cfg.tag_prefix = "" cfg.parentdir_prefix = "q2-feature-classifier-" cfg.versionfile_source = "q2_feature_classifier/_version.py" cfg.verbose = False return cfg class NotThisMethod(Exception): """Exception raised if a method is not valid for the current scenario.""" LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator """Decorator to mark a method as the handler for a particular VCS.""" def decorate(f): """Store f in HANDLERS[vcs][method].""" if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None): """Call the given command(s).""" assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, env=env, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %s" % dispcmd) print(e) return None, None else: if verbose: print("unable to find command, tried %s" % (commands,)) return None, None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %s (error)" % dispcmd) print("stdout was %s" % stdout) return None, p.returncode return stdout, p.returncode def versions_from_parentdir(parentdir_prefix, root, verbose): """Try to determine the version from the parent directory name. Source tarballs conventionally unpack into a directory that includes both the project name and a version string. We will also support searching up two directory levels for an appropriately named parent directory """ rootdirs = [] for i in range(3): dirname = os.path.basename(root) if dirname.startswith(parentdir_prefix): return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None, "date": None} else: rootdirs.append(root) root = os.path.dirname(root) # up a level if verbose: print("Tried directories %s but none started with prefix %s" % (str(rootdirs), parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): """Extract version information from the given file.""" # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) if line.strip().startswith("git_date ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["date"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): """Get version information from git keywords.""" if not keywords: raise NotThisMethod("no keywords at all, weird") date = keywords.get("date") if date is not None: # git-2.2.0 added "%cI", which expands to an ISO-8601 -compliant # datestamp. However we prefer "%ci" (which expands to an "ISO-8601 # -like" string, which we must then edit to make compliant), because # it's been around since git-1.5.3, and it's too difficult to # discover which version we're using, or to work around using an # older one. date = date.strip().replace(" ", "T", 1).replace(" ", "", 1) refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%s', no digits" % ",".join(refs - tags)) if verbose: print("likely tags: %s" % ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %s" % r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None, "date": date} # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags", "date": None} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): """Get version from 'git describe' in the root of the source tree. This only gets called if the git-archive 'subst' keywords were *not* expanded, and _version.py hasn't already been rewritten with a short version string, meaning we're inside a checked out source tree. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] out, rc = run_command(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True) if rc != 0: if verbose: print("Directory %s not under git control" % root) raise NotThisMethod("'git rev-parse --git-dir' returned error") # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty] # if there isn't one, this yields HEX[-dirty] (no NUM) describe_out, rc = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long", "--match", "%s*" % tag_prefix], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out, rc = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%s'" % describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%s' doesn't start with prefix '%s'" print(fmt % (full_tag, tag_prefix)) pieces["error"] = ("tag '%s' doesn't start with prefix '%s'" % (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out, rc = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits # commit date: see ISO-8601 comment in git_versions_from_keywords() date = run_command(GITS, ["show", "-s", "--format=%ci", "HEAD"], cwd=root)[0].strip() pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1) return pieces def plus_or_dot(pieces): """Return a + if we don't already have one, else return a .""" if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): """Build up version string, with post-release "local version identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty Exceptions: 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): """TAG[.post.devDISTANCE] -- No -dirty. Exceptions: 1: no tags. 0.post.devDISTANCE """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%d" % pieces["distance"] else: # exception #1 rendered = "0.post.dev%d" % pieces["distance"] return rendered def render_pep440_post(pieces): """TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that .dev0 sorts backwards (a dirty tree will appear "older" than the corresponding clean one), but you shouldn't be releasing software with -dirty anyways. Exceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%s" % pieces["short"] else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%s" % pieces["short"] return rendered def render_pep440_old(pieces): """TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. Eexceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): """TAG[-DISTANCE-gHEX][-dirty]. Like 'git describe --tags --dirty --always'. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): """TAG-DISTANCE-gHEX[-dirty]. Like 'git describe --tags --dirty --always -long'. The distance/hash is unconditional. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): """Render the given version pieces into the requested style.""" if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"], "date": None} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%s'" % style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None, "date": pieces.get("date")} def get_versions(): """Get version information or return default if unable to do so.""" # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have # __file__, we can work backwards from there to the root. Some # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which # case we can only use expanded keywords. cfg = get_config() verbose = cfg.verbose try: return git_versions_from_keywords(get_keywords(), cfg.tag_prefix, verbose) except NotThisMethod: pass try: root = os.path.realpath(__file__) # versionfile_source is the relative path from the top of the source # tree (where the .git directory might live) to this file. Invert # this to find the root from __file__. for i in cfg.versionfile_source.split('/'): root = os.path.dirname(root) except NameError: return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to find root of source tree", "date": None} try: pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose) return render(pieces, cfg.style) except NotThisMethod: pass try: if cfg.parentdir_prefix: return versions_from_parentdir(cfg.parentdir_prefix, root, verbose) except NotThisMethod: pass return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version", "date": None} q2-feature-classifier-2021.8.0/q2_feature_classifier/_vsearch.py000066400000000000000000000413011411645176200244540ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import tempfile import pandas as pd import qiime2 from q2_types.feature_data import ( FeatureData, Taxonomy, Sequence, DNAFASTAFormat) from .plugin_setup import plugin, citations from qiime2.plugin import Int, Str, Float, Choices, Range, Bool from ._consensus_assignment import (_consensus_assignments, _run_command, _get_default_unassignable_label, _annotate_method) from ._taxonomic_classifier import TaxonomicClassifier from .classifier import _classify_parameters, _parameter_descriptions def classify_consensus_vsearch(query: DNAFASTAFormat, reference_reads: DNAFASTAFormat, reference_taxonomy: pd.Series, maxaccepts: int = 10, perc_identity: float = 0.8, query_cov: float = 0.8, strand: str = 'both', min_consensus: float = 0.51, unassignable_label: str = _get_default_unassignable_label(), search_exact: bool = False, top_hits_only: bool = False, maxhits: int = 'all', maxrejects: int = 'all', output_no_hits: bool = True, weak_id: float = 0., threads: str = 1) -> pd.DataFrame: seqs_fp = str(query) ref_fp = str(reference_reads) if maxaccepts == 'all': maxaccepts = 0 if maxrejects == 'all': maxrejects = 0 cmd = ['vsearch', '--usearch_global', seqs_fp, '--id', str(perc_identity), '--query_cov', str(query_cov), '--strand', strand, '--maxaccepts', str(maxaccepts), '--maxrejects', str(maxrejects), '--db', ref_fp, '--threads', str(threads)] if search_exact: cmd[1] = '--search_exact' if top_hits_only: cmd.append('--top_hits_only') if output_no_hits: cmd.append('--output_no_hits') if weak_id > 0 and weak_id < perc_identity: cmd.extend(['--weak_id', str(weak_id)]) if maxhits != 'all': cmd.extend(['--maxhits', str(maxhits)]) cmd.append('--blast6out') consensus = _consensus_assignments( cmd, reference_taxonomy, min_consensus=min_consensus, unassignable_label=unassignable_label) return consensus def classify_hybrid_vsearch_sklearn(ctx, query, reference_reads, reference_taxonomy, classifier, maxaccepts=10, perc_identity=0.5, query_cov=0.8, strand='both', min_consensus=0.51, maxhits='all', maxrejects='all', reads_per_batch='auto', confidence=0.7, read_orientation='auto', threads=1, prefilter=True, sample_size=1000, randseed=0): exclude = ctx.get_action('quality_control', 'exclude_seqs') ccv = ctx.get_action('feature_classifier', 'classify_consensus_vsearch') cs = ctx.get_action('feature_classifier', 'classify_sklearn') filter_seqs = ctx.get_action('taxa', 'filter_seqs') merge = ctx.get_action('feature_table', 'merge_taxa') # randomly subsample reference sequences for rough positive filter if prefilter: ref = str(reference_reads.view(DNAFASTAFormat)) with tempfile.NamedTemporaryFile() as output: cmd = ['vsearch', '--fastx_subsample', ref, '--sample_size', str(sample_size), '--randseed', str(randseed), '--fastaout', output.name] _run_command(cmd) sparse_reference = qiime2.Artifact.import_data( 'FeatureData[Sequence]', output.name) # perform rough positive filter on query sequences query, misses, = exclude( query_sequences=query, reference_sequences=sparse_reference, method='vsearch', perc_identity=perc_identity, perc_query_aligned=query_cov, threads=threads) # find exact matches, perform LCA consensus classification taxa1, = ccv(query=query, reference_reads=reference_reads, reference_taxonomy=reference_taxonomy, maxaccepts=maxaccepts, strand=strand, min_consensus=min_consensus, search_exact=True, threads=threads, maxhits=maxhits, maxrejects=maxrejects, output_no_hits=True) # Annotate taxonomic assignments with classification method taxa1 = _annotate_method(taxa1, 'VSEARCH') # perform second pass classification on unassigned taxa # filter out unassigned seqs try: query, = filter_seqs(sequences=query, taxonomy=taxa1, include=_get_default_unassignable_label()) except ValueError: # get ValueError if all sequences are filtered out. # so if no sequences are unassigned, return exact match results return taxa1 # classify with sklearn classifier taxa2, = cs(reads=query, classifier=classifier, reads_per_batch=reads_per_batch, n_jobs=threads, confidence=confidence, read_orientation=read_orientation) # Annotate taxonomic assignments with classification method taxa2 = _annotate_method(taxa2, 'sklearn') # merge into one big happy result taxa, = merge(data=[taxa2, taxa1]) return taxa output_descriptions = { 'classification': 'The resulting taxonomy classifications.'} parameters = {'maxaccepts': Int % Range(1, None) | Str % Choices(['all']), 'perc_identity': Float % Range(0.0, 1.0, inclusive_end=True), 'query_cov': Float % Range(0.0, 1.0, inclusive_end=True), 'strand': Str % Choices(['both', 'plus']), 'min_consensus': Float % Range(0.5, 1.0, inclusive_end=True, inclusive_start=False), 'threads': Int % Range(1, None), 'maxhits': Int % Range(1, None) | Str % Choices(['all']), 'maxrejects': Int % Range(1, None) | Str % Choices(['all'])} inputs = {'query': FeatureData[Sequence], 'reference_reads': FeatureData[Sequence], 'reference_taxonomy': FeatureData[Taxonomy]} input_descriptions = {'query': 'Sequences to classify taxonomically.', 'reference_reads': 'reference sequences.', 'reference_taxonomy': 'reference taxonomy labels.'} parameter_descriptions = { 'strand': 'Align against reference sequences in forward ("plus") ' 'or both directions ("both").', 'maxaccepts': 'Maximum number of hits to keep for each query. Set to ' '"all" to keep all hits > perc_identity similarity. Note ' 'that if strand=both, maxaccepts will keep N hits for each ' 'direction (if searches in the opposite direction yield ' 'results that exceed the minimum perc_identity). In those ' 'cases use maxhits to control the total number of hits ' 'returned. This option works in pair with maxrejects. ' 'The search process sorts target sequences by decreasing ' 'number of k-mers they have in common with the query ' 'sequence, using that information as a proxy for sequence ' 'similarity. After pairwise alignments, if the first target ' 'sequence passes the acceptation criteria, it is accepted ' 'as best hit and the search process stops for that query. ' 'If maxaccepts is set to a higher value, more hits are ' 'accepted. If maxaccepts and maxrejects are both set to ' '"all", the complete database is searched.', 'perc_identity': 'Reject match if percent identity to query is ' 'lower.', 'query_cov': 'Reject match if query alignment coverage per high-' 'scoring pair is lower.', 'min_consensus': 'Minimum fraction of assignments must match top ' 'hit to be accepted as consensus assignment.', 'threads': 'Number of threads to use for job parallelization.', 'maxhits': 'Maximum number of hits to show once the search is terminated.', 'maxrejects': 'Maximum number of non-matching target sequences to ' 'consider before stopping the search. This option works in ' 'pair with maxaccepts (see maxaccepts description for ' 'details).'} outputs = [('classification', FeatureData[Taxonomy])] ignore_prefilter = ' This parameter is ignored if `prefilter` is disabled.' plugin.methods.register_function( function=classify_consensus_vsearch, inputs=inputs, parameters={**parameters, 'unassignable_label': Str, 'search_exact': Bool, 'top_hits_only': Bool, 'output_no_hits': Bool, 'weak_id': Float % Range(0.0, 1.0, inclusive_end=True)}, outputs=outputs, input_descriptions=input_descriptions, parameter_descriptions={ **parameter_descriptions, 'search_exact': 'Search for exact full-length matches to the query ' 'sequences. Only 100% exact matches are reported and ' 'this command is much faster than the default. If ' 'True, the perc_identity and query_cov settings are ' 'ignored. Note: query and reference reads must be ' 'trimmed to the exact same DNA locus (e.g., primer ' 'site) because only exact matches will be reported.', 'top_hits_only': 'Only the top hits between the query and reference ' 'sequence sets are reported. For each query, the top ' 'hit is the one presenting the highest percentage of ' 'identity. Multiple equally scored top hits will be ' 'used for consensus taxonomic assignment if ' 'maxaccepts is greater than 1.', 'output_no_hits': 'Report both matching and non-matching queries. ' 'WARNING: always use the default setting for this ' 'option unless if you know what you are doing! If ' 'you set this option to False, your sequences and ' 'feature table will need to be filtered to exclude ' 'unclassified sequences, otherwise you may run into ' 'errors downstream from missing feature IDs.', 'weak_id': 'Show hits with percentage of identity of at least N, ' 'without terminating the search. A normal search stops as ' 'soon as enough hits are found (as defined by maxaccepts, ' 'maxrejects, and perc_identity). As weak_id reports weak ' 'hits that are not deduced from maxaccepts, high ' 'perc_identity values can be used, hence preserving both ' 'speed and sensitivity. Logically, weak_id must be smaller ' 'than the value indicated by perc_identity, otherwise this ' 'option will be ignored.', }, output_descriptions=output_descriptions, name='VSEARCH-based consensus taxonomy classifier', description=('Assign taxonomy to query sequences using VSEARCH. Performs ' 'VSEARCH global alignment between query and reference_reads, ' 'then assigns consensus taxonomy to each query sequence from ' 'among maxaccepts top hits, min_consensus of which share ' 'that taxonomic assignment. Unlike classify-consensus-blast, ' 'this method searches the entire reference database before ' 'choosing the top N hits, not the first N hits.'), citations=[citations['rognes2016vsearch']] ) plugin.pipelines.register_function( function=classify_hybrid_vsearch_sklearn, inputs={**inputs, 'classifier': TaxonomicClassifier}, parameters={**parameters, 'reads_per_batch': _classify_parameters['reads_per_batch'], 'confidence': _classify_parameters['confidence'], 'read_orientation': _classify_parameters['read_orientation'], 'prefilter': Bool, 'sample_size': Int % Range(1, None), 'randseed': Int % Range(0, None)}, outputs=outputs, input_descriptions={**input_descriptions, 'classifier': 'Pre-trained sklearn taxonomic ' 'classifier for classifying the reads.'}, parameter_descriptions={ **{k: parameter_descriptions[k] for k in [ 'strand', 'maxaccepts', 'min_consensus', 'threads']}, 'perc_identity': 'Percent sequence similarity to use for PREFILTER. ' + parameter_descriptions['perc_identity'] + ' Set to a ' 'lower value to perform a rough pre-filter.' + ignore_prefilter, 'query_cov': 'Query coverage threshold to use for PREFILTER. ' + parameter_descriptions['query_cov'] + ' Set to a ' 'lower value to perform a rough pre-filter.' + ignore_prefilter, 'confidence': _parameter_descriptions['confidence'], 'read_orientation': 'Direction of reads with respect to reference ' 'sequences in pre-trained sklearn classifier. ' 'same will cause reads to be classified unchanged' '; reverse-complement will cause reads to be ' 'reversed and complemented prior to ' 'classification. "auto" will autodetect ' 'orientation based on the confidence estimates ' 'for the first 100 reads.', 'reads_per_batch': 'Number of reads to process in each batch for ' 'sklearn classification. If "auto", this parameter ' 'is autoscaled to min(number of query sequences / ' 'threads, 20000).', 'prefilter': 'Toggle positive filter of query sequences on or off.', 'sample_size': 'Randomly extract the given number of sequences from ' 'the reference database to use for prefiltering.' + ignore_prefilter, 'randseed': 'Use integer as a seed for the pseudo-random generator ' 'used during prefiltering. A given seed always produces ' 'the same output, which is useful for replicability. Set ' 'to 0 to use a pseudo-random seed.' + ignore_prefilter, }, output_descriptions=output_descriptions, name='ALPHA Hybrid classifier: VSEARCH exact match + sklearn classifier', description=('NOTE: THIS PIPELINE IS AN ALPHA RELEASE. Please report bugs ' 'to https://forum.qiime2.org!\n' 'Assign taxonomy to query sequences using hybrid classifier. ' 'First performs rough positive filter to remove artifact and ' 'low-coverage sequences (use "prefilter" parameter to toggle ' 'this step on or off). Second, performs VSEARCH exact match ' 'between query and reference_reads to find exact matches, ' 'followed by least common ancestor consensus taxonomy ' 'assignment from among maxaccepts top hits, min_consensus of ' 'which share that taxonomic assignment. Query sequences ' 'without an exact match are then classified with a pre-' 'trained sklearn taxonomy classifier to predict the most ' 'likely taxonomic lineage.'), ) q2-feature-classifier-2021.8.0/q2_feature_classifier/citations.bib000066400000000000000000000034021411645176200247630ustar00rootroot00000000000000@article{bokulich2018optimizing, author={Bokulich, Nicholas A. and Kaehler, Benjamin D. and Rideout, Jai Ram and Dillon, Matthew and Bolyen, Evan and Knight, Rob and Huttley, Gavin A. and Caporaso, J. Gregory}, title={Optimizing taxonomic classification of marker-gene amplicon sequences with QIIME 2's q2-feature-classifier plugin}, journal={Microbiome}, year={2018}, volume={6}, number={1}, pages={90}, doi={10.1186/s40168-018-0470-z}, url={https://doi.org/10.1186/s40168-018-0470-z} } @article{pedregosa2011scikit, title={Scikit-learn: Machine learning in Python}, author={Pedregosa, Fabian and Varoquaux, Ga{\"e}l and Gramfort, Alexandre and Michel, Vincent and Thirion, Bertrand and Grisel, Olivier and Blondel, Mathieu and Prettenhofer, Peter and Weiss, Ron and Dubourg, Vincent and Vanderplas, Jake and Passos, Alexandre and Cournapeau, David and Brucher, Matthieu and Perrot, Matthieu and Duchesnay, {\'E}douard}, journal={Journal of machine learning research}, volume={12}, number={Oct}, pages={2825--2830}, year={2011} } @article{camacho2009blast+, title={BLAST+: architecture and applications}, author={Camacho, Christiam and Coulouris, George and Avagyan, Vahram and Ma, Ning and Papadopoulos, Jason and Bealer, Kevin and Madden, Thomas L}, journal={BMC bioinformatics}, volume={10}, number={1}, pages={421}, year={2009}, publisher={BioMed Central}, doi={10.1186/1471-2105-10-421} } @article{rognes2016vsearch, title={VSEARCH: a versatile open source tool for metagenomics}, author={Rognes, Torbj{\o}rn and Flouri, Tom{\'a}{\v{s}} and Nichols, Ben and Quince, Christopher and Mah{\'e}, Fr{\'e}d{\'e}ric}, journal={PeerJ}, volume={4}, pages={e2584}, year={2016}, publisher={PeerJ Inc.}, doi={10.7717/peerj.2584} } q2-feature-classifier-2021.8.0/q2_feature_classifier/classifier.py000066400000000000000000000347021411645176200250150ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import json import importlib import inspect import warnings from itertools import chain, islice import subprocess import pandas as pd from qiime2.plugin import Int, Str, Float, Bool, Choices, Range from q2_types.feature_data import ( FeatureData, Taxonomy, Sequence, DNAIterator, DNAFASTAFormat) from q2_types.feature_table import FeatureTable, RelativeFrequency from sklearn.pipeline import Pipeline import sklearn from numpy import median, array, ceil import biom import skbio import joblib from ._skl import fit_pipeline, predict, _specific_fitters from ._taxonomic_classifier import TaxonomicClassifier from .plugin_setup import plugin, citations def _load_class(classname): err_message = classname + ' is not a recognised class' if '.' not in classname: raise ValueError(err_message) module, klass = classname.rsplit('.', 1) if module == 'custom': module = importlib.import_module('.custom', 'q2_feature_classifier') elif importlib.util.find_spec('.'+module, 'sklearn') is not None: module = importlib.import_module('.'+module, 'sklearn') else: raise ValueError(err_message) if not hasattr(module, klass): raise ValueError(err_message) klass = getattr(module, klass) if not issubclass(klass, sklearn.base.BaseEstimator): raise ValueError(err_message) return klass def spec_from_pipeline(pipeline): class StepsEncoder(json.JSONEncoder): def default(self, obj): if hasattr(obj, 'get_params'): encoded = {} params = obj.get_params() subobjs = [] for key, value in params.items(): if hasattr(value, 'get_params'): subobjs.append(key + '__') for key, value in params.items(): for so in subobjs: if key.startswith(so): break else: if hasattr(value, 'get_params'): encoded[key] = self.default(value) try: json.dumps(value, cls=StepsEncoder) encoded[key] = value except TypeError: pass module = obj.__module__ type = module + '.' + obj.__class__.__name__ encoded['__type__'] = type.split('.', 1)[1] return encoded return json.JSONEncoder.default(self, obj) steps = pipeline.get_params()['steps'] return json.loads(json.dumps(steps, cls=StepsEncoder)) def pipeline_from_spec(spec): def as_steps(obj): if '__type__' in obj: klass = _load_class(obj['__type__']) return klass(**{k: v for k, v in obj.items() if k != '__type__'}) return obj steps = json.loads(json.dumps(spec), object_hook=as_steps) return Pipeline(steps) def warn_about_sklearn(): warning = ( 'The TaxonomicClassifier artifact that results from this method was ' 'trained using scikit-learn version %s. It cannot be used with other ' 'versions of scikit-learn. (While the classifier may complete ' 'successfully, the results will be unreliable.)' % sklearn.__version__) warnings.warn(warning, UserWarning) def populate_class_weight(pipeline, class_weight): classes = class_weight.ids('observation') class_weights = [] for weights in class_weight.iter_data(): class_weights.append(zip(classes, weights)) step, classifier = pipeline.steps[-1] for param in classifier.get_params(): if param == 'class_weight': class_weights = list(map(dict, class_weights)) if len(class_weights) == 1: class_weights = class_weights[0] pipeline.set_params(**{'__'.join([step, param]): class_weights}) elif param in ('priors', 'class_prior'): if len(class_weights) != 1: raise ValueError('naive_bayes classifiers do not support ' 'multilabel classification') priors = list(zip(*sorted(class_weights[0])))[1] pipeline.set_params(**{'__'.join([step, param]): priors}) return pipeline def fit_classifier_sklearn(reference_reads: DNAIterator, reference_taxonomy: pd.Series, classifier_specification: str, class_weight: biom.Table = None) -> Pipeline: warn_about_sklearn() spec = json.loads(classifier_specification) pipeline = pipeline_from_spec(spec) if class_weight is not None: pipeline = populate_class_weight(pipeline, class_weight) pipeline = fit_pipeline(reference_reads, reference_taxonomy, pipeline) return pipeline plugin.methods.register_function( function=fit_classifier_sklearn, inputs={'reference_reads': FeatureData[Sequence], 'reference_taxonomy': FeatureData[Taxonomy], 'class_weight': FeatureTable[RelativeFrequency]}, parameters={'classifier_specification': Str}, outputs=[('classifier', TaxonomicClassifier)], name='Train an almost arbitrary scikit-learn classifier', description='Train a scikit-learn classifier to classify reads.', citations=[citations['pedregosa2011scikit']] ) def _autodetect_orientation(reads, classifier, n=100, read_orientation=None): reads = iter(reads) try: read = next(reads) except StopIteration: raise ValueError('empty reads input') if not hasattr(classifier, "predict_proba"): warnings.warn("this classifier does not support confidence values, " "so read orientation autodetection is disabled", UserWarning) return reads reads = chain([read], reads) if read_orientation == 'same': return reads if read_orientation == 'reverse-complement': return (r.reverse_complement() for r in reads) first_n_reads = list(islice(reads, n)) result = list(zip(*predict(first_n_reads, classifier, confidence=0.))) _, _, same_confidence = result reversed_n_reads = [r.reverse_complement() for r in first_n_reads] result = list(zip(*predict(reversed_n_reads, classifier, confidence=0.))) _, _, reverse_confidence = result if median(array(same_confidence) - array(reverse_confidence)) > 0.: return chain(first_n_reads, reads) return chain(reversed_n_reads, (r.reverse_complement() for r in reads)) def _autotune_reads_per_batch(reads, n_jobs): # detect effective jobs. Will raise error if n_jobs == 0 if n_jobs == 0: raise ValueError("Value other than zero must be specified as number " "of jobs to run.") else: n_jobs = joblib.effective_n_jobs(n_jobs) # we really only want to calculate this if running in parallel if n_jobs != 1: seq_count = subprocess.run( ['grep', '-c', '^>', str(reads)], check=True, stdout=subprocess.PIPE) # set a max value to avoid blowing up memory return min(int(ceil(int(seq_count.stdout.decode('utf-8')) / n_jobs)), 20000) # otherwise reads_per_batch = 20000, which has a modest memory overhead else: return 20000 def classify_sklearn(reads: DNAFASTAFormat, classifier: Pipeline, reads_per_batch: int = 'auto', n_jobs: int = 1, pre_dispatch: str = '2*n_jobs', confidence: float = 0.7, read_orientation: str = 'auto' ) -> pd.DataFrame: try: # autotune reads per batch if reads_per_batch == 'auto': reads_per_batch = _autotune_reads_per_batch(reads, n_jobs) # transform reads to DNAIterator reads = DNAIterator( skbio.read(str(reads), format='fasta', constructor=skbio.DNA)) reads = _autodetect_orientation( reads, classifier, read_orientation=read_orientation) predictions = predict(reads, classifier, chunk_size=reads_per_batch, n_jobs=n_jobs, pre_dispatch=pre_dispatch, confidence=confidence) seq_ids, taxonomy, confidence = list(zip(*predictions)) result = pd.DataFrame({'Taxon': taxonomy, 'Confidence': confidence}, index=seq_ids, columns=['Taxon', 'Confidence']) result.index.name = 'Feature ID' return result except MemoryError: raise MemoryError("The operation has run out of available memory. " "To correct this error:\n" "1. Reduce the reads per batch\n" "2. Reduce number of n_jobs being performed\n" "3. Use a more powerful machine or allocate " "more resources ") _classify_parameters = { 'reads_per_batch': Int % Range(1, None) | Str % Choices(['auto']), 'n_jobs': Int, 'pre_dispatch': Str, 'confidence': Float % Range( 0, 1, inclusive_start=True, inclusive_end=True) | Str % Choices( ['disable']), 'read_orientation': Str % Choices(['same', 'reverse-complement', 'auto'])} _parameter_descriptions = { 'confidence': 'Confidence threshold for limiting ' 'taxonomic depth. Set to "disable" to disable ' 'confidence calculation, or 0 to calculate ' 'confidence but not apply it to limit the ' 'taxonomic depth of the assignments.', 'read_orientation': 'Direction of reads with ' 'respect to reference sequences. same will cause ' 'reads to be classified unchanged; reverse-' 'complement will cause reads to be reversed ' 'and complemented prior to classification. ' '"auto" will autodetect orientation based on the ' 'confidence estimates for the first 100 reads.', 'reads_per_batch': 'Number of reads to process in each batch. If "auto", ' 'this parameter is autoscaled to ' 'min( number of query sequences / n_jobs, 20000).', 'n_jobs': 'The maximum number of concurrently worker processes. If -1 ' 'all CPUs are used. If 1 is given, no parallel computing ' 'code is used at all, which is useful for debugging. For ' 'n_jobs below -1, (n_cpus + 1 + n_jobs) are used. Thus for ' 'n_jobs = -2, all CPUs but one are used.', 'pre_dispatch': '"all" or expression, as in "3*n_jobs". The number of ' 'batches (of tasks) to be pre-dispatched.' } plugin.methods.register_function( function=classify_sklearn, inputs={'reads': FeatureData[Sequence], 'classifier': TaxonomicClassifier}, parameters=_classify_parameters, outputs=[('classification', FeatureData[Taxonomy])], name='Pre-fitted sklearn-based taxonomy classifier', description='Classify reads by taxon using a fitted classifier.', input_descriptions={ 'reads': 'The feature data to be classified.', 'classifier': 'The taxonomic classifier for classifying the reads.' }, parameter_descriptions={**_parameter_descriptions}, citations=[citations['pedregosa2011scikit']] ) def _pipeline_signature(spec): type_map = {int: Int, float: Float, bool: Bool, str: Str} parameters = {} signature_params = [] pipeline = pipeline_from_spec(spec) params = pipeline.get_params() for param, default in sorted(params.items()): # weed out pesky memory parameter from skl # https://github.com/qiime2/q2-feature-classifier/issues/101 if param == 'memory': continue try: json.dumps(default) except TypeError: continue kind = inspect.Parameter.POSITIONAL_OR_KEYWORD if type(default) in type_map: annotation = type(default) else: annotation = str default = json.dumps(default) new_param = inspect.Parameter(param, kind, default=default, annotation=annotation) signature_params.append(new_param) parameters[param] = type_map.get(annotation, Str) return parameters, signature_params def _register_fitter(name, spec): parameters, signature_params = _pipeline_signature(spec) def generic_fitter(reference_reads: DNAIterator, reference_taxonomy: pd.Series, class_weight: biom.Table = None, **kwargs) -> Pipeline: warn_about_sklearn() for param in kwargs: try: kwargs[param] = json.loads(kwargs[param]) except (json.JSONDecodeError, TypeError): pass pipeline = pipeline_from_spec(spec) pipeline.set_params(**kwargs) if class_weight is not None: pipeline = populate_class_weight(pipeline, class_weight) pipeline = fit_pipeline(reference_reads, reference_taxonomy, pipeline) return pipeline generic_signature = inspect.signature(generic_fitter) new_params = list(generic_signature.parameters.values())[:-1] new_params.extend(signature_params) return_annotation = generic_signature.return_annotation new_signature = inspect.Signature(parameters=new_params, return_annotation=return_annotation) generic_fitter.__signature__ = new_signature generic_fitter.__name__ = 'fit_classifier_' + name plugin.methods.register_function( function=generic_fitter, inputs={'reference_reads': FeatureData[Sequence], 'reference_taxonomy': FeatureData[Taxonomy], 'class_weight': FeatureTable[RelativeFrequency]}, parameters=parameters, outputs=[('classifier', TaxonomicClassifier)], name='Train the ' + name + ' classifier', description='Create a scikit-learn ' + name + ' classifier for reads', citations=[citations['pedregosa2011scikit']] ) for name, pipeline in _specific_fitters: _register_fitter(name, pipeline) q2-feature-classifier-2021.8.0/q2_feature_classifier/custom.py000066400000000000000000000107511411645176200242010ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- from itertools import islice import numpy from scipy.sparse import vstack from sklearn.base import BaseEstimator, ClassifierMixin, clone # noqa from sklearn.utils.validation import check_X_y, check_array, check_is_fitted # noqa from sklearn.naive_bayes import MultinomialNB from sklearn.preprocessing import LabelEncoder from sklearn.feature_extraction.text import HashingVectorizer class LowMemoryMultinomialNB(MultinomialNB): def __init__(self, alpha=1.0, fit_prior=True, class_prior=None, chunk_size=20000): self.chunk_size = chunk_size super().__init__(alpha=alpha, fit_prior=fit_prior, class_prior=class_prior) def fit(self, X, y, sample_weight=None): if self.chunk_size <= 0: return super().fit(X, y, sample_weight=sample_weight) classes = numpy.unique(y) for i in range(0, X.shape[0], self.chunk_size): upper = min(i+self.chunk_size, X.shape[0]) cX = X[i:upper] cy = y[i:upper] if sample_weight is None: csample_weight = None else: csample_weight = sample_weight[i:upper] self.partial_fit(cX, cy, sample_weight=csample_weight, classes=classes) return self class ChunkedHashingVectorizer(HashingVectorizer): # This class is a kludge to get around # https://github.com/scikit-learn/scikit-learn/issues/8941 def __init__(self, input='content', encoding='utf-8', decode_error='strict', strip_accents=None, lowercase=True, preprocessor=None, tokenizer=None, stop_words=None, token_pattern=r"(?u)\b\w\w+\b", ngram_range=(1, 1), analyzer='word', n_features=(2 ** 20), binary=False, norm='l2', alternate_sign=True, dtype=numpy.float64, chunk_size=20000): self.chunk_size = chunk_size super().__init__( input=input, encoding=encoding, decode_error=decode_error, strip_accents=strip_accents, lowercase=lowercase, preprocessor=preprocessor, tokenizer=tokenizer, stop_words=stop_words, token_pattern=token_pattern, ngram_range=ngram_range, analyzer=analyzer, n_features=n_features, binary=binary, norm=norm, alternate_sign=alternate_sign, dtype=dtype) def transform(self, X): if self.chunk_size <= 0: return super().transform(X) returnX = None X = iter(X) while True: cX = list(islice(X, self.chunk_size)) if len(cX) == 0: break cX = super().transform(cX) if returnX is None: returnX = cX else: returnX = vstack([returnX, cX]) return returnX fit_transform = transform # Experimental feature. USE WITH CAUTION class _MultioutputClassifier(BaseEstimator, ClassifierMixin): # This is a hack because it looks like multioutput classifiers can't # handle non-numeric labels like regular classifiers. # TODO: raise issue linked to # https://github.com/scikit-learn/scikit-learn/issues/556 def __init__(self, base_estimator=None, separator=';'): self.base_estimator = base_estimator self.separator = separator def fit(self, X, y, **fit_params): y = list(zip(*[label.split(self.separator) for label in y])) self.encoders_ = [LabelEncoder() for _ in y] y = [e.fit_transform(l) for e, l in zip(self.encoders_, y)] self.base_estimator.fit(X, list(zip(*y)), **fit_params) return self @property def classes_(self): classes = [e.inverse_transform(l) for e, l in zip(self.encoders_, zip(*self.base_estimator.classes_))] return [self.separator.join(label) for label in zip(*classes)] def predict(self, X): y = self.base_estimator.predict(X).astype(int) y = [e.inverse_transform(l) for e, l in zip(self.encoders_, y.T)] return [self.separator.join(label) for label in zip(*y)] def predict_proba(self, X): return self.base_estimator.predict_proba(X) q2-feature-classifier-2021.8.0/q2_feature_classifier/plugin_setup.py000066400000000000000000000020101411645176200253720ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- from qiime2.plugin import Plugin, Citations import q2_feature_classifier citations = Citations.load('citations.bib', package='q2_feature_classifier') plugin = Plugin( name='feature-classifier', version=q2_feature_classifier.__version__, website='https://github.com/qiime2/q2-feature-classifier', package='q2_feature_classifier', description=('This QIIME 2 plugin supports taxonomic ' 'classification of features using a variety ' 'of methods, including Naive Bayes, vsearch, ' 'and BLAST+.'), short_description='Plugin for taxonomic classification.', citations=[citations['bokulich2018optimizing']] ) q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/000077500000000000000000000000001411645176200234535ustar00rootroot00000000000000q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/__init__.py000066400000000000000000000022121411645176200255610ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import tempfile import shutil from warnings import filterwarnings from qiime2.plugin.testing import TestPluginBase class FeatureClassifierTestPluginBase(TestPluginBase): def setUp(self): try: from q2_feature_classifier.plugin_setup import plugin except ImportError: self.fail("Could not import plugin object.") self.plugin = plugin self.temp_dir = tempfile.TemporaryDirectory( prefix='q2-feature-classifier-test-temp-') filterwarnings('ignore', 'The TaxonomicClassifier ', UserWarning) def _setup_dir(self, filenames, dirfmt): for filename in filenames: filepath = self.get_data_path(filename) shutil.copy(filepath, self.temp_dir.name) return dirfmt(self.temp_dir.name, mode='r') q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/data/000077500000000000000000000000001411645176200243645ustar00rootroot00000000000000q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/data/class_weight.biom000066400000000000000000003243321411645176200277170ustar00rootroot00000000000000HDF  ڨ`  TREExHEAPX observationsample8 @id  @type  H format-url P format-version@ H generated-by Hcreation-date H shape@ 0 nnz@TREEGCOL No Table ID OTU tablehttp://biom-format.orgBIOM-Format 2.1.7-dev2019-07-29T19:01:00.169641\k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Anaerolineales; f__Anaerolinaceae; g__; s__@k__Bacteria; p__Tenericutes; c__RF3; o__ML615J-28; f__; g__; s__dk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__Coprococcus; s__ jk__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Saprospiraceae; g__Saprospira; s__ gk__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermodesulfobiaceae; g__; s__ tk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Eubacteriaceae; g__Pseudoramibacter_Eubacterium; s__ Ik__Bacteria; p__WWE1; c__[Cloacamonae]; o__[Cloacamonales]; f__; g__; s__ Ik__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__GIF9; f__; g__; s__\k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__ZA3409c; g__; s__xk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Oxalobacteraceae; g__Polynucleobacter; s__-k__Bacteria; p__OP11; c__; o__; f__; g__; s__Sk__Bacteria; p__Spirochaetes; c__[Brevinematae]; o__[Brevinematales]; f__; g__; s__Zk__Bacteria; p__Armatimonadetes; c__[Fimbriimonadia]; o__[Fimbriimonadales]; f__; g__; s__1k__Bacteria; p__TM7; c__MJK10; o__; f__; g__; s__uk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Alteromonadales; f__Alteromonadaceae; g__Marinobacter; s__8k__Bacteria; p__Verrucomicrobia; c__; o__; f__; g__; s__rk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Clostridium; s__thermopalmariumEk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__OPB11; f__; g__; s__bk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__; s__]k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Acidithiobacillales; f__; g__; s__zk__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermoanaerobacteraceae; g__Thermacetogenium; s__Bk__Bacteria; p__Elusimicrobia; c__Endomicrobia; o__; f__; g__; s__dk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__Lachnospira; s__vk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfarculales; f__Desulfarculaceae; g__Desulfarculus; s__Ck__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__; f__; g__; s__k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__[Entotheonellales]; f__[Entotheonellaceae]; g__Candidatus Entotheonella; s__ /k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__!kk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Dehalobacteriaceae; g__Dehalobacterium; s__"[k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__; s__#,k__Bacteria; p__FBP; c__; o__; f__; g__; s__$vk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Aeromonadales; f__Succinivibrionaceae; g__Ruminobacter; s__%.k__Bacteria; p__H-178; c__; o__; f__; g__; s__&Uk__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__; g__; s__'Xk__Bacteria; p__Deferribacteres; c__Deferribacteres; o__Deferribacterales; f__; g__; 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p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Oscillospira; s__?k__Bacteria; p__Chloroflexi; c__TK17; o__mle1-48; f__; g__; s__\k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__; s__Vk__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__TTA_B6; g__E6; s__Ck__Bacteria; p__Spirochaetes; c__MVP-15; o__PL-11B10; f__; g__; s__Dk__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__; f__; g__; s__6k__Bacteria; p__Acidobacteria; c__; o__; f__; g__; s__hk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Methylophilales; f__Methylophilaceae; g__; s__ wk__Bacteria; p__Deferribacteres; c__Deferribacteres; o__Deferribacterales; f__Deferribacteraceae; g__Deferribacter; s__ Vk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Chromatiales; f__; g__; s__ ck__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Peptococcus; s__ 3k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ lk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Paludibacter; s__Sk__Bacteria; p__Actinobacteria; c__Actinobacteria; o__WCHB1-81; f__55_st3; g__; s__>k__Bacteria; p__Tenericutes; c__Mollicutes; o__; f__; g__; s__-k__Bacteria; p__EM19; c__; o__; f__; g__; s__]k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Cercozoa; f__Chlorarachniophyceae; g__; s__Ik__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__; f__; g__; s__3k__Bacteria; p__OP11; c__OP11-4; o__; f__; g__; s__5k__Bacteria; p__GN02; c__GKS2-174; o__; f__; g__; s__-k__Bacteria; p__OC31; c__; o__; f__; g__; s__dk__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Streptococcaceae; g__Lactococcus; s__dk__Bacteria; p__Spirochaetes; c__Spirochaetes; o__[Borreliales]; f__[Borreliaceae]; g__Borrelia; s__lk__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__RFN20; s__zk__Bacteria; p__Chloroflexi; c__[Thermobacula]; o__[Thermobaculales]; f__[Thermobaculaceae]; g__Thermobaculum; s__terrenumk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Thiotrichales; f__Piscirickettsiaceae; g__Piscirickettsia; s__salmonisdk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Eubacteriaceae; g__Alkalibacter; s__0k__Bacteria; p__WS6; c__SC72; o__; f__; g__; s__ik__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodobacterales; f__Rhodobacteraceae; g__; s__,k__Bacteria; p__TM7; c__; o__; f__; g__; s__2k__Bacteria; p__OD1; c__SM2F11; o__; f__; g__; s__ xk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Thiotrichales; f__Piscirickettsiaceae; g__Thiomicrospira; s__!Nk__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__RB41; f__; g__; s__"ik__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__Dethiosulfovibrionaceae; g__HA73; s__#kk__Bacteria; p__Tenericutes; c__Mollicutes; o__Entomoplasmatales; f__Entomoplasmataceae; g__Mesoplasma; s__$0k__Bacteria; p__WS6; c__B142; o__; f__; g__; s__%4k__Bacteria; p__Tenericutes; c__; o__; f__; g__; s__&1k__Bacteria; p__GN04; c__GN15; o__; f__; g__; s__'nk__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Helicobacteraceae; g__; s__(Yk__Bacteria; p__Aquificae; c__Aquificae; o__Aquificales; f__Hydrogenothermaceae; g__; s__)nk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Acidaminobacteraceae]; g__Guggenheimella; s__*kk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptostreptococcaceae; g__Tepidibacter; s__+pk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__Nannocystaceae; g__Plesiocystis; s__,Ok__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__NB1-j; f__; g__; s__-jk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Geobacteraceae; g__; s__.sk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Geobacteraceae; g__Geobacter; s__/dk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Acidaminobacteraceae]; g__NP25; s__0`k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__HOC21; g__; s__1-k__Bacteria; p__GN04; c__; o__; f__; g__; s__2[k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__; g__; s__3fk__Bacteria; p__Actinobacteria; c__Coriobacteriia; o__Coriobacteriales; f__Coriobacteriaceae; g__; s__4Yk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Spirobacillales; f__; g__; s__5Jk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__; f__; g__; s__62k__Bacteria; p__WWE1; c__MSBL2; o__; f__; g__; s__7Lk__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__; g__; s__8Ok__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__EtOH8; g__; s__9Jk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__:fk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfurispora; s__;@k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__; f__; g__; s__<6k__Bacteria; p__Elusimicrobia; c__; o__; f__; g__; s__=ek__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Thiotrichales; f__Thiotrichaceae; g__; s__>0k__Bacteria; p__FCPU426; c__; o__; f__; g__; s__?Bk__Bacteria; p__Cyanobacteria; c__4C0d-2; o__SM2F09; f__; g__; s__@nk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Planococcaceae; g__Lysinibacillus; s__boronitoleransAvk__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__Chlamydomonadaceae; g__Chlamydomonas; s__reinhardtiiBvk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Tremblayales; f__Tremblayaceae; g__Candidatus Tremblaya; s__Cwk__Bacteria; p__Deferribacteres; c__Deferribacteres; o__Deferribacterales; f__Deferribacteraceae; g__Mucispirillum; s__D8k__Bacteria; p__Chloroflexi; c__TK10; o__; f__; g__; s__EPk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__DTB120; f__; g__; s__FNk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__Gak__Bacteria; p__Tenericutes; c__Mollicutes; o__Acholeplasmatales; f__Acholeplasmataceae; g__; s__H|k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Vibrionales; f__Pseudoalteromonadaceae; g__Pseudoalteromonas; s__ITk__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__; g__; s__JRk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__RF16; g__; s__Kok__Bacteria; p__Tenericutes; c__Mollicutes; o__Anaeroplasmatales; f__Anaeroplasmataceae; g__Asteroleplasma; s__LNk__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Stramenopiles; f__; g__; s__MMk__Bacteria; p__Firmicutes; c__Clostridia; o__Natranaerobiales; f__; g__; s__Nlk__Bacteria; p__Cyanobacteria; c__Synechococcophycideae; o__Pseudanabaenales; f__Pseudanabaenaceae; g__; s__OBk__Bacteria; p__Chloroflexi; c__Thermomicrobia; o__; f__; g__; s__PMk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__MND1; f__; g__; s__Q]k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Christensenellaceae; g__; s__RAk__Bacteria; p__Acidobacteria; c__iii1-8; o__DS-18; f__; g__; s__S_k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__AF12; s__Tmk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Odoribacteraceae]; g__Butyricimonas; s__UNk__Bacteria; p__WWE1; c__[Cloacamonae]; o__[Cloacamonales]; f__MSBL8; g__; s__Vbk__Bacteria; p__Spirochaetes; c__[Brachyspirae]; o__[Brachyspirales]; f__Brachyspiraceae; g__; s__WRk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Ellin329; f__; g__; s__X6k__Bacteria; p__WS3; c__PRR-12; o__GN03; f__; g__; s__Yck__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Caminicella; s__Z|k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Campylobacteraceae; g__Campylobacter; s__[Dk__Bacteria; p__Gemmatimonadetes; c__JL-ETNP-Z39; o__; f__; g__; s__\Ak__Bacteria; p__WS3; c__PRR-12; o__Sediment-1; f__CV106; g__; s__],k__Bacteria; p__AC1; c__; o__; f__; g__; s__^Dk__Bacteria; p__Proteobacteria; c__TA18; o__PHOS-HD29; f__; g__; s___7k__Bacteria; p__LCP-89; c__SAW1_B44; o__; f__; g__; s__`Qk__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__FW; g__4-29; s__aik__Bacteria; p__Dictyoglomi; c__Dictyoglomia; o__Dictyoglomales; f__Dictyoglomaceae; g__Dictyoglomus; s__b9k__Bacteria; p__Acidobacteria; c__TM1; o__; f__; g__; s__c9k__Bacteria; p__Elusimicrobia; c__OP2; o__; f__; g__; s__d3k__Bacteria; p__OP11; c__OP11-2; o__; f__; g__; s__e)k__Bacteria; p__; c__; o__; f__; g__; s__fkk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfobacterales; f__Desulfobulbaceae; g__; s__gQk__Bacteria; p__Fusobacteria; c__Fusobacteriia; o__Fusobacteriales; f__; g__; s__hyk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__Bdellovibrio; s__i9k__Bacteria; p__Spirochaetes; c__GN05; o__; f__; g__; s__j,k__Bacteria; p__OP8; c__; o__; f__; g__; s__ktk__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Spirochaeta; s__thermophilal6k__Bacteria; p__Cyanobacteria; c__; o__; f__; g__; s__mzk__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Helicobacteraceae; g__Sulfurimonas; s__nAk__Bacteria; p__Cyanobacteria; c__Chloroplast; o__; f__; g__; s__o1k__Bacteria; p__OP8; c__OP8_2; o__; f__; g__; s__pkk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Syntrophomonadaceae; g__Syntrophomonas; s__qJk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__rik__Bacteria; p__Firmicutes; c__Clostridia; o__Halanaerobiales; f__Halanaerobiaceae; g__Halanaerobium; s__s]k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Marinilabiaceae; g__; s__tgk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Alicyclobacillaceae; g__Alicyclobacillus; s__uhk__Bacteria; p__Spirochaetes; c__[Leptospirae]; o__[Leptospirales]; f__Leptospiraceae; g__Leptonema; s__vBk__Bacteria; p__Acidobacteria; c__BPC102; o__MVS-40; f__; g__; s__wYk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Procabacteriales; f__; g__; s__xk__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermoanaerobacterales Family III. Incertae Sedis; g__; s__yik__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__[Thermicanaceae]; g__Bacillus; s__solfatarensiszkk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Pelobacteraceae; g__; s__{Jk__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__; f__; g__; s__|bk__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__Rhodothermaceae; g__; s__}1k__Bacteria; p__Chlorobi; c__; o__; f__; g__; s__~9k__Bacteria; p__Chloroflexi; c__C0119; o__; f__; g__; s__qk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfosporosinus; s__meridieiRk__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__; g__; s__hk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__Pelagibacteraceae; g__; s__bk__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Chitinophagaceae; g__; s__Lk__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__; g__; s__jk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__Sedimentibacter; s__Fk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SJA-15; f__; g__; s__0k__Bacteria; p__MVS-104; c__; o__; f__; g__; s__ik__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfurellales; f__Desulfurellaceae; g__; s__Wk__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__NS9; g__; s__Wk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__Bacillus; s__ck__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__; s__:k__Bacteria; p__Chloroflexi; c__SAR202; o__; f__; g__; s__bk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Thermodesulfobacteriales; f__; g__; s__Dk__Bacteria; p__SAR406; c__AB16; o__ZA3648c; f__AEGEAN_185; g__; s__Ik__Bacteria; p__Spirochaetes; c__Spirochaetes; o__M2PT2-76; f__; g__; s__kk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__bromii?k__Bacteria; p__Gemmatimonadetes; c__Gemm-5; o__; f__; g__; s__\k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Symbiobacteriaceae; g__; s__nk__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__Rhodothermaceae; g__Rhodothermus; s__1k__Bacteria; p__TM7; c__TM7-1; o__; f__; g__; s__hk__Bacteria; p__Proteobacteria; c__Zetaproteobacteria; o__Mariprofundales; f__Mariprofundaceae; g__; s__Yk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__p-2534-18B5; g__; s__gk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__Bacteroides; s__Vk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__Ck__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__; f__; g__; s__Tk__Bacteria; p__Firmicutes; c__Clostridia; o__Natranaerobiales; f__YAB3B13; g__; s__zk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bacteriovoracaceae; g__Bacteriovorax; s__bk__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Cryomorphaceae; g__; s__Vk__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__Dehalococcoidales; f__; g__; s__bk__Bacteria; p__Chlorobi; c__Ignavibacteria; o__Ignavibacteriales; f__Ignavibacteriaceae; g__; s__Xk__Bacteria; p__Bacteroidetes; c__Sphingobacteriia; o__Sphingobacteriales; f__; g__; s__/k__Bacteria; p__TM7; c__SC3; o__; f__; g__; s__Qk__Bacteria; p__Spirochaetes; c__[Leptospirae]; o__[Leptospirales]; f__; g__; s__Sk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__\k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__; s__<k__Bacteria; p__Bacteroidetes; c__SM1A07; o__; f__; g__; s__lk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Dysgonomonas; s__ok__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Hyphomicrobiaceae; g__Rhodobium; s__ck__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__Nitrospiraceae; g__Nitrospira; s__Fk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SHA-20; f__; g__; s__ak__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Oxobacter; s__<k__Bacteria; p__OP9; c__OPB46; o__OPB72; f__TIBD11; g__; s__hk__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Bifidobacteriales; f__Bifidobacteriaceae; g__; s__Lk__Bacteria; p__Firmicutes; c__Clostridia; o__Halanaerobiales; f__; g__; s__kk__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__[Thermodesulfovibrionaceae]; g__LCP-6; s__fk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Francisellaceae; g__; s__5k__Bacteria; p__Poribacteria; c__; o__; f__; g__; s__Lk__Bacteria; p__Acidobacteria; c__Holophagae; o__Holophagales; f__; g__; s__Yk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Caulobacterales; f__; g__; s__Hk__Bacteria; p__Armatimonadetes; c__[Fimbriimonadia]; o__; f__; g__; s__lk__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Cryomorphaceae; g__Fluviicola; s__9k__Bacteria; p__TM7; c__TM7-3; o__CW040; f__F16; g__; s__sk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfobacterales; f__Nitrospinaceae; g__Nitrospina; s__;k__Bacteria; p__BHI80-139; c__bOHTK-109; o__; f__; g__; s__/k__Bacteria; p__GOUTA4; c__; o__; f__; g__; s__Wk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__ML635J-40; g__; s__gk__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__; s__^k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__PW3; s__?k__Bacteria; p__Cyanobacteria; c__ML635J-21; o__; f__; g__; s__Bk__Bacteria; p__Spirochaetes; c__GN05; o__SBYZ_6080; f__; g__; s__gk__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__Rhodocytophaga; s__Rk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__BS11; g__; s__|k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Halomonadaceae; g__Candidatus Portiera; s__;k__Bacteria; p__Spirochaetes; c__MVP-15; o__; f__; g__; s__Nk__Bacteria; p__Chloroflexi; c__Thermomicrobia; o__JG30-KF-CM45; f__; g__; s__wk__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__Dehalococcoidales; f__Dehalococcoidaceae; g__Dehalococcoides; s__3k__Bacteria; p__BRC1; c__PRR-11; o__; f__; g__; s__Tk__Bacteria; p__[Thermi]; c__Deinococci; o__Deinococcales; f__Trueperaceae; g__; s__`k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Saprospiraceae; g__; s__ik__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptostreptococcaceae; g__Filifactor; s__6k__Bacteria; p__Bacteroidetes; c__; o__; f__; g__; s__ek__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__[Balneolaceae]; g__KSA1; s__fk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__Prevotella; s__Uk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Tremblayales; f__; g__; s__]k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cyclobacteriaceae; g__; s__ik__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Pseudomonadaceae; g__; s__dk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__Megasphaera; s__ik__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Kordiimonadales; f__Kordiimonadaceae; g__; s__gk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfitobacter; s__Rk__Bacteria; p__Caldithrix; c__Caldithrixae; o__Caldithrixales; f__BA059; g__; s__hk__Bacteria; p__Chloroflexi; c__Chloroflexi; o__Chloroflexales; f__Chloroflexaceae; g__Chloroflexus; s__ek__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Pelotomaculum; s__Ok__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__FAC87; f__; g__; s__Pk__Bacteria; p__Acidobacteria; c__Solibacteres; o__Solibacterales; f__; g__; s__vk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__[Marinicellales]; f__[Marinicellaceae]; g__Marinicella; s__fk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Hyphomicrobiaceae; g__; s__?k__Bacteria; p__Gemmatimonadetes; c__Gemm-3; o__; f__; g__; s__/k__Bacteria; p__MVP-21; c__; o__; f__; g__; s__ck__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Coxiellaceae; g__; s__?k__Bacteria; p__Gemmatimonadetes; c__Gemm-1; o__; f__; g__; s__/k__Bacteria; p__TPD-58; c__; o__; f__; g__; s__dk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__Gallicola; s__8k__Bacteria; p__Firmicutes; c__OPB54; o__; f__; g__; s__pk__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__Bulleidia; s__6k__Bacteria; p__Chlorobi; c__OPB56; o__; f__; g__; s__Xk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Eubacteriaceae; g__; s__pk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__Bacteroides; s__uniformisRk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__GMD14H09; f__; g__; s__Ok__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__HOC36; f__; g__; s__?k__Bacteria; p__Fibrobacteres; c__SBZC_2415; o__; f__; g__; s__ck__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Clostridium; s__rk__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__Allobaculum; s__;k__Bacteria; p__TM7; c__TM7-3; o__I025; f__Rs-045; g__; s__Yk__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__Nitrospiraceae; g__; s__Xk__Bacteria; p__[Thermi]; c__Deinococci; o__Deinococcales; f__Trueperaceae; g__B-42; s__gk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Vibrionales; f__Vibrionaceae; g__Vibrio; s__[k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__; s__?k__Bacteria; p__Cyanobacteria; c__4C0d-2; o__YS2; f__; g__; s__Yk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__; s__,k__Bacteria; p__ZB3; c__; o__; f__; g__; s__\k__Bacteria; p__Firmicutes; c__Clostridia; o__Halanaerobiales; f__Halanaerobiaceae; g__; s__kk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Neisseriales; f__Neisseriaceae; g__Vogesella; s__ek__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Aeromonadales; f__Aeromonadaceae; g__; s__lk__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Flammeovirgaceae; g__Reichenbachiella; s__nk__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__PSB-M-3; s__ik__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__Xanthomonadaceae; g__; s__-k__Bacteria; p__CD12; c__; o__; f__; g__; s__fk__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__[Thermodesulfovibrionaceae]; g__; s__5k__Bacteria; p__AD3; c__JG37-AG-4; o__; f__; g__; s__nk__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__p-75-a5; s__/k__Bacteria; p__LCP-89; c__; o__; f__; g__; s__kk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Odoribacteraceae]; g__Odoribacter; s__Xk__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__Mamiellaceae; g__; s__`k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__Runella; s__hk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__Sinobacteraceae; g__; s__Nk__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__; g__; s__7k__Bacteria; p__Proteobacteria; c__; o__; f__; g__; s__Ek__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__; f__; g__; s__xk__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__Actinomycetaceae; g__Candidatus Ancillula; s__Ak__Bacteria; p__Bacteroidetes; c__VC2_1_Bac22; o__; f__; g__; s__\k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__[Entotheonellales]; f__; g__; s__-k__Bacteria; p__BRC1; c__; o__; f__; g__; s__Mk__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Haptophyceae; f__; g__; s__1k__Bacteria; p__TM6; c__SJA-4; o__; f__; g__; s__Rk__Bacteria; p__Fibrobacteres; c__Fibrobacteria; o__Fibrobacterales; f__; g__; s__=k__Bacteria; p__Firmicutes; c__Clostridia; o__; f__; g__; s__Yk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Alteromonadales; f__; g__; s__ 4k__Bacteria; p__OP9; c__JS1; o__BA021; f__; g__; s__ kk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Ardenscatenales; f__Ardenscatenaceae; g__Ardenscatena; s__ bk__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__Rudanella; s__ qk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophobacteraceae; g__; s__ ;k__Bacteria; p__Bacteroidetes; c__BME43; o__; f__; g__; s__ek__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__; s__]k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__02d06; s__Sk__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__; g__; s__gk__Bacteria; p__Tenericutes; c__Mollicutes; o__Mycoplasmatales; f__Mycoplasmataceae; g__Mycoplasma; s__=k__Bacteria; p__Acidobacteria; c__PAUC37f; o__; f__; g__; s__Fk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__CFB-26; f__; g__; s__mk__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__[Thermodesulfovibrionaceae]; g__GOUTA19; s__6k__Bacteria; p__Chlorobi; c__BSV26; o__; f__; g__; s__sk__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Chitinophagaceae; g__Sediminibacterium; s__nk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Clostridium; s__ljungdahliiZk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__OM27; g__; s__jk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Acidaminobacteraceae]; g__Fusibacter; s__lk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Coxiellaceae; g__Aquicella; s__ek__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__Rickettsiaceae; g__; s__ck__Bacteria; p__Acidobacteria; c__Acidobacteriia; o__Acidobacteriales; f__Koribacteraceae; g__; s__7k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ik__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__Succiniclasticum; s__Ok__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__; s__ rk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodobacterales; f__Rhodobacteraceae; g__Rhodobaca; s__!xk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfobacterales; f__Desulfobulbaceae; g__Desulfobulbus; s__"Ek__Bacteria; p__Chloroflexi; c__Anaerolineae; o__S0208; f__; g__; s__#sk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__Myxococcaceae; g__Anaeromyxobacter; s__$ik__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__Flexibacter; s__ruber%]k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__SMB53; s__&Tk__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__; g__; s__'uk__Bacteria; p__Chloroflexi; c__Chloroflexi; o__Chloroflexales; f__[Chlorothrixaceae]; g__Candidatus Chlorothrix; s__(Vk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Sva0853; f__JTB36; g__; s__)Wk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__*Ek__Bacteria; p__Acidobacteria; c__Acidobacteria-6; o__; f__; g__; s__+4k__Bacteria; p__Chloroflexi; c__; o__; f__; g__; s__,fk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Moraxellaceae; g__; s__-jk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Thiotrichales; f__Piscirickettsiaceae; g__; s__.wk__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__[Chloracidobacterales]; f__[Chloracidobacteraceae]; g__; s__/Lk__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__Elev-1554; f__; g__; s__0\k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Gracilibacteraceae; g__; s__1Jk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__2Yk__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Lactobacillaceae; g__; s__3Wk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__[Exiguobacteraceae]; g__; s__4_k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptostreptococcaceae; g__; s__5]k__Bacteria; p__Tenericutes; c__Mollicutes; o__Mycoplasmatales; f__Mycoplasmataceae; g__; s__6@k__Bacteria; p__Armatimonadetes; c__0319-6E2; o__; f__; g__; s__7fk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Comamonadaceae; g__; s__8nk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfohalobiaceae; g__; s__9nk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__[Prevotella]; s__:_k__Bacteria; p__Thermotogae; c__Thermotogae; o__Thermotogales; f__Thermotogaceae; g__SC103; s__;Jk__Bacteria; p__OP1; c__[Acetothermia]; o__[Acetothermales]; f__; g__; s__<Xk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__; s__=^k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__Chlamydomonadaceae; g__; s__>xk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Reclinomonas; s__americana?Fk__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__IIb; f__; g__; s__@jk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Procabacteriales; f__Procabacteriaceae; g__; s__ANk__Bacteria; p__Lentisphaerae; c__[Lentisphaeria]; o__Z20; f__R4-45B; g__; s__B7k__Bacteria; p__WS2; c__Kazan-3B-09; o__; f__; g__; s__C5k__Bacteria; p__BRC1; c__NPL-UPA2; o__; f__; g__; s__DYk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__E7k__Bacteria; p__SBR1093; c__A712011; o__; f__; g__; s__FIk__Bacteria; p__Gemmatimonadetes; c__Gemmatimonadetes; o__; f__; g__; s__GOk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__BD7-3; f__; g__; s__Hok__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Campylobacteraceae; g__; s__I`k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__; s__Jok__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Acidaminobacteraceae]; g__Acidaminobacter; s__Kwk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Parabacteroides; s__gordoniiLbk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__Blvii28; s__M`k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__GW-34; s__Nhk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfotomaculum; s__Oek__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__P_k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__0319-6G20; g__; s__Qkk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__; s__R@k__Bacteria; p__Actinobacteria; c__MB-A2-108; o__; f__; g__; s__Skk__Bacteria; p__Bacteroidetes; c__Sphingobacteriia; o__Sphingobacteriales; f__Sphingobacteriaceae; g__; s__T\k__Bacteria; p__WWE1; c__[Cloacamonae]; o__[Cloacamonales]; f__[Cloacamonaceae]; g__W22; s__U4k__Bacteria; p__Kazan-3B-28; c__; o__; f__; g__; s__VFk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__pLW-97; f__; g__; s__Wsk__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__Dethiosulfovibrionaceae; g__Pyramidobacter; s__Xvk__Bacteria; p__Gemmatimonadetes; c__Gemmatimonadetes; o__Gemmatimonadales; f__Gemmatimonadaceae; g__Gemmatimonas; s__Y^k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__; s__ZVk__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Bifidobacteriales; f__; g__; s__[\k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Mogibacteriaceae]; g__; s__\2k__Bacteria; p__WS3; c__PRR-12; o__; f__; g__; s__]lk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Endozoicimonaceae; g__; s__^ek__Bacteria; p__Chloroflexi; c__[Thermobacula]; o__[Thermobaculales]; f__[Thermobaculaceae]; g__; s___Zk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Pasteuriaceae; g__Pasteuria; s__`jk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophaceae; g__; s__aVk__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Aerococcaceae; g__; s__bSk__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__; g__; s__cUk__Bacteria; p__Thermotogae; c__Thermotogae; o__Thermotogales; f__BHI80-139; g__; s__dlk__Bacteria; p__Tenericutes; c__Mollicutes; o__Mycoplasmatales; f__Mycoplasmataceae; g__Mycoplasma; s__pirumeBk__Bacteria; p__Firmicutes; c__Clostridia; o__MBA08; f__; g__; s__f:k__Bacteria; p__Acidobacteria; c__OS-K; o__; f__; g__; s__gWk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__hjk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Aeromonadales; f__Succinivibrionaceae; g__; s__i@k__Bacteria; p__Planctomycetes; c__vadinHA49; o__; f__; g__; s__jfk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Heliobacteriaceae; g__Heliorestis; s__kZk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Salinisphaerales; f__; g__; s__lJk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__mdk__Bacteria; p__Firmicutes; c__Clostridia; o__Natranaerobiales; f__Anaerobrancaceae; g__A55_D21; s__ngk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__YRC22; s__oWk__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__RB41; f__Ellin6075; g__; s__p\k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__Pontibacillus; s__qwk__Bacteria; p__Tenericutes; c__Mollicutes; o__Acholeplasmatales; f__Acholeplasmataceae; g__Candidatus Phytoplasma; s__rak__Bacteria; p__Tenericutes; c__Mollicutes; o__Anaeroplasmatales; f__Anaeroplasmataceae; g__; s__sk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; g__Desulfovibrio; s__C21_c20tXk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__; s__uck__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Caloramator; s__v_k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Barnesiellaceae]; g__; s__wNk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__RF32; f__; g__; s__xVk__Bacteria; p__Firmicutes; c__Clostridia; o__Natranaerobiales; f__ML1228J-1; g__; s__yhk__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__Dethiosulfovibrionaceae; g__TG5; s__zNk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__MKC10; f__; g__; s__{ok__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Sphaerochaetales; f__Sphaerochaetaceae; g__Sphaerochaeta; s__|Wk__Bacteria; p__Acidobacteria; c__Solibacteres; o__Solibacterales; f__PAUC26f; g__; s__}Tk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Paenibacillaceae; g__; s__~3k__Bacteria; p__GN02; c__3BR-5F; o__; f__; g__; s__Fk__Bacteria; p__Planctomycetes; c__vadinHA49; o__PeHg47; f__; g__; s__3k__Bacteria; p__AC1; c__SHA-114; o__; f__; g__; s__tk__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Ardenscatenales; f__Ardenscatenaceae; g__Ardenscatena; s__maritimuspk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__Paraprevotella; s__gk__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__[k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__; g__; s__Ok__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__MIZ46; f__; g__; s__<k__Bacteria; p__Armatimonadetes; c__OS-L; o__; f__; g__; s__Sk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__SBYG_4172; g__; s__Mk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__EC94; f__; g__; s__?k__Bacteria; p__Bacteroidetes; c__At12OctB3; o__; f__; g__; s__<k__Bacteria; p__Actinobacteria; c__OPB41; o__; f__; g__; s__zk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Geobacteraceae; g__Geobacter; s__lovleyisk__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__Flavobacterium; s__0k__Bacteria; p__AC1; c__TA06; o__; f__; g__; s__>k__Bacteria; p__Acidobacteria; c__DA052; o__E29; f__; g__; s__gk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__CF231; s__Pk__Bacteria; p__Chloroflexi; c__Chloroflexi; o__Herpetosiphonales; f__; g__; s__Dk__Bacteria; p__Acidobacteria; c__Sva0725; o__Sva0725; f__; g__; s__Kk__Bacteria; p__Chloroflexi; c__Thermomicrobia; o__Ellin6537; f__; g__; s__9k__Bacteria; p__Chlorobi; c__BSV26; o__C20; f__; g__; s__k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophobacteraceae; g__Syntrophobacter; s__Mk__Bacteria; p__WWE1; c__[Cloacamonae]; o__[Cloacamonales]; f__CW-1; g__; s__2k__Bacteria; p__GN02; c__IIB17; o__; f__; g__; s__Sk__Bacteria; p__Chlorobi; c__Chlorobia; o__Chlorobiales; f__Chlorobiaceae; g__; s__Rk__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Planococcaceae; g__; s__ak__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__[Balneolaceae]; g__; s__2k__Bacteria; p__GN02; c__BD1-5; o__; f__; g__; s__jk__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__Tepidimicrobium; s__yk__Bacteria; p__Cyanobacteria; c__Synechococcophycideae; o__Pseudanabaenales; f__Pseudanabaenaceae; g__Pseudanabaena; s__1k__Bacteria; p__OP1; c__OPB14; o__; f__; g__; s__Ok__Bacteria; p__Tenericutes; c__Mollicutes; o__Entomoplasmatales; f__; g__; s__mk__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Porphyromonas; s__,k__Bacteria; p__TM6; c__; o__; f__; g__; s__:k__Bacteria; p__Chloroflexi; c__SHA-26; o__; f__; g__; s__Sk__Bacteria; p__Chloroflexi; c__Thermomicrobia; o__Thermomicrobiales; f__; g__; s__,k__Bacteria; p__SR1; c__; o__; f__; g__; s__gk__Bacteria; p__Firmicutes; c__Bacilli; o__Turicibacterales; f__Turicibacteraceae; g__Turicibacter; s__.k__Bacteria; p__WPS-2; c__; o__; f__; g__; s__|k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; g__Desulfovibrio; s__Yk__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__; g__; s__ek__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__Streptomycetaceae; g__; s__=k__Bacteria; p__Tenericutes; c__CK-1C4-19; o__; f__; g__; s__-k__Bacteria; p__GN02; c__; o__; f__; g__; s__Wk__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Kiloniellales; f__; g__; s__Xk__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__; g__; s__Lk__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__B12-WMSP1; f__; g__; s__]k__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__Thermovirgaceae; g__; s__gk__Bacteria; p__Cyanobacteria; c__Oscillatoriophycideae; o__Oscillatoriales; f__Phormidiaceae; g__; s__6k__Bacteria; p__OP8; c__OP8_1; o__OPB95; f__; g__; s__ik__Bacteria; p__Actinobacteria; c__Nitriliruptoria; o__Nitriliruptorales; f__Nitriliruptoraceae; g__; s__jk__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermoanaerobacteraceae; g__; s__3k__Bacteria; p__Chlamydiae; c__; o__; f__; g__; s__Mk__Bacteria; p__Caldithrix; c__Caldithrixae; o__Caldithrixales; f__; g__; s__mk__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfobacterales; f__Desulfobacteraceae; g__; s__<k__Bacteria; p__WS3; c__PRR-12; o__Sediment-1; f__; g__; s__Yk__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__; s__7k__Bacteria; p__Chlorobi; c__SJA-28; o__; f__; g__; s__ok__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; 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>Sequence2 CCTGCACTTTCTCT >Sequence3 AGAGAACCTGCAGG >Sequence4 AGAGAACGGGCAGG >Sequence5 CCTGCAAGTTCTCT q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/data/dna-sequences-reverse.fasta000066400000000000000000000002021411645176200316020ustar00rootroot00000000000000>Sequence1 CCTGCACGTTCTCT >Sequence2 CCTGCACTTTCTCT >Sequence3 CCTGCAGGTTCTCT >Sequence4 CCTGCCCGTTCTCT >Sequence5 CCTGCAAGTTCTCT q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/data/dna-sequences.fasta000077500000000000000000000002021411645176200301340ustar00rootroot00000000000000>Sequence1 AGAGAACGTGCAGG >Sequence2 AGAGAAAGTGCAGG >Sequence3 AGAGAACCTGCAGG >Sequence4 AGAGAACGGGCAGG >Sequence5 AGAGAACTTGCAGG q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/data/se-dna-sequences.fasta000066400000000000000000005274761411645176200305710ustar00rootroot00000000000000>1111561 ATTGAACGCTGGCGGCACGCCTAACACATGCAAGTCGAACGGCAGCGGGGGAAAGCTTGCTTTCCTGCCGGCGAGTGGCGGACGGGTGAGTAATGCGTAGGAATTTGCCATTAAGAGGGGGACAACTCGGGGAAACTCGAGCTAATACCA >1111090 GACGAACGCTGGCGGCGGGTTTAACACATGCAAGTCGAGGGACGAAACCATCTTCGGATGGCTGAAACCGGCGAACGGGTGAGTAACACGTGACCAACCTGCCCTTCACTCAGGGATAACAGCGGGAAACCGTTGCTAACACCTGATACC >1110814 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGCGAAAGGCTCCTTCGGGGGCCGAGTAGAGTGGCGAACGGGTGAGTAACACGTGGGTAACCTGCCCAAGAGCGGGGGACAACGTCGGGAAACCGGCGCTAATACCGCATA >1109993 GGTGAACGCTGGCAGCGTGCCTAATGCATGCAAGTCGAGCGGGGAGGGGAAACCCTCCCAGCGGCGAACGGCTGAGTAATATATAGCTGACCTACCCACCGGTGGGGGATAACCTCGGGAAACTGGGGCTAATACCGCATAATATAAGCT >1107824 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGATGAGAGGAGCTTGCTCCTTAATTCAGCGGCGGACGGGTGAGTAATGCCTAGGAATCTGCCTGGTAGTGGGGGACAACGTTTCGAAAGGAACGCTAATACCGCATACG >1107031 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAACGATGCTTATGTAGCAATATGTAAGTAGAGTGGCGCACGGGTGAGTAACGCGTATGTAATCTGCCTTTGGCTCTGGGATAACACCTCTAACGAGATGCTAATACCAGATGAT >1105560 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGATGTAGCAATACATAGTGGCGCACGGGTGCGTAACACGTGGGAACTTACCTTGTAGTATGGAATAACGTCGGGAAACTGACGCTAATACCATATACGCCCTTCGGGGGA >1071670 AGCGAACGTTGGCGGCGTGCCTAACACATGCAAGTCTTGGGGGAAAGTACCTTCGGGTATGAGTACACCGGCGCACGGGTGAGTAACGCGTGGATAACCTACCCTGTAGATTGGAATAACGAGCCGAAAGGCTCGCTAATGCCGAATAAC >1014707 AACGAACGCTGGCGGCATGCCTTACACATGCAAGTCGAACGCGAAAGCCCTTTCGGGGGTTAGTAGAGTGGCAAACGGGTGAGTAACGCGTGGGAATCTACCTTTAGGTGCGGAATAGCCTCGGGAAACTGGGATTAATACCGCATGATG >1003093 AATCAACGCTGGCGGCGTGCCTCAGACATGCAAGTCGAACGCGAAAGCCCCCTTCGGGGGGCAAGTAGAGTGGCGCACGGGTGAGTAACACGTAGGTAATCTACCTTTGGATGGGGAATAACAACCGGAAACGGTTGCTAATACCGCATA >990307 GACGAACGCTGGCGGCGTGCCTAATACATACAAGTCGAGCGCGAGAAGCAAGCAGATTCCTTCAAAAAGAAACTTGTGGAACGAGCGGCGGATGGGTGAGTAACACGTAGGTAACCTACCTATAAACTTAAAATAACTTCGGGAAACCGG >945028 GATGAACGCTAACGGCAGGCCTAATACATGCAAGTCGTACGGTATTCCGGTTTCGGCCGGGAGAGAGTGGCGGATGGGTGCGTAACGCGTATGCAACCTGCCCGGTACAGGCGGATAGCCCCCGGAAACGGGGATCAATACGCCGTGTTG >897404 GACGAACGCTGGCGACGTGCTTAACACATGCAAGTCGTGCGAGGACGGGCGGTGCTTGCACTGCTCGAGCCGAGCGGCGGACGGGTGAGTAACACGTGAGCAACCTATCTCCGTGCGGGGGACAACCCGGGGAAACCCGGGCTAATACCG >867408 GACGAACGCTGGCGGCATGCCTAACACATGCAAGTCAAGGGGCCTTCGGGTCACTGGCGCACGGGTGAGTAACGCGTAGATTATCTGCCCATATCTCTGACATAACTGCGGGAAACTGTAGCTAATATCAGATGAGGCCTACGGGTCAAA >840765 GACGAACGCTGGCGGCGCGCCTAATACATGCAAGTCGAGCGTGAAAAGGGGGCAACCCCTGAGTAAAGCGGCGCACGGGTGAGTAACGCGTTGGTGATCTACCCCCGAGTCTGAGATAACCTTTGGAAACGAGGGCTAATACCGGATGAC >838996 AACGAACGCTGGTGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGTTTCCTTCGGGAAATTAGTAAAGTGGCGCAAGGGTGAGTATCACGTGAATAATCTGCCCTCGAGATCGGGATAACATGGTGAAAACTATGCTAATACCGGATA >836717 GACTAACGCTGGCGGCGTGTCTTAGCCATGCAAGTCGAACGGACCAATTTTTAGTAGTAATACTGTTTATTGGTTAGTGGCGAATGGGTGAGTAACACGTGAATAATCTACCCCGAAGAGGTGGATAACAGGTCGAAAGGCCTGCTAATA >835118 GATGAACGCTGGCGGCATACTTAACACATGCAAGTCTTAGGAGAAAGCAACCTTCGGGATGCAAGTAAACTGGCGGACGGGTGCGTAACGCGTAGACAACCTACCTCTTAGATTGGAATAACTTCGGGAAACCGAAGCTAATGCCAAATA >835097 GACGAACGCTGGCGGTGCGCTTCATGCATGCAAGTCGAGCGAAAGACCCCGGGCTTGCCCGGGTGATTTAGCGGCGGACGGCTGAGTAACACGTGAGAAACTTGCCCTTAGGCGGGGGACAACCATGGGAAACTGTGGCTAATACCGCAT >831548 GATGAACGTTGGCGGCGTGCCTAAGGTATGCAAGTCGAACGCCCGCTTCGGCGGGAGTGGCGAACGGCTGAGTAACGCGTAGGAACTTTCCCTTAAGTCAAGGATAGCTACTCGAAAGGGTAATTAATCCTGGATAGTCCCCTCCTTTGT >831289 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCATCCTTCGGGGTGAGTGGCAGACGGGTGAGTAACGCGTGGGAACGTGCCCTTCAGTTCGGAATAACCCAGGGAAACTTGGGCTAATACCGGATACGTGCGAGAGCAGA >829438 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCTAAGGAGAAAGTATTCTTCGGAATATTATTAAACTGGCGAACGGGTGAGTAACGCGTAGGCAACCTACCTTATAGATTGGAATAACCTTGAGAAATCGGGGCTAATACCGAATA >828361 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTGGAGCGACGAACCAGGCTTCGGTCTGGGGCAAAGCCGCGAACGGGTGAGTAACACGTGGGTAACCCACCCCGGTGACCGGGACAACCCGAGGAAACTCGGGCTAATACCGGATGA >828017 GATGAACGCTGGCGGCGCACTTAACACATGCAAGTCGAACGAACTGACAGATAAAAGATAGCCTAGTGTTATCGACTATAGGTCAGTTAGTGGCGAACGGGTGAGTAACACGTAGGTGACCTGCCCCGAAGAGGGGAATAACTGTCGGAA >824826 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGTGAAGAAGCAGCAATGTTTCTGAAAGTGGCGGACGGGTGAGTAACACGTGGGTGACCTGCCTTGTAGTGGGGGATAACCATGGGAAACTGTGGCTAATACCGCATGGTC >824639 AACAAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGGGGAAAGTAGCAATACGAGTACTAGTGGCGCACGGGTGAGTAACGCGTGGGTGATCTGCCTCGGAGTGGGGGATAACCAGTCGAAAGATTGGCTAATACCGCATAAGAC >824619 ATTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAACGAGATTTTGACCAAGGCTTCGGCCAAGGGATTTTTCAAGTTAGTGGCGCACGGGTGAGTAACACGTGGATAATCTGCCCAACAGCTCGGAATAACAGTTGGAAACG >820524 GACGAACGCTGGCGGCGGGCCTAACACGTGCAAGTCGAACGCACTCGACCTTCGGGTCATATGAGTGAGTGGCGAACGGGTGAGTAACACGTGAGAAACCTGCCCCGAAGACCGGAATAACCCGAGGAAACTCGGGCTAATACCGGATGC >817295 AATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGGTAGCAATACCTAGTGGCGGACGGGTGAGTAACGCGTGGGGAATCTGCCTATTAGTGGGGGACAACAGCTTGAAAAGGCTGCTAATACCGCATATGCTCACGGCTTG >815917 GACTAACGCTGGCGGCGTGTCTTAGACATGCAAGTCGAACGGGACTTATTCTGTAGCAATACAGGATAAGTTTAGTGGCGAACGGGTGAGCAATACAAGGACAATCTGCCTTTGGGTGGAGCATAACTCCGAGAAATCGGAGCTAATTCT >814384 AACGAACGCTGGCGGCGTGCTTCATACATGCAAGTCGAACGAGAAATCCCGGGCTTGCTCGGGATAGTAAAGTGGCATACGGGTGAGTAACACGTGGGCAACCTGCTCTCAAATTGGGGATAACTCTGCCAACGCGGGGCTAATACCGAA >813334 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCAAGGGGAAAGTCACTTTCGGGTGGTGAGTATACTGGCGGACGGGTGAGTAACGCGTAGGTAACCTGCCCTTATGTTTGGGATAACCTTGCGAAAGCGGGGCTAATACCGGATGG >813266 ATTGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGGGGCAGCGATGCCTTAGTGGCGGACGGGTGAGTAACGCGTAGGGATCTACCTGGCAATGGGGGACAACCTGGGGAAACTCAGGCTAATACCGCATACGCTCGTGAGAG >813052 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGAATTAGCAATAATTCTTAGTGGCGAACGGGTGAGTAACGCGTGGGCAATCTGCCCTTCAGATGGGGACAACATTCCGAGAGGGGTGCTAATACCGAATACGACCTT >811916 AGCGAACGCTAGCGGAATGCTTTATACATGCAAGTCGAACGGATTTTGATTTTTGTAGCAATACAAAGATCACGATTAGTGGCGAACGGGTGAGTAATAGTTAGGAACTTGCCGAATAGTGGGGGACAACAGTTAGAAATGACTGCTAAT >810847 GATGAACGCTGGCGGTTTTGCTTAACACATGCAAGTCGAACGAGGTATGAGGGCGGAAGTTTTCGGACGGAAGACCTTGTACTGAGTGGCGGACGGGTGAGTAACGCGTGGGAAACCTGCCCTGTTCCGGGGGATACCAGTTGGAAACGA >808882 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAACGGAGATACATTACGGAAGTTTTCGGATGGAAGTTATGTATCTTAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCTTACAGAGGGGGATAACGTTTGGAAACGAA >808017 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTTCTTTATTCAAGCTTGCTTGGGTAAAGGATAGCGGCGAACGGGTGAGTAACGCGTGGGTGACCTGCCCGGGAGATCGGGATAACAGTTCGAAAGGGCTGCTAATACC >806709 GACGAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGAACGCAGCAGCTTCGGCTGGCTGCGTGGCGAACGGCTGAGGAACACGTGGGTGACCTGCCCCGGAGTGGGGGATACCCCGTCGAAAGACGGGATAATCCCGCATACGCTCTAC >771894 GACGAACGCTGACGGCGTGGATTAGGCATGCAAGTCGAACGAGAAACCCCTGATTCGTCAGGGGGAGTAAAGTGGCGAACGGGTGAGTAACACGTAGGTATCTATCTTATAGACTGGGATAGCTCCGAGAAATTGGAGGTAATACCGGAT >770526 AGCGAACGTTAGCGGCGGGCCTAACACATGCAAGTCGAACGAGAACGCTCCTTCGGGAGTTATTAAAGTGGCGCACGGGTGAGGAACGCGTAGGTAATTTACCCTTTGGCGGGGGACAACATTCCGAAAGGAATGCTAATACCGCGTAAG >770090 GATGAACGCTGGCGGCGTGCCTTATACATGCAAGTCATACGGGCCGTTATTTTTAAATTGCAAATTGTTAATAATGGCCAGTGGCGAACGGCTGAGTAACACGTGGGAACTTCCTTTAAGTTCGGAATAACTCTCCGAAAGGAGAGCTAA >762827 GACTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACTGTAGCAATACAGTCAGTGGCAGACGGGTGAGTAACACGTAGATAACCTACCCCTCCGTTGGGGATAGCCACTGGAAACGGTGGGTAAAACCGAATATTCTCATTT >749727 GATTAACGCTAGCGGAAGGCATAATACATGCAAGTCGAACGGGATAGAACTTAGCAATAGGTTCTTGAGAGTGGCGCACGGGTGCGTAACACGTATGCAACCTACCTTTAACTGGGGGATAGCCTCTCGAAAGAGAGATTAATACCCCAT >741546 GATTAATGTTGGTAATATGCTTAACACATGCAAGTCGAGCGGAAAGTGTTAGTAATATCACTTTTAGCGGCGAGCGAGTGAGTAATGCTTATCTTATTTGCCAATTAGTGGAGGACGTGTTGAAAAGGTCCTGCAAAGGATCTTCTAACT >674402 AACGAACGATGGCGGTGTGCTTATTACATGCAAGTCGAGCGGTCAGTGCTTCGGTACTGATAGCGGCGGACGGGTGAGTAAAATATAGATAACCTACCTTTCTGAGGGGGATAGCAGTTCGAAAGAGCTGGTAATACCGCGTAAGATTTA >673678 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGGCAGTAGAACCAGCAATGGTTCTGCGAGAGTGGCGAACGGGTGCGTAACGCGTATGCAACCTACCTCCAACTGGGGAATAGCCCTGGGAAACCGGGATTAATACCGCAT >669210 AACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGACTAGCCCCTTCGGGGGCGAAGTTAGTGGCGAACGGGTGAGTAACGCGTAAGTAACCTGCCCCCGGGACTGGGATAACAGCTCGAAAGAGCCGCTAATACCGGATAAT >668513 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGAGCCATCTGATAGATCCCTTCGGGGTGACATCGGGGAAGCTTAGCGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCCTTAAGAGGGGAATAACACACCGAAAGGT >667312 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTGAAAGCGGAGCTTGCTCCGCTGGATCAGTGGCGAACGGGTGAGTAACACGTGGGCAACCTGCCCTTCACTTCGGGATAACTCCGGGAAACCGGGGCTAATACCGAAT >660890 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAGATGATTTAATGCTTGCATTAAAGATTCTAGTGGCGAACGGGTGAGTAACACGTAGGAAACTTACCCCAAAGACGAGGATAACTGTGAGAAATTGCAGCTAATACTGG >649393 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGGACGGTCTTCTGTTGAAAGCTTACTGGATGCAGGAGATAGTGGCGGACGGGTGAGTAACGCGTGAATACCTGTCCATCGGAGGGGGACAACGGCTGGAAACGGCCGCTAATAC >633005 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAATTCTATGGTGCTTGCACTATAGAGTTAGCGGCAGACGGGTGAGTAATACATGGGAATCTACCTTATAGTGTGGGATAACAAATGGAAACAATTGCTAATACCACATA >627001 ATTGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGTAACAGCGGGAGCTTGCTCCCGGCTGACGAGTGGCGGACGGGTGAGTAACGCATAGGAATCTGCCCAATAGTGGGGGACAACCTGGGGAAACTCAGGCTAATACCGCA >624542 GATAAACGCTGGCGGCGTGCCTAATACATGCAAGTCGATCGGAGAGTTTCAAGCTTGCTTGAGACTTTCAGAGGCGAACGGGTGAGTAATACATAAGCAACCTGCCCACGAAGACCGGGATAACATCTGGAAACGGGTACTAAAACCGGA >624434 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGGATTAGTTGGGGGGTTTACTCCTGACTGATCCTAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTACCCATGAGAGGGGGATAGCCCTGGGAAACCGGGGCTAAT >609400 AACGAACGTTGGCGGCGTGGATTAGGCATGCAAGTCGAACGAGAAAGTCCCCTTCGGGGGGCAAGTAGAGTGGCGAACGGGTGAGTAACGCGTGGGGAATTTGCCTGGAAGTGGGGAATAACCTTCCTAACGGGGGGCTAATACCGCATG >594442 GATGAACGCTAGCGGCAGGCCTAACACATGCAGGTCGAACGGTAAGGTCCCGACTTGTCGGGATACACGAGTGGCGCACGGGTGAGTAACGCGTATGCAACTTACCCCCGACCGGGGGATAGCTCCCGGAAACGGGAATTAATACCCCAT >594355 ATTGAACGCTGGCGGCATGCCTTACACATGCAAGTCGAACGGCAGCACGGGTGCTTGCACCTGGTGGCGAGTGGCGAACGGGTGAGTAATACATCGGAACGTACCTTATCGTGGGGGATAACGCAGCGAAAGTTGCGCTAATACCGCATA >593705 GGCGAACGCTAGCGGCGTGGATTAGGCATGCAAGTCGAACGAGAAAGCCCCTCGGGGTAAGTAAAGTGGCGAACGGGTGAGTAACGCGTGGGTAACCTGCCCTTTGATTTGGGATAACACTTCTAGCGGAGTGCTAATACCGGAGATGTC >593516 GATTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAATATCTTCGGATATTTAGTGGCGAACGGGTGAGTAATGTACAGGTAATGTACCTTCGTACTGCGAATAACAAGCTGAAAAGTTTGCTTATACGGAATAGTTTCCTTC >592682 ATTGAACGCTGGCGGAATGCCTTACACATGCAAGTCGAGCGGCAGCGCGGGGGCAACCCTGGCGGCGAGCGGCGAACGGGTGAGTAATACATCGGAACGTGTCCTTGAGTGGGGGATAGCTCGGCGAAAGCCGGATTAATACCGCATAAG >592622 GACGAACGCTAGCGGCGTGCCTAAGGTATGCAAGTCGAACGGCCCGCAAGGGCAGTGGCGAACGGTTGAGTAACACGTAGACAACCTGCCTCGAAGTGGGGGACAACAGCGGGAAACTGCTGCTAATACCGCATGTGGCCTCTCAACGCC >591061 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCAAGGTCTGGCGAACTTCGGTTCAAAGGAACTGGCGAACGGGTGAGTAACGCGTAGGCAACCTGCCCATAACTCCGACATAACACCCCCAACGGGGTGCTAATATCGGGCGTGCA >589987 GATTAACGTTGGCGGCATGCCTAACACATGCAAGTCGAATGCCGATTTATCGGCATGGCGGACGGCTGAGTAACGCGTGGGAACCTACCTTTGGGTCGAGAATAACCCCGGGAAACCGGGGATAATACTCGATATACCTCCGGGTGAAAG >589920 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGCAGCGTGGTAGTGCTTGCACTACTGACGGCGAGTGGCGAACGGGTGAGTAATGCATCGGAATGTACCGAGTAATGGGGGATAACTAATCGAAAGATTAGCTAATACCG >589504 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGAAGGGACTTCGGTCCCGAGAGCGGCGGACGGGTGAGGAGAGCGTGGGAATCTGCCTGTAGATGGGGGATAGCCCGGAGAAATCCGGATTAATACCGCATAATACCTGA >587162 AACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGTAACAGGTCTAGCTTGCTAGATGCTGACGAGTGGCGCACGGGTGAGTAACGCGTGGATAACGTGCCTTTCGATTGGGGACAACTTGGGGAAACTCGAGCTAATACCGA >586980 GACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGAGCGGTAAGTTGGTAGCTTGCTACTAACCTAGAGCGGCGGACTGGTGAGTAACGCGTGGGTGACGTACCCTTGTGACGGGGATAGCTCCTAGAAATAGGAGATAATACCGGAT >586971 GATGAACGCTAGCGGGATGCCTAACACATGCAAGTCGAACGGTCCTTCGGGACAGTGGCAAACGGGCGAGTAACGCGTACTTAACCTGCCCAAGAGTTGGGGACAACTGTAGAGATACAGCTAATCCCCAATATCCCCTAAGAAATGAAA >584918 AATTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTACGAGAAAGTTCTTCGGAATGAGTACAGTGGCGAACGGGTGCGTAACACGTAGGTAATCTGCCCTTAAGAGAGGGATAACATGCCGAAAGGCGTGCTAATACCTCATAATAT >584597 ATTGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGGTAACATTGGAGCTTGCTTCCAGGCGTCGAGTGGCGGACGGGTGCGTAACGCGTAGGAATTTACCTTATAGTCGGGGACAACTCGAGGAAACTCGAGCTAATACCGGAT >584502 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAATCTGATTCGTCAGATGAGTAAAGTGGCAGACGGGTGAGTAACAGGTAGGTAATCTACCCTCGAGAAAGGAATAACCCACCGAAAGGTGGGCTAATACCTTATA >583967 GACGAACGCTGGCGGCGTGCCTAAAACATGCAAGTCGAACGAGGCCTTTGGCCTAGTGGCGAACGGCGGAGTAATACATAGGCAACGTGCCCCGACGACCGGGATAGCCCCTCGAAAGAGGGATTAATACCGGATGTGGCCACCTGTGGG >581599 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCAAAGGAAAGCAGCTTCGGCTGGGAGTACTTGGCGCAAGGGTGAGTAACGTATAGGTAATCTGCCCTTTGGACTGGAATAACCCCGAGAAATCGGGGACAATACCAGATGAAGCA >581410 AACGAACGCTAGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGTCCACTTCGGTGGATGAGTAAAGTGGCGCACGGGTGAGTAACGCGTGGGTAATCTACCCTAAAGTCGGGGATAACACCTCGAAAGGGGTGCTAATACCGGATA >580440 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGATGAAGTCTCTTCGGAGATGGATTAGTGGCGAACGGGTGAGGAACACGTGAACAATCTGCCCTTAACACGGGAATAACTTCGGGAAATCGAAGCTAATACCCGATATTG >580168 GATGAACGCTGGCGGCGTGCATAACACATTCAAGTCGAACGAAGCACTTGCAGTGAGACCTTCGGGTGGATCTGCATTTGACTTAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCTTACAGTACGGGATAACGTCCGGAAACAG >579743 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAACATGCAGTAGTAATACTGTGATGCTAAGTGGCGCACGGGTGAGTAATGTATAGGTAACATGCCCTTAAGAGGGGGATAACAGAGGGAAACCTTTGCTAATACCCC >579500 GACGAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAGCGGACTTAGTAGCAATACTAAGTTAGCGGCGGACGGGTGAGTAACGCGTGGGCAATCTGCCTTAAAGAGGGGGATAACACAGAGAAATCTGTGCTAATACCGCATAACCCA >579266 AGTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGCAGCACAGCAGTAGCAATACTGTGGGTGGCGAGTGGCGGACGGGTGAGGAACACATCGGAATTTGCCCAGTCGTGGGGGATAACGTAGGGAAACTTACGCTAATACCG >578707 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGACGCGACGGAACATAACTTCGGTTTTGGGAAGTCGCCGATAGCGGCGGACGGGTGAGTAACGCGTGGGCAACCTGCCCCTTACTGGGAGATAGCCGAGGGAAACTTC >578639 GATGAACGTTGGCGGTGTGCCTAAGGTATGCAAGTCGAGCGATCCTTTGAGATTTTGAAACTTCGGTCGATAAATCTCGCTTGGATAGCGGCGAACGGGTGAGTAACACGTGGGTAATCAGCACTGAAGTCGAGAACAGCTCACCGAAAG >577358 GACGAACGCTGGCGGTGTGCCTAAGGCATGTAAGTCGTACGGGTTGTGCAAAGTCCGCAAGGATTTTGCACGACTAGTGGCGAACGGGTGAGTAACGTGTGGGTGATCTACCCTCGGGACGGGGATAGTCCGCCGAAAGGCGGTTTAATA >576989 AGCGAACGTTTGCGGCGGGCTTAACACATGCAAGTCGAACAAGAATCAATCCTTCGGGGTTGAGGAAAGTGGCGCACGGGTGCGTAACACGTGGGTAATCAACCTTCTAGATCGGAACAACCCGGGGAAACTCGGGCTAATACCGGATGT >576960 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAGGGGTAACTAGAGTGATAGCAATATTACTTTGGCTAGACCGGCGCACGGGTGCGTAACACGTATGCAACCTACCTTATACTGGGGAATAACTTCGAGAAATCGGCGCTAATA >575681 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGGGGTTAAAGACTTCGGTTTTTAACTTAGTGGCGAACGGGTGAGTAACGCGTGAGCAACCTGACTCAGAGAGGGGGACAACAGCTGGAAACGGCTGCTAATACCGCATAA >574274 ATTGAACGCTGGCGGCATGCTTAACACATGCAGTCGAACGGCAGCGGGGTGATAGACTTGCTATCACTGCCGGCGAGTGGCGGACGGGTGAGTAATGCGTAGGGATCTGCCTTAGAGTGGGGGATAACTTGAGGAAACTTGAGGTAATAC >574219 GATTAACGCTGGCGAGAGGCATAACACATGCAAGTCGAGCGCCCCGCACTTTTTTTACAACTCTAAAACGGTTGCCGAAAAAGTGCGGGGAGCGGCGGACGGCTGAGTAACACGTTGGTACCTACCCTATACTCAGGGATAAGCCGGGGA >574028 AATGAACGCTGGAGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGTTCCTTCGGGAGCGAGTAAAGTGGCGATCGGGTGCGTAACACGTAGGTAATCTACCCTAGAGATTGGGACAACAGTTCGAAAGGACTGCTAATACCAAATAAG >572010 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGCAGCACGGGGGCAACCCTGGTGGCGAGTGGCGAACGGGTGAGTAATGCATCGGAACGCGTCCTGTAATGGGGGATAACCTAGCGAAAGTTAGGCTAATACCGCATACG >571373 GACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGAGCGGAAAAGTAGCTTGCTACTTTGAAGCTTAGTGGCGAACGGGTGAGTAACGCGTGGATAACCTACCTATAAGAGGGGGATAACTTTCCGAAAGGAGAGCTAATACC >571185 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGGGAGTAGCTTGCTACTCTTGATGGCGACCGGCGCACGGGTGCGTAACGCGTATCGAACCTGGCCCATACACGGGGATAGTCTCCTGAAAGGGAGGTTAATA >570616 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAAGGGGCAACCCTTAGTAAAGTGGCGCACGGGTGCATAACGCGTAGATAATCTGCCCTAATGTGGGGAATAACACCGGGAAACTGGTGCTAATACCGCATAATGT >570090 AACGAACGCTGGCTGCGTGTCTTAAACATGCAAGTCGCACGAGAACCCTGATGCTTGCATTGGGGAGAGAGTGGCGAACGGGTGAGTAATACGTGGATAATCTGCCTTCAGGATGGGGATAACTATTTGAAAAGGTAGTTAATACCGAAT >567229 GATGAACGCTGGCGGCGTGCATAACACATTCAAGTCGAACGGTGAAGTCCCTTCGGGGACGGATCAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCATACAGTGGGGGATAACACAGGGAAACTTGTGCTAATACCGCATGACA >567189 AACGAACGCTTTCGACATGCTTAACACATGCAAGTTGTACGGACTTTATTATTTTACAGTAATGCAAAATGAAAAAGTTAGTAGCAAACGGGTGAGTAATGCATAGATACATACCCTGTAGTCTGGAATAACAATTGGAAACGATTGATA >566513 GACTAACGCTGGCGGTGCGCCTAACACATGCAAGTCGTACGGGCTCCTTCGGGAGCTAGTGGCAGACGGGTGAGTAACGCGTAGGTAATGTACCTCTTCGCTGGGGATACCTACCTGAAAAGGTGGCTAAAACCGAATGAGCTTTTCAAG >566326 GATGAACGCTAGCGGCAGGCCTAATACATGCAGGCCGGACGGCAAGGTCTGTAGCAATACAGGCCCTAGAGTGGCGCAAGGGTGCGTAACACGTATGCAACCTGCCCACGGCCCGGGGATAGCCCCCCGAAAGGGGGATTAACACCCGAT >566078 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAGGGGCATCAAGGTACACGAAAGTGTATTGTTGGCGACCGGCGGACGGGTGAGTAATAGGTAGGTAACCTACCTCATACTGAGGCATAGCTGGGAGAAATTCCAGGTAATTCC >565408 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTTAAAGTACCCTTCGGGGTGCGATTAAAGTGGCAGAAGGGTGAGTAACACGTAAGGAACCTACCTTCGATTCTGGAATAACACAGCGAAAGTTGTGCTAATACCTGATA >564619 GACGAACGCTGGCGGCGTGCTTTACACATGCAAGTCAAGGAGAACGAAGGGGCTTGCTCCTTCAAGTAAACTGGCGAACGGGTGCGTAACACGTGAGCAACTTGCTCTCGAGTGGGGGATAACATTCCTAACGGGGTGCTAATACCGCAT >562045 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGTGCGTGAAGCCGGACTTCGGTCTGGTGGAAAGCGGCGAACGGGTGAGTAACGCGTAGACAACCTGCCCTTGAGAGGGGGATAGCCCCGGGAAACTGGGATTAATACCGCATAA >561845 AACGAACGCTGGCGGCGTGCCTAAGCCATGCAAGTCGAACGAGGGAGTCCCCGCAAGGGGGCAACCGAGTGGCGAACTGGTGAGTAACACGTGGGCAATCTGCCCGAGAGTGGGGAATAGCCCTTCCAACGAGGGGTTAATACCGCATAC >561824 AACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAGCGAGAATTGAAAAGCTTGCTTTTCAATGAAAGCGGCGAACGGGTGAGTAACACGTAGGTAACGTGCCCTAAGGTTTGGGATAACTCTTCGAAAGAGGAGCTAATACCGGAT >561378 GACGAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGGACGCGTTCCACTTCGGTGGAGTGAGTGGCGTACGGCTGAGGAACACGTGGGTTACCTACCCTCGTGTGGGGGACAACGGGTCGAAAGATCCGCTAATCCCGCATACGGTCTC >561007 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCCCCGCAAGGGGAGTGGCGGACGGGTGAGTATCGCGTGGGCAACCTACCTCCGAGTGGGGAATAACTCATCGAAAGGTGTGCTAATACCGCATGTGATCTCCGAACCTC >560685 GATGAACGCTGGCGGCATGCCTAAGACATGCAAGTCGAACGAGATGTCCCATTGAATATGAAGTACTTGTACGGATTAGGATTTGGATTCACATCTAGTGGCGAACGGGTGAGTAACGGGTAGGCAACCTACCCTCAAGACGGGGATACC >560677 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCATCGTGGAGTAGCAATACTCTGACGGCGACCGGCGAAAGGGTGAGTAACGCGTGAGCAACATACCCGTCTGAGGGGGATAGTCGATGGAAACGTCGCGTAATACCCC >558862 GACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCAACTGAATTATCGGTAGCAATACTGGTAAGGAGGTGGCGCACGGGTGCGTAACGCGTAGGTAATCTGCCCTTGGGTCTGACATAACCCACCGAAAGGTGAGCTAATATCAGATG >557980 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAGGGGTAACGCGAGGTAGCAATACTTCGGCGACGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTGCCCTGTACAGGGGGATAACGGGGTGAAAATCCCACTAATATCCC >557572 GATAAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGAACGGAGGGTGGAGTTTCGGCTTCATCCTTAGTGGCGGACGGGTGAGTAACGCGTAAGTAACCCATCCCCGAGTGGGGGATAACCCCGAGAAATCGGGGCTAATACCGCATAA >556736 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCTAACGGGTGTAGCAATACATCAGTGGCGGACGGGTGAGTAACACGTAAGCAATCCACCCCTAAGACGGAGACAACCTTGAGAAATCAGGGCTAATACCCGATATGATTAGCGGA >555817 AGCGAACGTTAGCGGCAGGCTTAACACATGCAAGTCGAGCGACAAAGGGGCTTCGGCCCTGAGTAGAGCGGCGGACGGGTGCGTAACACGTGGATAATCTGCCTCGTGGCGGGGGATAACAGTCCGAAAGGACTGCTAATACCGCATGTC >554177 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGATTCTATCGACTGAGATTTCGGTTGAAGACGGTAGATGAGAGCGGCGGACGGGTGAGTAACGCGTGAGCAATCTGCCCTGTGGAGGGGGATAGCCTCTGGAAACGGA >554049 AACGAACGCTAGCGGCGTGCTTAACACATGCAAGTCATACGGTTTGTAGCAATACAAACAGTGGCGCACGGGTGAGTAATGCATGAATGATCTGCCCTGTAGATGGGGATAACTTATTGAAAAGTAAGCTAATACCCGATAAGCATCTAG >553125 AACAAACGCTGGCGGCACGCTTAACACATGCAAGTCGTACGAGAAAACCCTTTCGGGGGTGAGTAAAGTGGCGAACGGGTGAGTAACACGTGGGTAATTTATCTTAAAGTTGGGAATAACTATTCGAAAGGATGGCTAATACCGGATGTG >553035 AACGAACGCTGGTGGTATGCTTAACACATGCAAGTCGAACGATATGTTTTCGGACATATAGTGGCAAACGGGTGAGTAACACGTAGGAACATACCCATGGGTAGGGGATAGCTTTTGGAAACGAAAATTAATACCGTATATCTCTAAGGA >552808 GATAAACGCTAGCGGCGTGCCTTATGCATGCAAGTCGAGCGGTCTATCGAAAGGTAGATAGCGGCAAACGGCTGAGTAACACGTAAGTAACCTATCCTAAAGTGGGGAATAACCTGCCGAAAGGCGGACTAATACCGCATGTGGTGGTGG >552576 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGATCCGCAAGGATTCAGTGGCGAACGGGTGCGTAACACGTGAAGAATTTGTCCAACGGCGGGGGATAGCCGGCCCAACGGCCGGGTAATACCGCGTACGACCTTTGAG >552271 GACTAACGCTGGCGGCGTGTCTTAGCCATGCAAGTCGAACGAAAATTATTTTTGACGCAAGGATAAAATGATTTTAGTGGCGAAAGGGTGAGTAACACGTGAGTAAGCTACCCTCAGGAAGGGGATAACCCGGAGAAATCCGGCCTAATA >551866 AATCAACGCTGGCGGCGTGCCTCAGACATGCAAGTCGAACGCGAAAGTCCCTTTCGGGGGACAAGTAGAGTGGCGCACGGGTGAGTAACACGTAGGTAATCTACCTTCGGGTGGGGAATAACAACCGGAAACGGTTGCTAATACCGCATA >551772 GACGAACGCTGGCGGCGCGCTTAATGCATGCAAGTCGAACGAGGTATGGGCCTTCGGGTCCAATGCCAAGTGGCGGACGGCTGAGTAACGCGTGAGTGACCTGCCCTTAAGTGGGGGACAACATCGAGAAATCGGTGCTAATACCGCATA >551008 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGAGATTAGCTTGCTAATCTTGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTTCCCCCTACTCAGGCATAGCCCGGTGAAAACCGGATTAACT >550826 AACGAACGCTGGCGGCACGCTTAACACATGCAAGTCGAACGGCAGCAGGTCCTTCGGGATGCTGGCGAGTGGCAAACGGGTGAGTAACACGTGGAGACCTACCCCGGGGCGAGGGACAACAACTGGAAACGGTTGCTAATACCGCATACG >549858 AATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGATCACTTCAGTGGTCGATTAAAGTGGCGCACGGGTGAGTAAAGCATAGATAATCTACCCTCGAATTTGGGATAACATCGCGAAAGCGTTGCTAATACCGGATG >549053 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAGAACTCGCTCAGCCGATTCTTCGGAAGAAAGCAGAGCGACGGAAAGCGGCGGACGGGTGAGTAACGCGTGGGAAACCTGCCCTGTGCAGGGGGACAGCCGAGGGAAAC >548737 AGTGAACGCTATAGGCGGGCTTTAGACATGCAAGTCGAACGAACTTCTTCGGAAGTTAGTGGCGGACGGGTGAGTAACACGTAGGTAACCTACCTCTCGGAGGGGGATAATTGAAGAGATTCAAGGTAATCCCGCATATGGGCTTCGGCC >548425 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGAGGCCCCTTCGGGGGTACTTCAGTGGCGGACGGGTGAGTAACACGTAGGCGACCTGCCCCGAGGCAGGGGATAACGGCTCGAAAGGGCCGCTAATACCCAAAAGGA >547754 GATGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGTGATACTTTCTTCGGAAAGAGGATCAGTGGCGAACGGGTGAGTAACGCGTGGGTAACCTGCCCTTGACACAGGGATAGCAAAGGGAAACTTTTGGTAATACCTGATGA >547630 AACGAACGCTGGCGGCGCGTTTTAAGCATGCAAGTCGGACGGCAGCGTGTAGCAATACACGTGAGAGTGGCGAACGGGTGAGTAACACGTAGGTGACCTAACTTAGGTGATGGGGATAGCCTGTGGAAACACAGGGTAATACCGAATACA >547441 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCATCGCGGGTAGCAATACCTGGCGGCGACCGGCGGAAGGGTGCGTAACGCGTGAGCGACATGCCCGTGACAGGGGGATAACAGATGGAAACGTCTCCTAATACCCCAT >547431 AACGAACGTTGGCGGCGTGGATTAGGCATGCAAGTCGAACGAGAAAGCTCCCTTCGGGGAGTGAGTACAGTGGCGAACGGGTGAGTAACGGGTGGGAAACCTGCCTTTCTGTGGGGGATAACATTTCTAACGGAGTGCTAATACCGCATG >547176 GGTGAACGCTGGCGGTGCGTCTAATGCATGCAAGTCGAGCGAGAATCCCGGGTTCGCCCGGGTGGAAAGCGGCGAACGGCTGAGTAACGCGTGAGTAACCTGTCCCTGAGTGGGGTATAACCTGGAGAGATCCAGGCTAATCCCGCATAC >547156 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAAGCAGTAGGACTGCGTAGTCTTCGGATTACAACGACCTATTGACTGAGCGGCGGACGGGTGAGTAACCCGTGAGGAACCTACCTCGGACAGGGGAATAACCTGAGGAA >546459 GACAAACGCTGGCGGCGTGTATTAGGCATGCAAGTCGCACGAGCCTTCGGGCTAGTGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCTCGTAGTGGGGAATAACTCGTCGAAAGGCGAGCTAATACCGCATAAGACCCCCGGTGAGA >545499 AACGAACGTTAGCGAGATGTTTTAAGCATGCAAGTCGAGCGGCAGCACTTCGGGTGGCAAGCGGCGAACGGGTGAGTAGTAGTTAGCAACTTGCCCCCCAGACGGGAATAGCCACTGTAATGGTGATTAATGCCCGATATTGAGGAAACT >544827 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCGTCTGTGCTTCGGTACAGATGAGTGGCGAACGGGTGAGTAACGCGTGAGTAACTCCCCTTGGGGAGGGGGATAACCATCTGAAAAGGTGGCTAATACCCCATATTCTC >543249 GGCTAACGCTGGCGGCGTGTCTTAGCCATGCAAGTCGAGCGGTCCTATGGGGCGACCTATAGGATAGCGGCGGACGGCGGAGTAACACGTAGCTAACCTACCCTCCGGACGGGGATAACCATTCGAAAGGGTGGCTAATACCCGATGGAG >542678 AACGAACACTGGCGGCGTGCCTAATACATGCAAGTCGAACGGGAAAGTGTCATTCGTGGCATGAGTACAGTGGCGAACGGGTGAGTAACGCGTAAACAATCTGCCCTTCAGTTGGGGATAACACTGCCAACGCGGTGCTAATACCGAATA >541514 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAACGGGTTATAGCTTGCTATAACTGTCAGCTAAGTGGCGCACGGGTGAGTAATATATAGGTAATGTGCCTTAGAGAAGAGAATAATTGTTGGAAACGACTTGTAATG >541205 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGCGAAAGTCCCTTCGGGGGCGAGTAGAGCGGCGGACGGGTGAGTAATACATGGATAATCTGCCCTTGAGATCGGGATAACCCTGCGAAAGTGGGGCTAATACCGAATAAG >539472 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAAGCACTTTCGCAGATTTCTTCGGATTGAAGCGGATTTGACTGAGCGGCGGACGGGTGAGTAACGCGTGGGGAACCTGCCCCATACCGGGGGATAACAGTTAGAAATGA >539253 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTTGAGCGGTTTCTTTCAAATGAGACTTCGGTGGATTTTGGAAGAGATAGCAGCGGACGGGTGAGTAAAGCACAAGGACGTGCCCTGAGGCGGGGGACAACTACGGGAAACCGTAGC >539222 GATGAATGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGATACAGTGGCAAACGGGTGCATAACACGTAGGAATTTACCCTCGTCTCGAGAATAGCTCCGCGAAAGTGGAGGTAATACTCGATGGTATACGGTTAAATTTATTTAATC >538433 AACGAACGCTGGCGGCAGGCTTTAGTCATGCAAGTTGAACGGTTATAGCAATATAACAGTAGCGCACGGGTGAGTAATGCATGGGAACATACCTTTTGGTGGGGGATATTCTTCGGAAACGAAGAGCAATACCGCATAAGCCCTGAGGGG >538302 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGCATATTAGCAATAGTATGCAAGTGGCGGACGGGTGAGTAACACATGAGTAACCTGCCTTATACAGGGGGATAACACTTAGAAATAGGTGCTAATACCGCATAATAAC >536819 AACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGGGTGTAGCAATACATCAGTGGCAAACGGGTGAGGAATATACAGGAATCTCCCCAGCAGTAAGGAATAACTTTGGGAAACCAAAGCTAATGCCATATATCACCCTCCGGG >536243 AACGAACGCTGGCGGCACGCTTAACACATGCAAGTCGCACGAGAAAGTTCTTCGGAATGAGTACAGTGGCGCACGGGTGAGTAATGCATAGGAACGTACCTTTAGGTGGGGAACAACCACGGGAAACCGTGGCTAATACCGCATATTCTA >535261 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGCACGAGAAAAGGCTTCGGCCTGAGTAAAGTGGCGCACGGGTGAGTAACACGTGAATAACGTCCCTCCGGGTGGGGAATAACGTTCCGAAAGGAGCGCTAATACCGCATAAGAC >530061 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGATGAAGTTCCTTCGGGAAATGGATTAGCGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCTCATAGTGGGGGATAGCCTTTCGAAAGGAAGATTAATACCGCATAAG >529506 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCGATCTTAATGAAGTTTTCGGATGGATTTGAGATTGACTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTTGTACAGGGGGATAACAGTTAGAAATGA >529491 GACGAACGCTGGTGGCGTGCTTAACACATGCAAGTCGAACGAAGCACTTCTGCCTGACGCCCTTCGGGGCTGACGGTAGTTGTGACTGAGTGGCGGACGGGTGAGTAACACGTGAGTAACCTGCCCTTCACCGTGGAATAACAGCTGGAA >529442 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCATAATGAAGTAGCAATACGGATTTGATGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCCATAACAGGGGGATAACACTGAGAAATTGGTACTAA >528832 GATGAACGCTAGCGACACGCCTAACACATGCAAGTCGAGGGGCAGAGGGGGCGAATCTTGCTTTGCCTGCCGGCGACCGGCGCACGGGTGAGTAACACGTATGGAACCTGCCCGCCACAGGGGGATAACCGGTAGAAGTGCCGACTAATA >528451 GATGAACGCTAGCTACAGGCCTAACACATGCAAGTCGAGGGGCAGCGTGAAGGAAGCTTGCTATCGTCGACGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTACCCTTTACTCGGGAATAACCTTGCGAAAGTAAGATTAATG >528234 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATTATTCTAGCTTGCTAGAATAGATGGCGACCGGCGCACGGGTGAGTAACACGTATCCAACCTACCTTTTACATGGGTATAGGCTTTCGAAAGAAAGATTAATC >527630 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGGGTTTGCTCAGTATTGAGTATTCTAAAACTAGAATGTTCAATTCTGAGCAAAACCAAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCCTATACACATGGAT >526963 GATTACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGCAGATTTATCTGCTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTTGTACAGGGGGACAACAGTTGGAAACGACTGCTAATACCGCATAAGCGCACAGA >526745 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCACTTAAATGGATTTCCTTCGGGGATGAAGCTTTTGTGACTGAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATACAGGGGGATAACAGTTGGAAAC >525280 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAACTATTTGGACTGATGCCTTCGGGATGAATAATATCTAATGGATTGGTGGACGGTTGACTAACTGCGTGACTAAACTTGCCTCTGCACAGGGGAATAACGTGCTAGA >524633 GATAAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAGGTATTCAGCAATGGATACCGAGCGGCGAACGGGTGAGTAACACGTTGGGAACCTACCCTCCTGATCGGAATACCCAAGGGAAACTTTGGTTAATGCCGAATACGTGG >523761 AACGAACGCTGGCGGCGCGCCTAATACATGCAAGTCGAGCGAGAAGGTGTAGCAATACACTTGTACAGCGGCGAACGGGTGAGGAATACATGGGTGACCTACCCTCGAGAGGAGAATAACTCGCCGAAAGGTGAGCTAATACTCCGTACG >522863 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCACCGGAAGCTTGCTTTTGGTGACTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCACACAGGGGGATAACAGTTGGAAACGACCGCTAATACCGCA >522819 GATGAACGCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGTAACAGGGGAGCTTGCTTCCGCTGACGACCGGCGCACGGGTGAGTAACACGTATGCAACCTGCCTGTAATTGCGGGATAGCCTTTTGAAAGGGAGATTAATACCGCAT >522549 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCGGAGCTGAAAGCTTGCTTTCAGCTGCCGGCGACCGGCGCACGGGTGAGTAACACGTATGCAACCTGGCCGTGACAAATGGATAACCGGGAGAAATTCCGCCTAA >521345 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGGACGAGAAAGTTCCTTTCGGGGGATGAGTAAAGTGGCGCACGGGTGAGTAACACGTAGGAATCTACCCCTAAGACTGGGATAACACTTCGAAAGGAGTGCTAATACTGGATAG >520886 AATGAACGCTGGCGGCGTGCCTAAGGCATGCAAGTCGCACGTGAAAAGGGTAACCTGAGTAAAGTGGCGGACTGGTGAGTAACGCGTGGGTAATCTGCCTTTTAGCTGGGGATAATACGGCGAAAGCTGTACTAATACCGAATGTGGCTA >520644 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTACGAGAAACCTGGTCTTCGGACTTGGGAGTAAAGTGGCGCACGGGTGAGTAACGCGTGAGTAACCTACCCTCACGACTGGGATAACGATGGGAAACTGTCGCTAATACCGGA >519270 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAAGGATAACGGTGCCTTCGGGTACTTATTACACTGGCGAACGGGTGAGTAACGCGTGGGCAACTTGCCTTCAGGCCTGAGATAACCTCGCGAAAGCGGGGCTAATACCGGATGT >519104 AACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGGCTGTAGCAATACAGTCAGTGGCGAACGGGTGAATAACGCGTGGGAACCTACCTCGGAGTTCGGAATAACCGCGGGAAACTGCGGCTAATACCGGATACGGCCTGAGG >518730 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAAAGTCTGTAGCAATACAGATGAGTAAAGCGGCGCACGGGTGAGTACAAAATGAGTAACCTACCGGAAAATTCGGGGCAACTCTGGGAAACCGGAGCTAATACCGGA >518048 GACTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAGTAGCAATACTCTAGTGGCAGACGGGTGAGTAACACGTGGTCAACCTACCTTTAAGTGGGGGATAACTAGCCGAAAGGTTAGCTAATACCGCATACGATCTATGAG >516873 GATAAACGCTGGCGGCGTGCCTAATACATGCAAGTTGAACGGAGAGCTTCGGCTCTTAGTAGCGAACGGGTGAGTAACACGTAGGCAACCTGCCCTGTTGACTGGGATAACTGACCGAAAGGTTTGCTAATACCGGATAATAACGTACAT >515767 GACGAACGCTGGCGGCGTGCCTCACACATGCAAGTCGAACGGGGATATGTTGAAAGCTTGCTTTTGATATATCCTAGTGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCGACAAACCGGGATAACAGCGGGAAACTGCTGCTAATA >515742 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGGCTTGGGGGAGCAATCCCCTTGCAGCGGCGAACGGGTGAGTAACACGTAGGCAACCTGCCTTTGAGACTGGGATACCCAGGCGAAAGCTTGGCTAATACCGGATAACAA >515151 GATTAACGCTGGCGGCATGCCTAATACATGCAAGTTGAATGCCTGTAGCAATACAGAAACATGGCGAACGGGTGAGTAATACATAAGTAACCTGCCCTGATGATGGGGATAACACCTAGAAATGGGTGCTAATACCGAATAATCCAATTT >514137 GATGAACGCTAGCTACAGGCCTAACACATGCAAGTCGAGGGGCATCGGGAGGGAAGCTTGCTTCCCTTGCCGGCGACCGGCGCACGGGTGAGTAACGCGTATCGAACCTGCCCCATACCCGGGGATAGCCTTGCGAAAGTAAGATTAATA >513510 GACGAACGCTGACGGCGTGCTTAACACATGCAAGTCAAGGGTAGCAATACACTGGCGCACGGGTGAGTAACGCGTAGGTAATCTGCCCCTATCTCTGGTATAATATCGAGAAATTGGTACTAATCCCAGATGAGGCCGAGAGGTCAAAGA >512542 ATTGAACGCTGGCGGCATGCCTTACACATGCAAGTCGAACGGTAACAGGTTAAGCTGACGAGTGGCGAACGGGTGAGTAATGTATCGGAACGTGCCCAGTCGTGGGGGATAACGTAGCGAAAGCTACGCTAATACCGCATACGATCTATG >512191 GCTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGTGAATAAAACGGAAGTTTTCGGATGGAACATTTATTTACTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCGTATACAGGGGGATAACACTTAGAAATA >509139 GATGAACGCTGGCGGTATGCCTAATACATGCAAGTCGAACGCATTGTCCCATTGAAGCATGACGTGCTTGCACTGAGTGTGGATTTGGATTTGCAATGAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTACCTCTAAGTTTGGAATA >461480 GACGAACGCTGGCGGCGTGCCTTAAACATGCAAGTCGGACGGTCCTTTCCGCAAGGGAAGGGCAGTGGCGAACGGCTGAGTAACACGTAAGTGACCTGCCCAGATGTGGGGGATAACCCCGAGAAATCGGAGCTAATACCGCGTGAGCTC >390897 GATGAACGCTGGCGGTGTGCCTTAGACATGCAAGTCGAACGAAGCGCCTTGGACAGATCACTTCGGTGTGAAGACTTTGGTTAGCTTAGTGGCGAACGGGTGAGTAACACGTGGGTGACCTACCTCCAAGTCTGGCATAACAGTGGGAAA >367523 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGTATTGTTCTTCGGAATGAGAGACCGGCGCACGGGTGCGTAACGCGTATGCAATCTACCTTTCACAGAGGGATAGCCCAGAGAAATTTGGATTAATACCTCATAGTATT >360203 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGAGAAAGTCCTTCGGGGCGAGTACAGCGGCGGACGGGTGAGTAACGCGTAGGAATCTACCTGGTAGTGGGGGACAACTTGTGGAAACGCAAGCTAATACCGCATACGCCC >358336 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGATATGGGGGCTTGCCCCTGTATTCTAGTGGCGGACGGGTGAGTAACACGTGGATAACCTGCCCTTTGCAAAGGGATAACAACCAGAAATGGTTGCTAAAACCTTAT >357058 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGGGTTATGAGGAGCTTGCTCCGAGTAACCCCAAGTGGCGGACGGGTGAGGAACGCGTGAACAATCTATCTTTTGCAGGGGGATAACAGCGAGAAATCGTTGCTAATA >356075 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGCTATGAGAGAAGCTTGCTTCACTTTTAGCTTAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTACCCTTCAGATTGGAATAACATCGAGAAATCGGTGCTAATA >356061 GATGACCTTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCTCCGGAGAGAGAGGCCTCGGCCGAACAGGAAGGAAGACTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAAACTGCCTCATGCAGGGGGACAACAGTTGGAAACGA >355868 GATGACCTCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCACTGGGGAAAGAGACTTCGGTCAATTGAACCTTTGTACTTAGTGGCGGACGGGTGAGTAATGCGTGAGCAACCTGCCCTTCGGTGGGGGACAACAGTTGGAAACG >355162 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCAAGATCACTGCTTGCACTGATTGTCGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCCATTACAGGGGGATAACACTGATAAATCGGTACTAATA >354943 ATTGAACGCTTGCGGTATGCATTACACATGCAAGTCGTACGGCAGCACGGGCTTAGGCCTGGTGGCGAGTGGCGAACGGGTGAGTAACGCCCCGGAACGTGCCTTGTAGTGGGGGATAGCCTGGCGAAAGTCGGATTAATACCGCATGAA >354920 GACGAACGCTGTCGGCGTGCTTAACACATGCAAGTCGAACGATGAAATTCTGACGGAGGCTTCGGCCAACTGAGGGATGGATTAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCTTTCAGAGTGGAATAACATTTGGAAACGAA >354746 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAGAAGGACGATTGACCTAACAGTCAATCGACTGGACAGCGGCGAACGGGTGAGTAACACGTAGGTGACCTGCCCCGGAGAGCGGGACAACCATGGGAAACGATGGCTAA >353812 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACCTAGCTTAATCGGAGTACTTGTACAAAGAAAGAGCAAAGGTTAGTGGCGGACGGGTGAGTAACACGTGGGTAATTAACCTTCTAGACTGGGATAACAACGGGAAAC >353707 GACTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGCTTGTTTTTGATAGCAATATTGAGAACGAGAAAGTGGCGAACGGGTGAGTAACACGTAGGTAATCTACCTTTGAGATGGGAACAACGCAGGGAAACTTGTGTTAATG >353530 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGAGAGTAGCAATACTTGTCGGCGACCGGCGGACGGGTGCGTAACGCGTATGTAACCTACCTTATACAGGGGAATAACCCAGAGAAATTTGGACTAATACCGCGT >352906 GACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGACTGATTCCTTCGGGATGAAAGTTAGTGGCGAACGGGTGAGTAATGTATGAACAACCTGCCTCTATCACTGGAATAGCTCCTGGAAACGGGAGGTAATACCGGATATG >351478 GATGAACCCTTGCGACAGGCTTAACACATGCAAGTCAAGGGGCAGCGGGGGCGAAGCTTGCTTCGCCTGCCGGCGACCGGCGCACAGGTGAGTAACACTTATGCAACCTGCCCCCCTCACGGGGATAACCGGGAGAAATCCCCACTAATA >351350 AACAAACGCTGGCGGCGTGCCTAACACATGCAAGTCGCGCGAGAAAGTCCCCTTCGGGGGGCGAGTAAAGCGGCAAACGGGTGAGTAATGCATGAACAACCTGCCCTCAAATCTGGGATAACATCTTGAAAAGGGTGCTAATACTGGATA >350341 GACCCTTGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGAGAGCTGGCTTCGGCCAGATCTTAGCGGCGGACGGGTGAGTAACGCGTGAGCAACCTTTCCCAAACAGGGGGATAAGATACCGAAAGGTGTTCTAATACCGCATAAGA >349441 GATGAACGCTGGCGGAATGCTTAACACATGCAAGTCTACTTGAAAGCAACTTCGGTTGCGAGTAGGGTGGCGGACGGGTGAGTAACGCGTGAAGAACTTGCCCTACGGACTGGGACAACAGTTGGAAACGACTGCTAAAACCGGATATTC >348433 GATGAACGCTGGCGGTCTGCTTAACACATGCAAGTCGAACGGTCTCTTCGGAGATAGTGGCGGGCGGGTGAGTAACGCGTGAGAACCTACCCTTAGGACGGGGACAACAGAGGGAAACTTCTGCTAATCCCGGATGAGCCGAAAGGTCAA >347595 AATCAACGCTGGCGGCGTGCCTCAGACATGCAAGTCGAACGCGAAAGCCCCCTTCGGGGGGCAAGTAGAGTGGCGCACGGGTGAGTAACACGTAGGTAATCTACCTTTGGATGGGGAATAACAACCGGAAACGGTTGCTAATACCGCATA >347529 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGATGATTAAAGATAGCTTGCTATTTTTATGAAGAGCGGCGAACGGGTGAGTAACGCGTGGGAAATCTGCCGAGTAGCGGGGGACAACGTTTGGAAACGAACGCTAATACC >346914 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGGGCTTCGGCCTGGCGGCGACCGGCGCAAGGGTGCGTAACACGTGAGCAACATGCCCGTGACAGTGGGATAACCGGAGGAAACTCCGACTAATACCGCATGA >346141 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGTTACTAGAGCTTGCTTTGGTAACTTAGTGGCGGACGGGTGAGTAATGTATGAGCAACCTGCCTTTCAGAGGGGGACAACAGTTGGAAACGACTGCTAATACCGCAT >344506 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCATCACGTGAGGCAGCAATGCATCTGGGTGGCGACCGGCGAATGGGTGAGTAACGAGTATCCAACCTGGCCCATACTCGGGCACAGCCCCGCGAAAGCGGGATTAATG >344146 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGAGTGGCAACACTTGGCGGCGACCGGCGCAAGGGTGCGTAACGCGTGAGCAACATGCCCTCTTCACGGGGATAACCCGGAGAAATCCGGCCTAAAACCCGAT >343668 GACTAACGTTGGCGGCGTGCATAACACATGCAAGTTGAGCGTGGCCTTAGTTTACTAAGGTCTAGCAGCGGACGGCTGAGTAATGCACAGGAACGTACCCGGAAGTGGGGGATAGCCCTTCGAAAGAAGGGGTAATACCGCATGTGATCG >341823 GATGAACTCTGGCGGCATGCCTAACACATGCAAGTCGAACGAAGCATTGTCAACGGAAGCTTCGGCCGAAGTTGACTTTGACTTAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCTTTCAGAGGGGGATAACGTTCTGAAAAGA >341023 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCACTTTTCTTTGATTTCTTCGGAATGATTTGAAATTTGACTGAGTGGCGGACGGGTGAGTAACACGTGAGCAACCTGCCTTTCAGAGCGGGATAGCCGTTGGAAAC >340937 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGTGGGGCAGCACGGCGGAAGCTTGCTTCTGCTGGTGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTGCCTTTCACACGGGGATAACCTTCCGAAAGGGAGCCTAATA >340665 GATGAACGCTAGCGAGAGGCCTAACACATGCAAGTCGAGGGGTAACAGGGGAGCTTGCTCCCGCTGACGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTGCCCGCTACAGGGGGATAGCCTTCCGAAAGGGAGATTAACACCGCAT >340128 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGGACGGCAAGGCGGGAGCTTGCTCCTGCCCTAGAGTGGCGGACTGGTGAGTAACACGTGGGTGACATGCCCTGCGGTTGGGGATAGCCGGTAGAAATACCGGGTAATACCGAAT >339531 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGTTGAGCCCTTCGGGACTTAACTTAGTGGCGAACGGGTGAGTAACGCGTGAGGAACCTGCCTTTCAGTGGGGGACAACAGTTGGAAACGACTGCTAATACCGCATGA >338374 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAATCTACGAAATGAATTCTTCGGAATGATTTTTGTAGAGGAAAGCGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCCTTCAGAGGGGGACAACAGTTAGAAATG >337359 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAGGTTACTGGAAGCTTCGGCAGAAGGTAATCGAGCGGCGGACGGGTGAGTAACGCGTGAGCAATCTGTCCCGTACAGCCGGATACCAGATGGAAACATCTGCTAATACG >336760 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAATCCTATGGGAGCTTGCTCCCGGATGATTAGCGGCGGACGGGAGAGTAGCACGTGGGCAACCTGCCCGTAAGATTGAGATAACTCCGGGAAACCGGTGCTAATACCAA >336509 GATGACCTCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGCAGCGCGGGGAAAGCTTGCTTTTCCTGGCGGCGACCGGCGCACGGGTGCGTAACAGGTGTGCAATCTGTCCATAACCGGGGAATAGCCCACCGAAAGGTGAATTAAAG >336383 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGGGGTAGCAATACTCTGGCGGCGACCGGCGGAAGGGTGCGTAACACGTGAGCAACTTGCCCGTATCTGGGACATAACCGATGGAAACGTCGACTAATTTCCC >335759 GATGATTGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAACTTTGTGGAACAGCTTGCTGGGAAATAAAGTTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATAGAGGGGGATAACGGTTGGAAACGATCGCTAA >334562 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAGGTAGCAATACCTAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCCATCAGCTTGGGATACCCTGGCGAAAGCTAGGCTAATACCGAATAATTGGCTCGGAGG >334122 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGGTTAAGCCAACCTCGGTTGGGTATAGAGTGGCGAACGGGTGAGTAACACGTGACCAACCTGCCCCGCGCTCCGGGACAACCGCTGGAAACGGCGGCTAATACCGGATAC >333453 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAAGCGCATAAAATGGATTCTTCGGATGAAGCTTTATGTGACTGAGCGGCGGACGGGTGAGTAACGCGTGGGCAACCTGCCTTACACAGGGGGATAACAGTTAGAAATGA >333195 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAGCGGAGACATGTTGACGGAAGGCTTCGGCTGGAAGATGATATGTTTTAGCGGCGGACGGGTGAGTAACGCGTGAGCAACCTTTCCTTCACAGGGGGATAAGATACCGAAAGG >333042 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGCAGGCGTCCCTTCGGGGTCGCCGAGAGTGGCGCACGGGTGCGTAACGCGTATGCAACCCACCCGCCGCCGGGGGATAGCCCGGGGAAATCCGGATTAACCCCCCATGA >332770 GATGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGTGATGGGGAGCAATCCCCTGATCAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCCTTATGAGCGGAATAACGTCCGGAAACAGACGCTAATACCGCATAACG >330451 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGATGTTTATTTCGGTAGACATCTTAGTGGCGCACGGGTGAGTAACGCGTGAATAACCTGACCCGAAGAGGGGGATAACACCTGGAAACAAGTGCTAATACCGCATAA >330298 AACGTACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGCAGTAGCAATACTGAGTGGCAGACGGGTGCGTAACATGTGGGAATCTGCCTTGTGGTTCAGGACAACATTGGGAAACTGATGCTAATACTGGATAAGCCCTTACGGGGA >329240 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGGAATTTTATCTCGGTAGAATTCCTAGTGGCGAACGGGTGAGTAACGCGTAGGCAACCTGCCCTTCAGACGGGGACAACATCCCGAAAGGGGTGCTAATACCGGATAC >328816 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGTTGTTTCGCTGAGGCGAGCTTGCTCAATTCTTGAGACAACTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCGTATGCCGGGGGACAACAGTTAGAAAT >327927 GATGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAGCGAAGCACTTTAACGGAATTCTCCGGAAGGAAGATAAAGTGACTGAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATACAGGGGGATAACAGTTAGAAATGG >327358 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGGGAGTAGCTTGCTACTCTTGATGGCGACCGGCGCACGGGTGCGTAACACGTATCCAATCTACCCATGGCTCGGGAATAGCCTTTCGAAAGAAAGATTAATG >326921 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCAGGGGGTAGCAATATCCTGCTGGCGACCGGCGGACGGGTGCGTAACGCGTATGCGACCTACCCTTAACAGAGGGATAACCTAAGGAAACTTGGACTAATACCTC >326629 GACGAACGCTGGCGGCGTGGATTAGGCATGCAAGTCGAACGGTAGGGTGCTTTCGGGCACCTGAGAGTGGCGAACGGGTGAGTAACACGTAGGTTATCTACCCTCAAATTGGGGACAACCCAGGGAAACTTGGGCTAATACCGAATGAGT >325833 AACGAACGCTGGCAGCGTGCCTAACACATGCAAGTCGTACGAGAAAGGGACTTCGGTCCTGAGTAAAGTGGCGCACGGGTGAGTAACACGTGGATAATCTGCCTGGTGGTCGGGGATAACATCTCGAAAGGGGTGCTAATACCGGATAAG >325539 GATGAACTCTGGCGGCGTGCTTAACACATTCAAGTCGTACGGGACTCATTTAATTAATCTTTCGGGAAGCGTTGAATGAGTTTAGTGGCGGACGGGTGAGTAACGCGTGAGCAATTTGCCTTTGTGAGTGGAATAACACCCGGAAACAGG >325226 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGTAACGCGGGGTAGCAATACTCTGGCGACGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCTGTAACAGGGGTATAACGGAGTGAAAATTCCACTAATCCCCC >324328 ATTGAACGCTGGCGGCAGGCTTAATACATGCAAGTCGAACGGTAACAGCAGAAAAGCTTGCTTTTTTGGCTGACGAGTGGCGGACGGGTGAGTAATACCTAGGAAACTGCCTAAACGAGGGGGATAACATTTGGAAACGAGTGCTAATAC >324302 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATATTTTTAGCTTGCTAAGAATGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTTCCCATGGCTCAGGGATAACCTTGCGAAAGTAAGCCTAATA >323899 GATGAACTCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCAGGGAGCGGCAACGCTCCGCTGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCTTCAACCGGGGGATAACTCGGGGAAACCCGAACTAATACCCC >322943 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGCGGGGCAGCATGTTACTGGCTTGCCAGTAATGATGGCGACCGGCGCACGGGTGAGTATCGCGTATCCAACCTTCCCATATCCACGGGATAGCCTGCCGAAAGGCAGATTAATA >322376 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGATCTATTTGACAGATACTTCGGTTGAAGTCGTTTTGATCTTACTGGCGGACGGGTGAGTAACGCGGGGGTAACCTGCCTTGTACTGGGGGATAACAGTCAAAAATG >319908 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCACAGCGTGGCAACACGTGGGTGGCGACCGGCGCACGGGTGCGTAACGCGTATCCAATCTACCCATAACTCCGGGACAGCCCTCTGAAAGGAGGATTAATACCGG >319260 ATTGAACGCTGGCGGCAGGCTTAATACATGCAAGTCGAACGGTAACAGCAGAAAAGCTTGCTTTTTTGGCTGACGAGTGGCGGACGGGTGAGTAATACCTAGGAAACTGCCTAAACGAGGGGGATAACATTTGGAAACGAGTGCTAATAC >317554 AACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGAGATCTTCGGATCTAGTGGCGCACGGGTGAGTAACACGTGGGAACCTGCCTTTAGGTACGGAATAACGTCTGGAAACGGACGCTAATACCGTATATTTCCTCCGGGAAA >317471 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGGACGGTAGAGTAGCAATACTTTAGAGTGGCGAACGGGTGAGTAACACGTAAATGATCTGCCCCCTGCACTGGGATAGCCTATGGAAACATAGGGTAAAACCGGATGAGCTGGT >315708 GATGAACGCTGGCGGCGCACTTAAGACATGCAAGTCGAACGGAAATTTATCTTAAGTTTACTTTAGATAAATTTTAGTGGCGGACGGGTGAGTAATACGTAGGCAACCTGCCTCAAAGAGAGGGATAACTGGGAGAAATTTCAGCTAATA >315115 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGGGCAGCAGGCCCTAAAGGCACTCGGGGTGCTGGCGAGCGGCGGACGGGTGAGTAACGCATGGGGACTTACCCAGTAGTGGGGGATAGCCCGGGGAAACCCGGATTAATACCGC >313945 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCACGGAGGGAGCAGTCCTTTCGGTGGCGACCGGCGGACGGGTGAGTAACACGTATGTAACCTACCTGTTACAGGGGGATAACCCGGAGAAATCCGGACTAATACC >313925 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCGAAAGTGGAGCAATCCATGAGTAGAGTGGCAAACGGGTGAGTAACGCGTGGGAACGTGCCTTTCGGTTCGGAATAACCCAGGGAAACTTGGGCTAATACCGGATACGC >313701 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAATCTGTGGATTGAGGATTCGTCCAAATGAAACAGAGGACAGTGGCGGACGGGTGAGTAACGCGTGAGGAACCTGCCTTTCAGAGGGGGACAACAGTTGGAAACGAC >312923 AGTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAAGCGGCAGTTGTAGCAATACAATATGTGCTTAGCGGCAGACGGGTGAGTAACACGTAGATAACTTACCTCTTAGCGGGGGATAGCCCGCCGAAAGGCGGGGTAATACC >312619 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGAAGAGTTGAATGAGAGCTTCGGCAGGATTTCTTCTCATCTTAGTGGCGGACGGGTGAGTAACGTGTGGGCAACCTGCCCTATACTGGGGAATAATCACTGGAAACG >312237 GACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGAGAAATCTTTTAATGAAGCTTCGGCAGAATTAAGAGATGGAAAGTGGCGAACGGGTGAGTAACGCGTGGGTAACCTGCCTCATGGAAAGGGATAGCCTCGGGAAACTGG >311952 GACGAACGCTGGCGGCGTGCCTAACCCATGCAAGTCGAACGAGCAGAGATCTTCGGATCGAAGCGAGTGGCGGACGGGTGAGTAACGCGTGAACAACCAACCCTGCACAGGGGGACAACAGCTGGAAACGGCTGCTAATACCGCATAAGA >310505 GATGAACGCCTTTTGGCAGGCTTAACACATGCAAGTCGAAGGGCATCGAGGGGAGTGCTTGCACTCCCTGGCGGCGACTGGCGCACGGGTGAGTAACACGTATGCAACCTGCCCTCCACAGGGGGACAACCTTCCGAAAGGGAGGCTAAT >310215 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCGGAGGTAAAGGCTTGCCTTTACCTGCCGGCGACCGGCGCACGGGTGAGTAACACGTATGCAACCTGGCCGTCACAGGAGGATAACCGGGAGAAATTCCGCCTAA >309939 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCTGGGAGTAGCAATATCCCGCAGGCGACCGGCGAATGGGTGAGTAACGCGTATCCAACCTGGCCCTTACACGGGGATAGCCCTTAGAAATGAGGATTAATACCCG >309099 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGCTAGAAGGGCTTGCTTTTCTAGCTTAGTGGCGAACGGGTGAGTAACGCGTGAGGAACCTGCCTTTCAGTGGGGGACAACAGTTGGAAACGACTGCTAATACCGCAT >309030 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGATGAAGTTTCCTTCGGGAAACGGATTAGCGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCTCATAGAGTGGAATAGCCTTCCGAAAGGAAGATTAATACCGCATAA >308972 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCATCATGGGAGGACTTCGGTCCTTTTGATGGCGACCGGCGAATGGGTGAGTAACACGTATCCGACCTGCCCTGTACTGGAGGATAGCCTCCCGAAAGGGAAATTAATA >307352 GATGAACGCTGGCGGCGTGCATAACACATTCAAGTCGAACGGTGAAGGGGACTTCGGTCCCCGGATCAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCCAAGTGAGGGGGATAACGTTTGGAAACGAACGCTAATACCGCATGA >306695 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCATCGGGGGTGAGCAATCATCTGCCGGCGACCGGCGCACGGGTGAGTAACACGTATGCAACCTGCCCGTCACAGGGGGATAATCGAGAGAAATCTCGTCTAATACCGC >306089 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCACTCTCGTTTAGATTGAAGGAGCTTGCTCCTGATTGATAAACATTTGAGTGAGTGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCCTAAAGTGGGGGATAACATT >305957 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGCACGCGAGGTCCGGGGCAACTCGGATAGTAGCGTGGCAAACGGGTGAGTAACGCGTGGGTAACGTACCCTCGAGTGGGGAATAACTCCGGGAAACCGGAGCTAATACCGCATA >305127 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGACCTTTTTTGGAAGAAGCCTTCGGGTGGAAATTAGGAAAGGTTAGTGGCGGACGGGTGAGTAACGCGTAGATAATCTACCTTAAAGACTGGGACAACAGTTGGAAACG >304839 AATTAACGCTAGCGGTAGGCATAACACATGCAAGTCGAGCGCCCTGCACATTGCTTCTTTATCCAAAGAGGTAACGTGCAGGGAGCGGCGAACGGCTGAGTAACACGTTGGTACCTGCCCCGAAGTGAGGGATAACTACGAGAAATCGTA >304382 ATTGAACGCTGGCGGAGTGCTTAACACATGCAAGTCGAACGCGAAAGGGGGCTTCGGCTCCCGAGTAGAGTGGCGCACGGGTGAGTAACGCGTGGATAATCTGCCCTCTTGTTCGGGATAACTGCTGGAAACGGCAGCTAACACCGGATA >304263 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGAAGTCAGCTTGCTGACTTTGATGGCGACCGGCGCACGGGTGAGTAATGCGTATCCAACCTTCCCCTTAGTAGGGGCTAGCCCGGCGAAAGTCGGATTAATA >303574 GACGAACGTTGGCGGCGCGCCTAACACATGCAAGTCGAACGGGACCATTTTAGAGTTTACTTTGGGATGGTTTAGTGGCGGACGGGTGAGTAACACGTGAGCAACCTACCTTTCAGAGGGGGATAACAGTTGGAAACGACTGCTAATACC >303371 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCATGCGTGTTAGCAATAACATGTGATGGCGACCGGCGCAAGGGTGCGTAACGCGTGAGCAACTTGCCCTTATCAGGGGGATAACCGTTGGAAACGACGACTAATA >303217 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGGATATTGACTTCGGTTGATATTCTAGCGGCGGACGGGTGAGTAACGCGTGAACAATCTGTCCCAGACAGGGGGATAACACTTGGAAACAGGTGCTAATACCGCATAA >302639 GACTAACGTTGGCGGTGTGCCTAATACATGCAAGTCGAACGGGAATTTATTAGCAATAGTAAATTCTAGTGGCAAACGGGAGAGTAATGCATGGGTAACATACCCCAAAGACGGGGACAACTACCCGAAAGGGTAGCTAATACCGGATGT >302470 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGAACGGCAAGATTTGTGCTTGCACAAATCCTAGAGTGGCGGACTGGTGAGTAACACGTGGGTGACATACCCTTCAGTTGGGGATAGCTATTAGAAATAGTAGATAATACCGAAT >301994 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGCCGAGGGGCAGCGGGGCGTAGCAATACGTTGCCGGCGACCGGCGGAAGGGTGCGTAACACGTGAGCAACATTCCCGGATCAGGGACATAACCCGGAGAAATCCGGACTAATTTCCC >301717 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAAGGGGAAAGTTCTTTCGGGGATGAGTATACTGGCGCACGGGTGAGTAACACGTGAATGATCTGCCTTTTAGATTGGGACAACTTGCCGAAAGGTGAGCTAATACCGGGTAAGT >301630 AACGAACGCTGGTAGCGTGGATTACGCATGCAAGTCGAACGGGATCGGAGATGTAGCAATACATCTCCGTGAGAGTGGCGGATTGGGGAGGAACACGTGAGCTACCTGCCCTTGAGTTCGGGAAAACCGTTGGAAACGACTGCTAATACC >301537 GATGAACGCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGTAACAGGGAGCTTGCTCCGCTGACGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTTCCCGCGGGATCGGGATAGCTCCCCGAAAGGGGGATTAACACCGGATGA >301528 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGTGCTCCGAATGAAGGTTCGCTGGAATTTGGAAACACCTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCCTTTAGAGGTGAACAACAGTGAGAAATCATT >301157 GATGAACGCTGGCGGCGTGCCTAACCTATGCAAGTCGAACGAGGCTTCGAGCCGAGTGGCGGACGAGTGAGTAACACGTACCTAATCTGCCTGTAAGTGGGGAACAACCGCCCGAAAGGGTGGCTAATACCGCATGTGCTCTACGGAGTA >300853 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGACTGAAGCTTGCTTCAGTTGATGGCGACCGGCGTACGGGTGCGTAACGCGTATCCAACCTGCCCTCTACTCCGGAACAGCCCGTCGAAAGGCGGATTAATG >300727 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCGGGGATCTAGCTTGCTAGGTCCGCCGGCGACCGGCGCACGGGTGCGTAACACGTATCCAATCTACCCATGTCTCAGGGATAGCCCATCGAAAGATGGATTAATA >300507 GATAAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGTATCTTCGGATACAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCCCTGTAACAGGAATACTTTCTGGAAACGGAAAACAAAACCTGATAACAGAGGACAAGG >300457 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGCGGCTATGATTGAGGATTCGTCCGAATGATTAGCTTGCTTAGTGGCGGACGGGTGAGTAACGCGTGAGGAACCTGCCTTTCAGTGGGGAACAACGATTAGAAATGA >300306 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGGGCGGCAAGGCCCCCTCGGGGGCCCTAGAGCGGCGGACTGGTGAGCAACGCGTGGGCGACGTGCCCCCCGGACGGGGATAGCCTGTGGAAACACAGGGTAATACCGGACAAGC >300282 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAATCCCCTAAATGAGATTTCGGTCAAGTGAAGGGGAGGACAGCGGCGGACGGGTGAGTAACGCGTAGGTAAGCTGCCCTTTGCTGTTGGATAGCCTCGGGAAACCGG >300223 GATTAACGCTGGCGGCGTGCGTAACACATGCAAGTCGCGCGACGGAGTTTTTTACAGCAATGCAGAGAACTCACGGAGCGGCGGACGGGTGAGTAATACACGAGAAGCTGTCTTGACGTGGGGAACAACGTTTTGAAAAGAACGCTAATG >300026 AACGAACGCTGGCGGTGCGTCTTAAGCATGCAAGTCGAACGAATGATCCTTCGGGATCGGAAGTGGCGGACGGGTGAGTAACACGTAGGTAATCTGCCCTTTTGTGGGGAATAGCATATGGAAACATATGATAATACCGCATAATAAGAT >299904 GATTACCTCTAGCAGGATGCCTAATACATGCAAGTCGAACGAGGTAGCAATACCTAGTGGCAAACGGGTGAGTAATGCATGCTCAATCTACCCATAAGAGGGAGATAACAGCTCGAAAGAGTTGCTAATATCCCATATCATATCGAAACA >299599 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGGGTTACAGAAGACGGAAGCTTCGGCTGACAGAACCTGCAACCTAGTGGCGAACGGGTGAGTAACACGTGAGGAACCTGCCTTTAAGAGGGGGATAACACTTAGAAATA >298963 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCGAGAGGGTAGCAATACCCTTGTCGGCGACCGGCGCACGGGTGCGTAACACGTATGCAACCTACCCCGCATGGGAGAATAACCCGGAGAAATCCGGACTAATGCT >298410 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGAGCGGCAATTTGCTTTCGGGCAAACTAGAGCGGCGGACTGGTGAGTAACACGTAGATAACGCACCTTTTAGTTGGGGATAGCTGTCAGAAATGGCAGGTAATACCGAATAAGA >298198 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGATTGGCAAGCTTGCTTGCCATGAGAGTGGCGAACGGGTGAGTAATGGGTGACTAACCTGCCCTTTGCACCGGAATAGCTCCTGGAAACGGGTGGTAATGCCGGATAA >298161 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGTCTGCTTTCGGGCAGACGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTGCCATTCTCATTGGGATAGCCTCCCGAAAGGGAGATTAATACCGAATAACATACTG >298149 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGGGGCGGCAACGTCCTGGCGGCGACCGGCGGAAGGGTGCGTAACGCGTGAGCGACATGCCCGTTGCCCGGGGACAACCGGTGGAAACGCCGACTAATCCCCG >297872 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAATTTATCAGGACTGCTTGCTCTCAGGTAAACTTATGTAGGCGGACGGGTGAGTAACACGCGGGTGACCTGCCCCCAGAGGGGGATAACAGCTGTAAACACCTACTAA >297503 GATGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGCACCTGCCCTCGGGCAGAAGCGAGTGGCGAACGGCTGAGTAACACGTGGAGAACCTGCCCCCTCCCCCGGGATAGCCGCCCGAAAGGACGGGTAATACCGGATACCCC >297491 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAACTTTTGAGACGGAGATTCGTCGAAGGCTTAAAAGTTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATAGAGGGGGATAACAGTTGGAAACGATTG >297438 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGAGTACTTCGGTACTCAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCCATGTGCCCGGGATAACGGTTGGAAACGACTGCTAAAACCGGATAGGTAATAACGG >297390 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGATCTCTTCGGAGAGAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCCTGTACACACGGATAACATACCGAAAGGTATACTAATACGGGATAATATATGAAAGTC >297202 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAACATGATTTTAGCTTGCTAAGATTGATGGCGACCGGCGCACGGGTGAGTAACGCGTATGTAACTTGCCTACCAGAGGGGGATAGCCCGGCGAAAGTCGGATTAATA >295986 GATAAACGCCGGCGGCGTGCCTAATACATGCAAGTCGAACGGGAGTAGCAATACTCTAGTGGCGTACGGGTGAGTAACACGTTGGTAACCTACCTTCGAGACCGGAATACCGAATAGAAATGTTCGCTAATGCCGGATGATGCCATTTCA >295898 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACATCTTCGGATGTCAGTGGCGAACGGGTGAGTAACGCGTAGGTAATGTGCCCTTGCGCTGCGAATAACAGCCTGAAAAGGCTGCTAATACGGAATTGTCTCCATTCC >295853 GATGATTTTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGATTCGGTTGAAGCGCAAGCAGAAACTGATGATAGCGGCGGACGGGTGAGTAACGCGTAGGTAATCTGCCCATCACACAGGGATAGCCCGGCGAAAGCTGAATTAATAC >294998 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGGGTGGCAACACCTGGCGGCGACCGGCGCAAGGGTGCGTAACGCGTGAGCAATCTGCCCGTGTCAGGGGGATAAGCGATGGAAACGTCGTCTAATACCGCAT >294709 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGGACGGGATTCAGTAGCTTGCTAATGATGAGAGTGGCGGACTGGTGAGTAACACGTGGGTGACATACCCTCCAGACTGGGATAGCCGGTAGAAATACCGGGTAATACCGGATGT >294333 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAATGTAGCAATACATGAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCTTTCAGCTTGGGATACCCAGAGGAAACTCTGGCTAATACCGGATACGTAATTCTCC >294169 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGCTGATAGCTTGCTATCAGTGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTGCCTGTCACTCAGGAATAGCCCGGTGAAAACCGGATTAAGT >293873 GACGAACGCTGGCGGCGTGCCTAATACATGCAACTCGAGCGAACCCGGGGTGCTTGCACCCTGAGGGTTAGCGGCGGACGGGTGAGTAACACGTGGGGAACCTGCCTTGCTGTCTGGGATAACACCGGGAAACCGGTGCTAATACCGGAT >293824 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGCGAGAAAAGTTCTTCGGAGCTTTTCTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTCATAGAGGGGAATAGCCTTCCGAAAGGAAGATTAATACCGCATAATA >293596 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGATTGCAGACGGAAGGTTTCGGCCGGAAGGCTGTAATTTCAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCTTTTACAGGGGGATAACGCGCCGAAAGGCG >293471 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGACGATTGCTTGCAATTGTTGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTTCCCTCTACTCAGGGATAGCCCAGCGAAAGTTGGATTAATA >292871 GATAAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGGATCGGAAATAATTTTATTGTTTTCGTGAGAGTGGCGAACGGGTGAGTAGCACGTAGAGACCTACCTTCCAGAGCGGGATAGTCCCCGGAAACGGGGTTTAATACCGC >292866 GACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAACGGATATTATAGCAATATAATATTAGTGGCGGACGGGTGAGTAACGCGTAACCAACCTGCCTTTTACAGGGGAATAACACTTGGAAACAGGTGCTAATACCGCATATGACC >292811 GATGAACGCTAGCGGTATGCTTAACACATGCAAGTCGAGGGGCAGCGGGGTAGTGGCAACACTACCGCCGGCGACCGGCGCACGGGTGCGTAACACGTATGCAGCCTGCCTGTAACAGGGGGATAACCCGGAGAAATCCGGACTAATACC >292709 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGAGAATCGGAGTAGCAATACAAAGAGGAAACCGGCGGAAGGGTGCGTAACGCGTGAGCAACTTGCCCGTATCAGGGAGATAACCGGTGGAAACGCCGACTAATATCCCAT >292680 GATAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAAATTATAAAAAATAATGTTTATTTAATTATTTTTTGTAATTTAGCGGCGAACGGGTGAGTAACGCGTAGGTAATCTGCCTTATACAATGGGATAACTATTAGAAATAA >292343 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCATCGGGGACGAGGTTTCGGCCTTGTCTGCCGGCGACCGGCGAATGGGTGAGTAACGCGTATCCAACCTGCCCGTATCCGGAGGACAGGCTTCCGAAAGGAAGATTGA >292052 GATGAACGCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGCATCGCGGGAGAAGCTTGCTTTTCCTGGCGGCGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTGGCCTCAATCGGGGTATAACCCGGAGAAATCCGGCCTAACA >291994 GATGAACGCTGGCGGCAGGCTTAATACATGCAAGTCGAACGGTAACGACCGGTAGCAATACTGGGGCGACGAGTGGCGCACGGGTGCGTAACGCGTATGCAACCTACCCTCAACCGGGGCATAACGCCGAGAAATTGGCGCTAATATCCC >291925 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCTGCAAGGAAAGAGACCTCGGTCAATGGAACTGTAGACTTAGTGGCGGACGGGTGAGTAATGCGTGAGCAACCTGGCCTTCAGAGGGGGACAACAGTTGGAAACGA >291922 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGAGACAAATGAGAGCTTGTTCAAGTTTGTTTTATCAGCGGACGGGTGAGTAACGCGTGAACAATCTGCCCCACTCAGGGGAATAACTAGTTGGAAACAACTGCTAGATA >291627 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGATTAACCCAACTTCGGTTGGTTATAAAGTGGCGAACGGGTGAGTAACACGTGACCAACCTACCTCTTACTTTGGGATAACCCAGAGAAATCTGTGCTAATACCAAATAA >290908 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGAGCTTGTTAATTTGAATCTTCGGATGACGATTGATAAGCTTAGTGGCGAACGGGTGAGTAACGCGTGAGTAACCTGCCTTAAAGAGGGGGACAACAGTTGGAAACGAC >290285 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAGGGAAGTTAGATTGAGACTTCGGTTGATATCTTATGGAACTAGCGGCGAACGGGTGAGTAAGACATAGGCAACCTGCCCCAAGGACTGGGATAACTGAGGGAAACCTT >290085 GATGAACGCTGGCGGCAGGCTTAATACATGCAAGTCGAACGGTAAGGCCGAGCGTAGCAATACGCGAGGTACACGAGTGGCGCACGGGTGCGTAACGCGTATGCAACCTGCCCCCTTCCGGGACAAAACGTCGAGAAATTGGCGCTAATA >290018 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAACTGATTTGAAATATTTCTTCTGAATGAATTTGATTTAGTTTAATGGCGGACGGGTGAGTCACGCCTGAATAGCCTGACTTCAAGAGGGGGATAACGTTCTGAAAAG >290015 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAACAAGAGGGTTTGAATACCCTTGTCAGCGACCGGCGCACGGGTGAGTAACACGTATGCAACCTGCCCCGCGGCGGGGGACAACCCAGAGAAATACTGACTAATACC >290002 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCTGCGTGAATAGAGGCTTCGGCCAATTGAAACGTAGACTTAGTGGCGGACGGGTGAGTAATGCGTGAGCAACCTGCCCTTCAGAGGGGGACAACAGCTGGAAACGG >289730 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAACCCTTTGGGGTGAGCGGTGGACGGGTGAGTAACGCGTGGGTAACCTGCCCTATACATACGGATAACGTACCGAAAGGTACACTGATACCAGATAACATATTTTTATC >289569 GATGAACGCTGGCGGCATGCCTAAGACATGCAAGTCGAACGGAGCGGCCCATTGAAGACGGAGTGCTTGCACAAAGTTGGATTTGGATTCCCGCTCAGTGGCAGACGGGTGAGTAACACGTGGGTAATCTACCTCAGAGACTGGGATAAC >289407 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGATTAACCCGTGCTTGCACGGTTATAAAGTGGCGAACTGGTGAGTAACACGTAACCAACCTGCCTTATACTTCGGGATAACTTATGGAAACATATGCTAATACCGAGTAA >289157 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGGTTATTACAGTTGAAGTTTTCGGATGGATACCGTTTTAACCGAGTGGCGGACGGGTGAGTAACGCGTGGGGAACCTGCCCCATTCCGGGGGATACCAGTTGGAAACG >289116 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGAAGAGTTGAATCGAGAGCTTCGGCAGGATTTCTTCTCATCTTAGTGGCGGACGGGTGAGTAAACGTGTGGGCAACCTGCCCTATACTGGGGAATAATCACTGGAAA >288420 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGTCATGTTGGAAGCTTGCTTTTGATATGACTTAGTGGCGGACTGGTGAGTAACGCGTGAGCAATCTGCCTTCAAGAGTGGGATAACATACTGAAAAGTGTGCTAATA >288364 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGGTCCATGGAACAAATCTTCGGAGGCGTTCCGGAAGACCTAGCGGCGGATGGGTGAGCAACGCGTGGAGAACCTGCCTCTATCAGGGGGATAACAACGGGAAACTGTT >287907 GACGAACGCTGGCGGCACGCTTAACACATGCAAGTCGAACGGAGAATTTTGGATTTATTCAGAATTCTTAGTGGCGGACAGGTGAGTAACACGTGAGCAACCTGCCTTTGAGAGAGGGATAGCTTCGGGAAACTGATGGTAATACCTCAT >287898 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGGAACTGCGGAATGAGATTTCGGTTGAATGAAACAGTTTCTAGCGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCTATCACTGGGGAATAACGCATCGAAAGGTG >287884 ATTGAACGCTGGCGGCAGGCTTAATACATGCAAGTCGAACGGTAACAGCAAAAAAGCTTGCTTTTTTGGCTGACGAGTGGCGGACGGGTGAGTAATACCTAGGAAGCTGCCTAAACGAGGGGGATAACACCTGGAAACGGGTGCTAATAC >287678 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGAGTTATAGCAATATAACTTAGTGGCGAACGGGTGAGTAACACGTAGACAACCAACCCCGCAGATTGGGGCAACAGCTTGAAAGAGCTGCTAATACCGAATGCGCTTCT >278760 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGACTCACTTCGGTGAGATGAGTAAAGTGGCGCACGGGTGAGTAACACGTGAGTAATCTGCCCCCAGGATAGGGATAACATTGCGAAAGTGATGCTAATACCTGA >278588 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAACGCCCCTTCGGGGGTTATTAAAGTGGCGGACGGGTGAGTATCGCGTGGGTAATCTACCTTCCAGTGGGGGACAACCTGCCGAAAGGCGGGCTAATACCGCGTAAC >278539 ATTGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGGTAACAGAGAGTAGCTTGCTACTTTGCTGACGAGCGGCGGACGGGTGAGTAACGCGTAGAAATCTGCCTGGTAGTGGGGGATAGCCCAGAGAAATTTGGATTAATACCG >277299 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCATAGGAGTGGAATTTTTCGGAAGGAAACAACTATGACTGAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATACAGGGGGATAACAGTTAGAAATGA >275100 GATGAACGCTAGCGGCAGGCATAATACATGCAAGTTGAGGGGGTAGCAATACCACCGGCGCACGGGTGCGTAACGCGTATGCAACCTGGCCCAGACAGGAGGACAGCCCCGGGAAACCGGGATTAATACTCCATGGTCCACTTGAGCGGC >274691 GATGAACGCTAGCGGTATGCTTTACACATGCAAGTCGTACGAAAACTTCGGTTTGAGTGGCAAACGGGTGAGTAATACGTGAGAATCTGCCTTTAAGAGGAGGATAACAACTGGAAACAGTTGCTAAAACTCCATATGCCCTAGGGTGAA >273784 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGGCAGATTGAAACCTAGTGATATATGCCCGAGTGGCGGACGGGTGAGTAACGCGTGGACAACCTGCCGCATGCAGGGGGATACCGGCTGGAAACAGCCGCTAATACC >273494 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCTTGATTCTTGATTTCTTCGGAAAGATAGATGATATGACTGAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCCTTCGGAGGGGGATAGTGTCTGGAAACG >272991 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAACGGTAAGGTCTCTTCGGAGATACACGAGTGGCGCACGGGTGAGTAACGCGTACACAACATACCCTTAAGAGGGGGATAGCCTCGGGAAACTGAGAATAATACCCCATAATA >272815 GACGAACGCTAGCGGCAGGCTTAATACATGCAAGTCAAGGGGTGGCAACACACCGGCGAACGGGTGCGTAACACGTATGCAACCTACCCACTACAGGGGGATAACCCTTCGAAAGGAGGATTAATACCGCATAACACAGGGGGCCCGCAT >271544 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGGAGCATGACGAAAACACCGCTTGCGTTTTCCGAATCATGTTTTCCAGTGGCGGACAGGTGAGTAACGCGTGGGCGACCTGCCCTGTGCGGAGGGGATACCGTCTGG >270609 AATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGGGCCGTAGCAATACGGTGCCGGCGACCGGCGGACGGGTGCGTAACGCGTATGCAACCTTCCCTGCACAGGGGTATAGCCCGGCGAAAGCCGGAATAATCCCCC >270349 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCATTTTAAACTGATTTCTTCGGAATGACGTTTTTTATGACTGAGTGGCGGACGGGTGAGTAACACGTGAGCAACCTGCCCTTCGGAGAGGGATAGCAACTGGAAAC >269139 AGTGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCGGTAGCAATACCGAGTGGCGCACGGGCGAGTAACGCGTGGGAATGTGCCCCAAACTCGTGAACAACTTAGGGAAACTTAAGCTAATACACGATATCCAGAGATGGGAA >268559 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGAAATATTTTAAATGAAGGCTTCGGTTGGTTTAGCGGCGGACGGGTGAGTAACGTGTGGGTAACCTGCCTTCTACTGGGGAATAATCATTTGAAAAGATGACTAATACC >267536 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCGCCCGCGCGGATTCCCTCGGGATGAAGCGCGGATGACTGAGTGGCGGACGGGTGAGTAACGCGTAGGCAACCTGCCCCTCGCTGGGGGACAGCCTCGGGAAACCG >267411 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAGAGACCTTCGGGTCTCTAGTGGCGAACGGGTGAGTAACACGTAGGGAACCTGCCCGCGCACCGGGAATACGCTCTGGAAACGGAGAACAAATCCCGATGTACAGGAAG >267071 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGAGCACATCATTGGAATCCTTCGGGAGGAAGAAGGTGTGGCTTAGCGGCGGACGGGTGAGTAACGCGTGGACAACCTGCCCTATGCAGGGGGATAACATCCGGAAACGG >267007 GATGAACGCTGGCGACAGGCTTAACACATGCAAGTCGAGGGGCACCGGTGGTGAAAGCTCGTCTTAACCAACAGACGACCACTTCACGGGGGACTAACAAGTATGCCACCTGCCTGCCGCCTCCGGATAGGCGAGAAAAATTCCATCTAA >266984 CCGAACGCTGGCGGCGTGGTTAAGACATGCAAGTCGTACGGGACCCGCAAGGGTTCAGTGGCGGACGGGTGAGTAATGTATCGCTAATGTGCCCCGGAATCCGGGATAGCTAGCCGAAAGGCTAGGTAATACCGGATGATATACCTTGAA >266935 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACTTAATATGAAACCTAGTGAATGTTAAGTTAGTGGCGGACGGGTGAGTAACGCGTGGATAACCTGCCGTATGCAGGGGGATACCAACTGGAAACAGTTGCTAATACC >264412 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTGAAGCCCTTTCGGGGGTGGAGCAGTGGCGAACGGGTGAGTAACACGTGGGTAATCTGCCCTGCACTCTGGGATAAGCCTTGGAAACGAGGTCTAATACCGGATAGGA >263546 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAATCAGTGGATTGAGGATTCGTCCAAATGAAACTGAGGAAAGTGGCGGACGGGTGAGTAACGCGTGAGCAATCTGCCTTGGAGTGGGGAATAACGGCTGGAAACAGC >263200 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAGGGGGAAAGCTCCTTCGGGAGTGAGTATACCGGCGGACGGGTGAGTAACGCGTAGGCAACCTACCCTTATGACGGGGATAACACTTCGAAAGGGGTGCTAATACCCGATGTGG >262007 AACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGAGCGAACCGTTTTTGATCCTTCGGGTGAAGAGATGGTGAGCTAGTGGCGGACGGGTGAGTAACACGTGAGTAATTTGCCCTACAGAAGGGGATAACGGTTAGAAATGAT >261623 GATGCTTTCTGGCGACAGGCTTAACTCATGCAAGTCGAGGGGCAGCGGGGTAGTAAGTTTGTTTAATAGTGCCGGCAACCAGTTCACGGGTGACTGACAAGTATGCCACCTGGCAGTCACAGAGGGATAACCGGGAGAAATCCCAACTAA >259795 GATAAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGCACGGAGTGGCCTTCGGGCCATTGAGTGGCGAACGGGTGAGGAACACGTGGACAACCTGCCCCGGCGTGGGGAATAACCCGTGGAAACACGGGGTAATACCGCGTACGGTCGC >259771 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGACCTGTACTGAAACCTAGTGATTTACAGGTTAGTGGCGGACGGGTGAGTAACGCGTGGAAAACCTGCCCTGCACTGGGGGACAACAGCCGGAAACGGCTGCTAATACC >259652 AGCGAACATTGGCGGCGCGTTTAACACATGCAAGTCGAGCGAGAAAACTTCTTCGGAAGTGAGTAGAGCGGCGAACGGGTGAGTAACACGTGAGTGACCTGCCCCCAAGCTTGGGATAGCCACGGGAAACTGTGGGTAATACCGGATGTG >257626 AATGAACGCTGGCGGCGTGCCCAACACATGCAAGTCGAACGGTCTACCTCGACTGAAACCTTCGGGTTGACGACGAGATCTAGATAGTGGCGGACGGGTGAGTAACACGTGAATAATCTGTCCTCAAGTCTGGGATAACCTGGCGAAAGT >255981 GATTAACGCTCGCGACGTACCTAAGGTATGCAAGTCGAACGATATCCGAAATACTACTTGTAGTTTTTTGGTGACAGTGGCAAACGGCTGAGTAATGCATGAGAACTTGCCCCAAAGTTAGGCATAGCCACGAGAAATCGTGGGTAATTC >254722 ATTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGCAGCATGTTCTGTAGCAATACAGAATGATGGCGAGTGGCGTACGGGTGAGTAATACATAGGAATCTGCCCTAGAGTGGGGGATAACTCCGCGAAAGCGGAGCTAATAC >254542 AACGAACGCTAGCGGCGCGTTTCAGGCATGCAAGTCGGTACGGTACCGGTCCCTTCGGGGAGCCGACGAGTGGCGCACGGGTGAGTAACGCGTAGGTAAGCTACCATTAGGTTAGGGATAGCCCTACGAAAGTAGGATTAATACCTTTTA >252374 AGCGAACGCTGGCGGCGGGCTTAACACATGCAAGTCGTACGAGAATTTCACCTTCGGGTGGATAGTAAAGTGGCGTACGGGTGAGTAACACGTGAGTCATCTACCCTTGAGCGGGGGACAACTCCGCGAAAGCGAAGCTAATACCGCATA >250269 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAGAGATGAGAAGCTTGCTTCTTATTGATTCGAGTGGCAAACGGGTGAGTAACGCGTAAGCAACCTGCCCTCTAGATGGGGACAACAGCTGGAAACGGCTGCTAATA >250044 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGTAATCCCGATCTCCGGATCGGGAACGACCGGCGCACGGGTGAGTAACGCGTATGGAACCTACCTGCAACAGGGGGATAGCTTCCGGAAACGGGGATTAATCCCCCATA >249844 ATTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCGAAAGTCTCTTCGGAGATGAGTAGAGTGGCGCACGGGTGAGTAACGCGTGGATAATCTACCTATTGGTACGGGACAACAGTTGGAAACGACTGCTAATACCGTATAAG >249646 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTCTACCTCGACTGAAACCTTCGGGTTGACGACGAGATCTAGATAGTGGCGGACGGGTGAGTAACACGTAGGTGATCTACCCCAGAGACGGGGATAACGGATGGAAACA >249538 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAGGGAGAAGCTCACCTTCGGGTGAGTGGGCACCGGCGCACGGGTGAGTAACACGTGGATAATCTGCCCCTATCTCAGGGATAACGTTTGGAAACGAACGCTAATACCTGATGAG >248909 AATGAACGCTGGCGGCGTGCTTAAGACATGCAAGTCGTACGAGAAAGTTCCCGCAAGGGAGCGAGTAAAGTGGCGCACGGGTGAGTAATACTTAGGTAACGTACCCAGTCGCTGTGGATAACTAGGCGAAAGCTTAGCTAATACAGAATG >248397 GACGAACGCTGGCGGCGTGCTTAAAACATGCAAGTCGAGCGACCCGACTCCCCGACGCAAGCGGGGAAATCGGGGAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTACCCTAATGACCGGGATAACCCCGAGAAATCGGGGCTAATA >248156 AGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGCGCGAGAAAGGGGAGCTTGCTCCCTGAGTAGAGCGGCAGACGGGTGAGTAACACGTGGGCAATCTGCCCTTGAGTGGGGAATAACCCAGGGAAACTTGGGCTAATACCGCATA >247171 GACGAACGCTGGCGGCGCGCTTAACACATGCGAGTTGAACGTTCCTCCTTAACTCACAGTCTTTGACTGTAGTTAAGGCAGTAAGTGGCGAACGGGTGAGTAACGCGTAGGTAACCTGCCCGGGAGTCAGGGACAACCTTTCGAAAGAAG >247128 ATTGAACGCTGGCGGCGTGGATAAGGCATGCAAGTCGCGCGACGAAAGGGTTGTCTGATCTTTCGAGTGAAGACGGCCCCTGAAAGCGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCTTCGGTGGGGGACAACGTCGGTACCTTC >246898 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGAGTAAAGAGAAGCTTGCTTTTCTTTACTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCCTATGGAGGGGAATAACAGGGAGAAATCTTTGCTAATACCGC >246601 GATGAACGCTAGCGGAGCGCCTAACACATGCAAGTCGAACGAACCTTGTTTCAATCAATTGATCTCTTCGGAGTGAGAGCGTGCGAAACGCTGGTAAGTGGCAAACGGGCGAGTAACGCGTACCTAACCTACCCGAGAGACGAGAACAAC >246370 GACGAACGCTGGCGGCGTGCTTCATACATGCAAGTCGAGCGGGGATGACGGATTCGTCCGTCATGTCAGCGGCGGACGGGTGAGTAACACGTGGATAACCTGCCCTCCAGACGGGGATACCCTCGGGAAACCGAGGCTAATACCGGGTAC >246040 AACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGAGAGGCTCTTCGGAGTAGTAAAGTGGCAAACGGGTGAGGAATGCATGGGTAACCTACCCTTGAGAAGGGAATAACCCGCCGAAAGGTGAGCTAATACCCTATACGCTAC >245523 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGCGATTGATATTAGCAATAGTATTAATTGACCGGCGAAAGGGTGCGTAACGCGTGAGTAACATACCCGTTACAGAGGGATAGTCGATGGAAACGTCGTATAATACCTCAT >245429 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAGCGGGTAGCAATACCAGCGGCAAACGGGTGCGTAACGCGTAAATAACCTGCCCTCAACTGGGGTATAGCTCGGCGAAAGCGGAGGTAATCCCCCATAGTCTTGACCGGTCAC >244729 AACGAACGCTGGCGGCGTGCTTCATACATGCAAGTCGAGCGAGAAAGTTCCCTTCGGGGAACGAGTAAAGCGGCAAACGGGTGAGTAACACGTGGGAAACCTGCCCTTCGGCGGGGGATAAGCTCTCGAAAGAGGGTCTAATACCGCATA >244554 AACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAACGAGAAAGTCCGGCTTCGGCTGGATGAGTAAAGTGGCGAACGGGTGAGTAACACGTGGGCAACCTGCCCTTGAGACCGGGATAAGCCCTCGAAAGGGGGTCTAATACCGGA >243532 AACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGCACGAGAAAGTCTCTTCGGAGGCGAGTAAAGTGGCGCACGGGTGCGTAACACGTAAATAATCTACCTTATTGATGGGGACAACTCCGCGAAAGTGGAGCTAATACCCAATACG >241589 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAAGCTACCTATGAACCTTCGGGTGATTAGGCTAGTGGACAGCGGCGGACGGGTGAGTAACGCGTAAATAACCTGCCATACACACAAGGATAGCCATCGGAAACGGTG >241535 AGTGAACGCTGGCGGTGTGTTTAAGGCATGCAAGTCGAACGGCAACAGGTTTGTAGCAATACAAATGCTGGCGAGTGGCGGACGGGTGAGTAACGCGTAGGAATCTACCTTAAGGCCGGGGATAGCTCAGGGAAACCTGAGGTAATACCC >239967 GATTAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGCACATTTATGTGAGCGGCGGACGGCTGAGTAACACGTTGGTACCTGCCCCGAACTCGGGAATAAGCCTTGGAAACGAGGTCTAATGCCCGATAGTCTCCTCGGAGTAAA >239330 GATGAACGTTGGCGGTGTGCCTAATACATGCAAGTCGAACGGAGTCAGTAGCAATATTGGCTCAGTGGCGAACGGGTGAGTAACGCGTTGGTGATCTGCCTTGAAGTGTGGAATAACGTTTCGAAAGAGACGCTAATACCGCATGTGCTC >239138 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGAGATGGGGATAAACTTGTTTAGAACTATCTTAGCGGCGGACGGGTGAGTAACGTGTGGGCAACCTGCCTTATACAGTGGAATAGCCACCGGAAACGGTGATTAATACC >239002 GGCGAACGCTGGCGGCGCGCCTAAAGCATGCAAGTCGAACGAGGTGTTCATTAGAACCCCTAGTGGCGGACGGCTGAGTAACGCGTGAGTAACCTGCCCCAAAGAGGGGAATAACTTCTGGAAACAGAGGCTAATACCGCATGTGGTTTG >237826 AACGAACGCTGGCGGCACGCCTTAAACATGCAAGTCGAACGAAGTTAAGTAGCTTGCTACTTAACTTAGTGGCGCACGGGTGAGTAACACGTGGGAATCTACCTCAAAGATAGGGATAACTACTGGAAACGGTGGCTAATACCTTATGTG >235668 GATGAATGTTGGCGATGTGCCTTAGGTATGCAAGTCGAGCGGTCCGCCTTTGGCGGACAGCGGCGAACGGGTGAGTAATGCATAGATAACCTTCCTCGAAATCAGGAATAGCTTTGCGAAAGCGGAGGTAATACCTGATAGTCCATATTG >235547 ATTGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGGTAGGTACTTCGGTACTGAGAGTGGCGGACGGGTGAGTAACGCGTAGGAATCTGCCTGTTAGTGGGGGACAACTTGGGGAAACTCAAGCTAATACCGCATACGCCCTAC >235527 GATGAACGCTAGCGGTAGGCCTAATACATGCAAGTCGCGCGAACTCTTCGGAGTTAGCGGCGGACGGGTGCGTAACGCGTATCTAACCTACCCTCTAGAGGGGGACAACAGCTGGAAACGGCTGCTAATACCCCATAACACAGCGGGTGC >235421 AACGAACGCTGGCGGTACGCTTAACACATGCAAGTCGAACGTGAAAGTCCGCAAGGATGAGTAAAGTGGCGAACGGGTGAGTAACACGTGGACAACCTGCCCAAAAGTCTGGGATAACTCTTTGAAAGAAGAGCTAATACCGGATAATAA >234668 GATGAACGCTAGCTACAGGCCTAACACATGCAAGTCGAGGGGCAGCATGGATCCAGCTTGCTGGGTTCGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTGGCCCTTACCCCGGCACAGCTTTCTGAAAGGAGAGGTAATG >234397 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAAGGCGAAAGGGACTTCGGTCCTGAGTAGACTGGCGCACGGGTGAGTAACACGTGGATAACCACCCCTGTGGTTCGGAATAACCTGCCGAAAGGTGGGCTAATACCGGATGAT >231758 AACGAACGCTGGTGGTATGCTTAACACATGCAAGTCGAACGAGCGTGGCCTAGCTTGCTAGGATTCTGCTAGTGGCGCACGGGTGAGTAACACGTGGGAATCTGCCTCATAGTATGGAATAACATTCAGAAATGAATGCTAATACCATAT >228671 GATGAACGCTGGCGGTATGCCTAACACATGCAAGTTGAACGGAAGCTTTCCAAGCTTTAGTAGCGGACGGGTGAGTAACGCGTGAGAATTTACCTCTAGGAGGGGAACAACAGTTAGAAATGACTGCTAATGCCCCATATGCTTTAATAG >227846 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAGATAGCTTGCTATCGAGTGGCGAACGGGTGAGTAACACGTTGGTAATCTGCCTTTTAGTTGGGGATACCCAGAGGAAACTTTGGCTAATACCGTAATATGCAATAGGT >224521 AGTGAACTCTGGCGGCGTGCCTAACACATGCAAGTCGGACGGGTCCCGGGTAGCAATATCTGGGATCAGTGGTGAACGGGTGAGTAACACGTGGGTAACCTGCCCTTGAGTGGGGAATAAGCTCCCGAAAGGGGGTCTAATACCGCATAA >223031 AACGAACGCTAGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGGGGCTTCAGTCCTGAATAAAATGGCGCACGGATGAGTAACACATGGGTAACCTGCCTCTAAGATCAGAATAACCTATCGAAAGACGAGCTAATACCGGATAAG >222706 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGCAGCGGGAAGGCAGCTTGCAACTTTGGCCGGCAAGCGGCGGACGGGTGAGTAATGCCTAGGGGATCTGCCCAGGCTAGGGGGATAACAGTTGGAATCGACTGCTAATA >220164 AATGAATTCTGGCGGCGTGCCTAACACATGCAAGTCGTACGAGAAAGACTGTTTTCGGATGGTCGAGTAAAGTGGCGCACGGGTGAGTAACGCGTAGGTAACCTACCCTTGTATTGGGGATAACAGGACGAAAGTTCTGCTAATACCGGA >220089 GACGAACGCTGGCGGCGTGCTTAAGACATGCAAGTCGAGCGGGGGGAGCAATCCCCTAGCGGCGGACGGGTGAGTAACACGTGGATAACCTGCCTGACAGCCTGGGATAACACTCCGAAAGGGGTGCTAATACCGGATAAGCTCACGGCC >217920 AGCGAACTTTGGCAGTGTGTCTTAAGCATGCAAGTCGAACGGCAGCAGGCCATATAGCAATATATGGCGCTGGCGAGTGGCGAACTGGTGAGTAACACGTAAGAATCTACCCTCTGGTGGGGGATAACTCATGGAAACATGAGCTAATAC >216888 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCAATAGGAAGGAAGTTTTCGGATGGAATTCATATTGACTGAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATACAGGGGGATAACAGTTAGAAATGA >214670 GATGAACGCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGTAACAGTGGTTGCTTGCAACCAGCTGACGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCTCATACATTGGGATAGCCCGGAGAAATCCGGATTAATACCAA >207386 AACAAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGGGGAAAGGCTTCGGCCAAGTACTAGTGGCGCACGGGTGAGTAACGCGTAAGTAAACTGCCCTAGAGTGGGGAATAACCAGTCGAAAGATTGGCTAATACCGCATGATGC >206870 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGTAAGGCCCCTTCGGGGGTACACGAGCGGCGAACGGGTGAGTAACACGTGGGTAATCTGCCCAGAAGTGGGGGATAGCCCCGGGAAACCGGGGGTAATACCGCATGCGT >203454 GATAAACGTTGGCGGTGTGTCTTAGGTATGCAAGTCGAGCGATCATTTGTTCTGACGCAAGTCAGAATGGATGGTAGCGGCGGACGGCTGAGTAACGCGTGGGAACGTGCCCCATGGCAGGGAACAGCTCGCCGAAAGGCGGGGTAATAC >203449 AGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCTGAACTCCTGAATCTTCGGATTTGGGAGCTAGGCGTGGCGCACGGGTGAGTAACGCGTGGATAACCTGCCCACTAGTGGGGAATAACCCCGGGAAACTGGGGCTAATA >203101 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGTAACAGGACCAGCTTGCTGGTTGCTGACGAGCGGCGGACGGGTGCGTAACACGTAGGAATCTGCCCGGTAGTGGGGGATAGCCCGGAGAAATCCGGATTAATACCGCA >202797 AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGAAGTCTTCGGACTTAGTGGCGCACGGGTGAGTAACGCGTGGGAACCTACCCCTAGGTGCGGAATAACTTTTGGAAACGAAAGCTAATACCGCATATGCCCCATCATCTT >202660 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCTGGGAGGGGTAGCAATATCCCACCGGCGCAAGGGTGAGTAACACGTAGGCAACCTACCTTCAGGTCGGGGATAACTTCGAGAAATCGAGGCTAATACCCGATGACATTCACGCA >202544 ATTGAACGCTGGCGGCACGCTTTACACTTCCAAGTCGAGCGGCAGCGCGGGGGTGCTTGCACCCCTGGCGGCGAGCGGCGGACGGGTGAGTAATACATGGGAACATGCCCGACAGTGGGGGATAACCCCGGGAAACCGGGGCTAATACCG >202504 AGTGAACGTTGGCGGCACGCCTAACACATGCAAGTCGAGCGAAGTAGCTTGCTACTTAGCGGCGAACGGGTGAGTAATGCTTGGATAATCTGCCTTTAGGTCTGGGACAACCACAGGAAACTGTGGCTAATACCGGATATGACCACATTT >202229 GATAAACGCTGGCGGCGTGCTTCAGGCATGCAAGTCGAACGAGTGTCCACCTTCGGGTGGTCTACTAGTGGCGGACGGGTGAGTAACGCGTTAGCAACCTGCCCAAAAGTGGGGAATAACTAACCGAAAGGTTAGCTAATACCGCATGTG >202196 AATGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGAGAACGCACCTTCGGGTGTTATTAAAGTGGCAAACGGGTGAGTAACATGTGGGAACGTACCTTGAGGTTCGGGACAACTACTGGAAACGGTAGCTAATACCGGATGTGC >202110 GATGAACGCTTGCGGCGTGGATAAGGCATGCAAGTCAAACGGTTCCGCTTTTAGCGGAACAGTGGCGAACGAGCTAGTAACACCTTGGTTACCTACTCTGTACACGGGTATAACTTTGAGAAATTAAAGCTAATCCCCGATAGTCCCCGA >201834 ATTGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGGTAACAGGGGTAGCTTGCTACCCGCTGACGAGCGGCGGACGGGTGAGTAATGCATAGGAATCTGCCCAGTAGTGGGGGATAGCCCGGGTAAACTAGGATTAATACCGCA >201771 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGCAGCGGGGGCTTCGGCCTGCCGGCGAGTGGCGAACGGGTGAGTAATGCATCGGAACGTACCCAGTCGTGGGGGATAACGTAGCGAAAGTTACGCTAATACCGCATACG >201683 ATTGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGGTAACAGGGGTAGCTTGCTACCCGCTGACGAGCGGCGGACGGGTGAGTAATGCTTGGGAAGCTGCCCGATAGAGGGGGATAACAGTTGGAAACGACTGCTAATACCGCA >201556 GATGAACACTGGCGGCGTGGATAAGGCATGCAAGTCAAACGGCCCGCAAGGGCAGTGGCGAACGGGTTAGTAACACGTGGGTAACGTACCCTAAAGCCGGGCATAACTTGGAGAAATCCAGGCTAATTCCCGATAGTTCTCGCAAGAGTA >201423 GATGAACGCTAGCGGGAGGCTTAATACATGCAAGTCGTACGGTAAGATTCCTTCGGGGATCCTAGAGTGGCGAACGGGTGAGTAACACGTATGCAATCTGCCTCTAACAGGGAGATAGCCCTTCGAAAGGAGGATTAATATCCCATAATA >201122 ATTGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGTAACAGCGAAGTGCTTGCACTTTGGCTGACGAGTGGCGAACGGGTGAGTAACGCGTAGAAATCTACCCTAGAGAGGGGGATAACCCGGGGAAACCCGGACTAATACCG >200762 ATTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGTAACGGGTGTAGCAATACATGCTGACGAGCGGCGGACGGGTGAGCAATATTTGGGAATCTGCCTATTAGTGGGGGACAACCCGGGGAAACTCGGGCTAATACCGCATA >200644 AATGAACGCTAGCGGTGTGCCTGAGATATGCAAGTCGAACGGGATTTAGTGAAGCCGCAAGGCAGATCTGAATTCAGTGGCGGACGGCTGAGTAACACGTAAGAATCTCCCCCAGAGTCTCACATAGCTCACCGAAAGGTGGGGTAATTT >200605 GATTAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGGAAGTTTAAGCAATTAAACTTTAGTGGCGAACGGGTGAGTAACGCGTAAGCAATCTGCCCCTAAGACGAGGATAACAGTTGGAAACGACTGCTAAGACTGGATAGGAGA >200141 AACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGAGAGGCCGTAGCAATACGGTCGTACAGTGGCGAACGGGTGAGGAAGACGTGGGTAACCTACCCTCGAGTGGGGAATAACCCGCCGAAAGGCGGGCTAATACCGCGTACG >199890 GACGAACGCTGGCGGCGTGCTTAACACTTGCAAGTCGACGACGATTATGTAGCAATATGTAATCGGAGTGGCGCACGGGTGAGTAACGCGTATGTAACCTGCCCTTCGGTCGGGGACAACACTTCCAACGAGGTGCTAATACCCGATGAT >196844 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGAGCTTAGAGAGCTTGCTTTTTAAGCTTAGTGGCGAACGGGTGAGTAACGCGTGAGTAACCTGCCCTAGAGTGGGGGACAACAGTTGGAAACGACTGCTAATACCGCAT >196295 GACGAACGCTGGCGGCGTGCCTAACCCATGCAANTCTAACGGAATCAGCCGGATGGAGACTTCGGTCGAAAGAAGGCTGAGATAGTGGCGGACGGGTGAGTAACGCGTGAACAACCTACCTTGCACAGGGGGATAACACATGGAAACGTG >196131 GATGAACGCTAGCTACAGGCTGAACACATGCAAGTCGAGGGGCAGCATGGTCTTAGCTTGCTAAGGCCGATGGCGACCGGCGCACGGGTGAGTAACACGTATCCAACCTGCCGTCTACTCTTGGACAGCCTCCTGAAAGGAAGATTAATA >195743 GATGAACGCTGGCGGCGTGCTTAGCACATGCAAGTCGAGCGAAGCACTTTGGTTTGATTCTTCGGATGAAGACTTTGGTGACTGAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATACAGGGGGATAACAGTTAGAAATGG >195674 GATGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGCACCTATCTTCGGATAGAAGCGAGTGGCGAACGGCTGAGTAACACGTGGAGAACCTGCCCCCTCCCCCGGGATAGCCGCCCGAAAGGACGGGTAATACCGGATACCCC >195325 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCGGGGTAGTGCTTGCACTACTGCCGGCGACCGGCGCACGGGTGAGTAACACGTATGGAACCTGCCCGCAACAGGGGGATAAGCGGAAGAAATTCCGTCTAATACC >194286 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCATCAGGGGGTAGCAATACTCTGCTGGCGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTACCTATCAGAGGGGGATAACCCGGCGAAAGTCGGACTAATACCGC >194106 GATGAATGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGCACCCCTCTCCGGAGGGAAGCGAGTGGCGAACGGCTGAGTAACACGTGGAGAACCTGCCCCCTCCCCCGGGATAGCCGCCCGAAAGGACGGGTAATACCGGATACCCC >193432 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGAAATATTTCATTGAGACTTCGGTGGATTTGATCTATTTCTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCATACAGGGGGATAGCAGTTGGAAACGAC >192701 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCGCTTAAGAAAGATTCTTCGGATGAAAGCTTTTGTGACTGAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTCACACAGGGGGATAACAGTTGGAAACGA >192697 GATGAACGCTAGCGGGAGGCTTGATACATGCAAGTCGAGGGGCAGCAGGTCCGACATTAGTTGGATGCTGGCGACCGGCGAACGGGTGAGTAACGCGTACGGAACTTACCCCCAAGTAGGGCATAGCCCCGGGAAACTGGGATTAATACC >192234 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAATCTTCTTCGGAAGATGAGTGGCGAACGGGTGAGTAATACATAGGTAACCTGCCCCTGTGCGGGGGATAACAGGAGGAAACTCCTGCTAATACCGCATAGCCATGAGC >192222 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCATCATGGCGGTCGCTTGCGACCGCTGATGGCGACCGGCGCACGGGTGCGTAACGCGTATCGAACCTGCCGCATACCCGGGGATAGCCTTGCGAAAGCAAGATTAATA >191849 GATTAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAGAGTAGCAATACTCTAGTGGCGAACGGGTGAGTAACACGTAGGAAACCTGCCTCAAAGTCGAGGATAACTACTGGAAACGGTAGCTAAAACTGGATAGGATATATTAA >190251 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGACATACCGACGGAATCCTTCGGGAGGAAGATGGTATGGACTGAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTACCCTGTACAGGGGGATAACAGTCAGAAAT >190026 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAGGGGCAGCATAATGAATAGCAGTATTTATTGATGGCGACCGGCGGACGGGTGCGTAACGCGTATGCAACCTGCCCGGGACAGGAGGATAATCCGAAGAAATTTGGTCTAACA >189190 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGACTAAACCGCCCTCGGGCGGACATAGAGTGGCGAACGGGTGAGTAACACGTGACCAACCTGCCCCCCGCTCCGGGATAACGCGGCGAAAGCCGCGCTAATACCGGGTAC >189035 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGGACCCTTGACGGAGTTTTCGGACAACGGATAGGAATCCTTAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCTTTGAGAGGGGAATAACTTCCCGAAAGGG >186510 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAAGCAGTTAAGTTGATTTCTTCGGATTGATTCTTGACTGACTGAGCGGCGGACGGGTGAGTAACGCGTGGGTGACCTGCCCCATACCGGGGGATAACAGCTGGAAACGG >185940 GACCCTTGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGATAGAGAGGGAGCTTGCTTCCTCAATCGAGTGGCGAACGGGTGAGTAACGCGTGAGGAACCTGCCTCAAATAGGGGGACCACAGTTGGAAACGACTGCTAATACCGCAT >185670 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGAGAGAGAGGGAGCTTGCTTCCTCAATCGAGTGGCGAACGGGTGAGTAACGCGTGAGGAACCTGCCTCAAAGAGGGGGATAACAGTTGGAAACGGCTGTTAATACCGCAT >185258 GATTTCGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGACTCATATTGAAACCTAGTGATTTATGAGTTAGTGGCGGACGGGTGAGTAACGCGTGGATAACCTGCCGTATACCGGGGGATAACACTTAGAAATAGGTGCTAATACCG >184661 GATGAACTCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAACCACCTTGCCCTATTCTTCCCATGAAAGTTTGGTGACTGAGAGGCGGACGGGTGAGTCACGCCTGGGTAACCTGCCCTGTACAGGGGGATAACCGCTGGAACCGGCT >183870 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGAACTTAGCTTGCTAAGTTTGATGGCGACCGGCGCACGGGTGAGTAACACGTATCCAACCTGCCGATGACTCGGGGATAGCCTTTCGAAAGAAAGATTAATA >183186 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGTGAAGAGGAGCTTGCTCCTCGGATCAGTGGCGGACGGGTGAGTAACACGTGAGCAACCTGGCTCTAAGAGGGGGACAACAGTTGGAAACGACTGCTAATACCGCATAA >183051 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGAAACCTTTTATTGAAGCTTCGGCCGATTTAAATTGTTTCTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTTGTACAGGGGGATAACAGTCAGAAATGAC >182893 GATAAACGCTGGCGGCGCACATAAGACATGCAAGTCGAACGGACTTAACTCATTCTTTTAGATTGAGAGCGGTTAGTGGCGGACTGGTGAGTAACACGTAAGCAACCTGCCTATCAGAGGGGAATAACAGTGAGAAATCATTGCTAATAC >182420 GACGAACTCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGCACCCCTGAAGGAGTTTTCGGACAACGGAAGGGAATGCTTAGTGGCGGACTGGTGAGTAACGCGTGAGGAACCTGCCTTCCAGAGGGGGACAACAGTTGGAAACGA >181717 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAAAATAATTGAGAGCTTGCTTTTGATTATTTTAGCGGCGGACGGGTGAGTAACGTGTGGGTAACCTGCCTTTTACTGGGGAATAATCACTGGAAACGGTGACTAATACC >181596 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAGCGGTAACATAGAAGCTTGCTTCTGATGACGAGCGGCAAACGGGTGCGTAACACGTATGTAACTTACCCCTAACAGAAAGATAGCCCATGGAAACGTGGATTAATATTTCAT >181532 GATGAATTCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGCAGCGGGGGAGTGGCAACACTTCCGCCGGCGACCGGCGCACGGGTGAGTAACACGTATGAAACCTGCCCGCAGCAGGGGGATAAGCGGAAGAAATTCCGTCTAATACC >181121 GATAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAAGCTTCTCTTTCTGAATACTCTTAATGGAAGACTGCTGAGACTGACTGGGGTAACGTGGACTGACCCGGGGGACACCTGCCGCAAACGGGGGGATTACCGCTTAAACC >180869 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGCACCATTTCGGTGGTGAGTGGCGAACGGGTGAGTAAAAGATAAGTAACCTGCCCTAGGCAGGGGGATAACGACCGGAAACGGACGCTAAAACCGCATAGGCTGGGAGAT >180430 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGCAGCATGGTCTTAGCTTGCTAAGGCCGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTGCCTTACACTCTTGGACAGCCTTCTGAAAGGGAGATTAATA >180208 GACGATTGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGCTTGATTTCAGATTTCTTCGGAATGACGAATGATATGACTGAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCCTTCAGAGGGGGATAGCGTCTGGAAACG >179806 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGGGGAAATGACAGTAAAGCTTGCCTTATTGGGCGTCGACCGGCGCACGGGTGCGTAACGCGTATCCAACCTGCCCCCAACTCCGGAATAGTCCCCCGAAAGGGGGGTTAACG >179300 GACGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAGCGAGGTTGATGAGAAGCTTGCTTTTCTGAGACTTAGCGGCGGACGGGTGAGTAACACGTAGGTAACCTGCCTATAAGACTGGGATAACATTCGGAAACGGATGCTAATACC >179095 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGAAATATTTCATTGAGACTTCGGTGGATTTGATCTATTTCTAGTGGCGGACGGGTGAGTAACGAGTGGGTAACCTGCCTTATACAGGGGGATAACAGTCAGAAATGGC >178457 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACGAGGAGGAGCTTGCTTCTCCAAGTCAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCCTTCAGAGGGGGATAACGTCTGGAAACGGACGCTAATACCGCAT >178438 GACGAACTTTGGCGGCGCGCCTAATACATGCAAGTCGAACGGAGCCCTTAGGAGCTTGCTTTTCTAGAGTTAATGACGAGACTGAGAGTAACACGGGAGTAACCTGCCCGGGAAAGCGGCACCACACTTGGAAACAACTGCTAATACCGG >176499 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAATCTGTGGATCGAGGATTCGTCCAAGTGAAGCAGAGGACAGTGGCGGACGGGTGAGTAACGCGTGAGGAACCTGCCTTTCAGAGGGGGACAACAGTTGGAAACGAC >174974 GACGAACGCTGGCGGCACGCTTAACACATGCAAGTCGAACGGAGAATATCGAAGCTTGCTTTGATATTCTTAGTGGCGGACGGGTGAGTAACACGTGAGTAACCTGCCTCTGAGAGTGGGATAGCTTCTGGAAACGGATGGTAATACCGC >174924 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACGAGAGGGAGCTTGCTCCCTCAAGTTAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCTTTCAGAGGGGAATAACATTCTGAAAAGGATGCTAATACCGCAT >172015 AACGAACGCTGGCGGCGTGGATTAGGCATGCAAGTCGAACGAGAAAATCCGCTTCGGCGGATGAGTAAAGTGGCGAACGGGTGAGTAACGCGTGGGTAATCTGCCTCCGAGACTGGGATAACTCGCTGAAAGGCGGGCTAATACCGGATG >170481 GACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGGGGAGATGTAGCTTGCTACATATCCTAGCGGCGGACGGGTGAGTAATGCTTAGGAATCTGCCTATTAGTGGGGGACAACATTCCGAAAGGAATGCTAATACCGCATACG >170175 GATGAACGCTGGCGGTATGCCTGACACATGCAAGTCGAACGAGAAAACTTTGTTTTCTAGTGGCGCACGGGTGAGTAACGCGTAAGAATCTACCTTTAGGTAGAGGATAACAATTGGAAACGATTGCTAATACTCTATAAGCTGAGAAGT >167253 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCAAGGGGCAGCAATGGAGTAATCTGTTGCTGCCACTGGCGCACGGGTGAGTAACGCGTAGGTAACCTGCCCTCAGCCCTGCAATAACCCCGGGAAACTGGGGCTAATGGCAGATG >166591 AACTAACGCTGGCGGCGCGTCTTAAACATGCAAGTCGAACGGTGAAAATGAGGCTTCGGCCGAAACACGAGTGGCGAACGGGTGAGTAACACGTAGGTAATCTACCTTTCAGTGGGGGACAACTCAGGGAAACTTGAGCTAATACCGCAT >166400 ATTGGACGCTAGCGGCAGGCCTAATACATGCAAGTCGAGGGGCAGCACGGTTTTCGGACTGGTGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCCATTACAGGAGGATAGCCCGAGGAAACTCGGATTAATACTTCATAG >165732 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGGGGTAGCAGGATTAAGCTTGCTTAATTGCTGACGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTACCTTATACTGGGGTATAGCCCGGAGAAATTCGGATTAATCCC >165553 AGTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCGAAAGCAATCTTCGGATTGCGAGTAGAGTGGCAGACGGGTGAGTAAAGCATAGGAAATCTACCCATGAGTGGGGAATAACCAGCCGAAAGGCTGGCTAATACCGCATA >164960 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAACCTTCGGGTTTAGTGGCAAACGGGTGAGTAACGCGTAGGTAATCTGCCGCAAAGTTGGGGGCAACAGTTCGAAAGGACTGCTAATACCGAATGTTGTAACTTTTCC >164784 ATTGAGCGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGTAACAGGCCCTTCGGGGTGCTGACGAGTGGCGGACGGGTGAGTAATGCTTAGGAATCTGCCTAGTAGTGGGGGATAACCCGGGGAAACCCGGGCTAATACCGCATACG >164402 AACAAACGCTGGCGGCGTGTCTGAATGATGCAAGTCGTACGTCAACGGAGCCTTCGGGCTCTTAGTAAGTGGCGAACGGGTGAGTAACACGTGTGTAACCTGCCTTTGGGAGGGGGGCAACACCACGAAAGAGGTGCTAATACCCCATAG >164293 AACAAACGCTGGCGGCGTGCTTCATACATGCAAGTCGAACGTGAAAGTCCGCAAGGACAAGTAAAGTGGCGAACGGGTGAGTAACACGTGAGTAACCTACCTTCGAATTGGGGATAACACAGAGGAGGTTTACCTCCTCCTTGCCTAACG >164185 GATGAACGCTAGCGGTAGGCATAACACATGCAAGTCGAGGGGCAGCATAATTGAAGCTTGCTTTGATTGATGGCGACCGGCGGATGGGTGAGTAACGCGTATGCAACCTGGCTTATACAGGAGGATAGACACTGGAAACGGTGCGTAATA >162509 AACGAACGCTGGCGGCACGCCTAACACATGCAAGTCGAACGCGAACGGAACTTCGGTTCTTATTAGAGTGGCGGACGGGTGAGTATCGCGTGGGAACATGCCCTTTTGTACGGAACAACCATTGGAAACGATGGCTAATACCGTATACGC >161623 GATTAACGCTGGCGGCGTGCATGAAACATGCAAGTCGAGCGCGGTGTGATGCGGGGTAACCCAATTCACATCTAGCGGCGAACGGGTGAGTAACACGTGAGCAACCTACCTTCGAGTTGGGGATAGCCCTGGGAAACCAGGATTAATACC >161018 AACGAACGCTGGCGGTCTGCCTTATACATGCAAGTCGCACGAGAAACCATGGGCTTGTTTCTGCTCGTACAGGGAAGCAAGTCCGGGGAGTAAAGTGGCGAACGGGTGAGTAACACGTAGATAACCTACCCTCCGGACGGGGACAACCCT >160220 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGATGAGGGGTGCTTGCACTCTGATTCAGCGGCAGACGGGTGAGGAACACGTATCTAACCGACCACGGGATGGGGGATAGTCCTGCGAAAGCGGGGGTAATACCGCATAG >158641 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCAAACGGTTGGTAGCAATACTGACAGTGGCGCACGGGTGAGTAAAGCATGGGTGATCTGCCTTTTAGTTGGGGATAACTATACGAAAGTGTAGCTAATACCGGATAAGCAGTACT >158414 ATTGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGCAGCACGGGGGCAACCTTGGTGGCGAGTGGCGGACGGGTGCGTAACACATAGGAATCTGCCCTGTAGCGGGGGATAACGTAGGGAAACTTACGCTAATACCGCATACG >157557 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTCAGCACCGGAAGGTTCGCTGGAAGGTGCTGTTAGTGGCGGACGGGTGAGTAACGCGTGAGGACATGGCTCCAGGAGGGGGATAACGTTTGGAAACGGACGCTAAGAC >157064 ATTGAACGCTGGCGGAATGCTTTACACATGCAAGTCGAACGGGGTCATGGGGCTTGCTCCATGACCTAGTGGCGAACGGGTGAGTAATACATAGGAACGTGTCCCGTAGTGGGGGATAACGCACCGAAAGGTGTGCTAATACCGCATATG >156907 ATTGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGCAGCATGGTGTGTAGCAATACACACTGATGGCGAGTGGCGGACGGGTGAGTAACGCGTAGGAATCTGCCTTGAGGAGGGGGACAACCCGAGGAAACTCGGGCTAATAC >156778 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGCGCGAGAAAGCCCCTTCGGGGGTGAGTAAAGCGGCGGACGGGTGAGTAACGCGTGGACAACCTACCCTGGGGTTGGGGATAACCCTGCGAARGCGGGGCTAATACCGAATACG >155181 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGCAGCGAGGGGCCTCCTTCGGGAGGCCCCGTCGGCAAGCGGCGAACGGGTGAGTGAACATTGGGAATCTGCCCAAGGGCGGGGGATAGCCACTGGAAACGGTGGGTAAT >151902 NGACGAACGCTGGCGGCGTGCTTAACACATGCAAGTTGAACGAGAAGTCTCCGCATGATTTTTTCGGAGTGATTATGGAGACGGAAAGTAGCGAACGGGCGAGTAACGCGTGGGTAACCAACCTCAGACAGGGGGACAACACCGGGAAAC >151841 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGAGTTATGAGAGAAGCTTGCTTCACTTTTAACTTAGCGGCGGACGGGTGAGTAACACGTGAGTAACCTGCCCTTGAGTGGGGAATAACACCGAGAAATCGGTGCTAATA >151764 ATTGAACGCTGGCGGCACGCTTAACACATGCAAGTCGAACGATGAAGGTTCGTAGTATTTATACTATGGATTGACATAGTGGCGAACGGGTGAGTAATGCGTAGGGACCTGGCCTGAAGAGGGGGACAGCCTTAGGAAACTGGGGTTAAA >151318 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGGTTATACGGAGAAATTGGTTTCGGCTGGTGGATTTGTATAACTTAGTGGCGGACGGGTGAGGAACACGTAGTAACCAATCCTGAAGCGGGGGACAACTGCGGGAAAC >151203 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTTGTACGAGAAGCCTGACCTCTTATCCTTCGGGATGAAAGGACAGGCAGAAAGTGGCGAACGGGTGAGTAACGCGTGGGTAATCTACCCTGTAAGTGGGGAATAACCCTCCGAAAG >150741 GATGAACGCTGGCGACGTGCCTAACACATGCAAGTCGAGTGCGCTTCGGGCGCACGGCGAACGGGTGAGTAATGACAAGGAACATACCTCGAACACGGGAATAACCCGCCGAAAGGTGGAATAATGCCCGATAGTCCCGCAAGGGTAAAT >150676 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGAAGCAGCAATGCTTTAGTGGCGAACGGGTGAGTAATATATAGACAACCTATCTTTAAGTCGAGGATAGCAGTTGGAAACGACTGGTAATACTGGATAGGATTCAAGTT >150619 AATGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGGAAACGATAAAGAGCTTGCTCTTTAGGCGTCGAGTGGCGGACGGGTGAGTAACGCGTGGGAACCTACCTTAGTGTTGGGGACAACATATGGAAACGTATGCTAATACCG >150615 AACGAACGCTGGCGGCATGCTTCAGACATGCAAGTCGAACGAGATCTTCGGATCTAGTGGCGCACGGGTGAGTAACGCGTGGGAACCTACCTTTCAGTATGGGATAACAGTTGGAAACGACTGCTAATACCGTATACGCCCTCCGGGGGA >150587 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGGACGCCCCGCGCAAGCGGGGAGTGGCGCACGGGCGCGTAACACGTAGCCAACCTGCCCTGGAGAGTGGGATAACGCCCCGAAAGGGGTGCTAAGACCGCCTACGCTCGCTGGC >150441 AGTGAACGCTAGTGGCGTGCTTAACACATGCAAGTCGAACGGACGATATTTGTGCTTGCACAAATAAAGTTAGTGGCAAACGGGTGAGTAATACATGGGAATTTTCCTTGCAGTACGGAATAACTATTGGAAACAGTAGCTAATACCGTA >149351 ATTGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGCAGCGGGGGTGTAGCTTGCTACACCTGCCGGCGAGTGGCGGACGGGTGAGTAATACATAGGAATCTGCCTTTGTGAGGGGGATAACTGAGGGAAACTTCAGCTAAGAC >149144 AACGAACGCTGGCGGCGCGTTTTAAGCATGCAAGTCGGACGGCAAGGCTGGTAGCAATACTGGCCCTAGAGTGGCGAACGGGTGAGTAACACGTAGGTGATCTGCCTCTGGATGGGGGATAGCCCGTGGAAACACGGGGTAATACCGCAT >146556 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGGACGGAGCTGTGCTTGCACAGCTCAGTGGCGCACGGGTGAGTAATGCATGGATAATCTGCCTTGTAGTGGAGGACAACTACGCGAAAGTGTAGCTAATACTGCATACGCAGCC >146428 AATGAACGCTAGCAATCTGCCTTACACATGCAAGTCGAATGATGAAAGTCATGGCACACGGGTGAGTAACGCGTAGGAATCTACCTTCTAGAAGGGAGTAATGAGGTTGGGAAACTGACGTCAAAATACCGTATAGGAAAGGAAAGGAGC >145658 GACGAACGCTTGCGGTGTGCCTAATGCATGCAAGTCGAACGAAGCTTTTCCCTTCGGGGAATTCGCTTAGTGGCAGACGGCTGAGTAACGCGTAAGTAACTTGCCTTAGAGAGGGGAATAACTCAGGGAAACCTGAGCTAATACCGCGTA >144770 AACGAACGCTGGCGGCGTGGTTGATACATGCAAGTCGAACGGGAAAGGGGGCTTCGGCCTCCGAGTACAGTGGCGGACGGGTGAGTAACGTATGATCAATCTGCCCTCAAGACGAGGATAGCCATTAGAAATGATGGGTAATACTCGATA >144268 GATGAATGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGGAAAGGCCCTTCGGGGTACTCGAGCGGCGAACGGCTGAGTAACGCGCGGGAACATACCCCAGAGTGAGGGATAACTTCTCGAAAGAGAAGCTAATACCGCATAACCTCT >143399 AGCGAACATTGGCGGTGTGCCTAACACATGCAAGTCGAACGGATCAGTGCTTCGCACTGGTTAGTGGCAAACGGGTGAGTAATGCGTGGGTGATTTACCCTCGAGTGAGGGATAACCTCGCGAAAGCGAGGCTAATACTGCATAATATTT >143037 GATAAACGCTGGCGGCGTGCTTCATGCATGCAAGTCGAACGCTTCGGCGCAAGCCGGAGAGTGGCAAACGGGTGAGTAACACGTAAGTAACCTGTCCTAAAGTGGGGGATAATTCACCGAAAGGTGGACTAATACCGCGTGTGGTCGTTT >141893 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGTGCGAAGCGGCCTGGGAGGCTTGCCTTCCGGGTCGACTTAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTACCCGCAAGACCGGGACAACCCTGGGAAACCGGGGCTAAT >141017 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCCTACGTGAAAGGGGAGCAATACCCCGGTAAGGCGGCGAACGGGTGAGTAATACATGGGAATCTGCCCTGGAGATGGGGATATCCTTCCGAAAGGAGGGCTAATACCGAATATCG >140122 GATGAACGCTAGCGGGAGGCTTAATACATGCAAGTCGTACGGTAATCCCCAACTTGTTGGGGAACGAGTGGCGGACGGGTGAGTAACGCGTACACGATCAACCTATAAGTCTGGGATAGTCACTGGAAACGGTGAATAATATCGGATGTG >139265 AACGAACGCTAGCGGTGCGTTTTAAGCATGCAAGTCGAACGGAAAGGTCTCTTCGGAGATACTCGAGTGGCAAACGGGTGCGTAACACGTAGTTAACCTACCCATTACTTTGGGATAACCATCAGAAATGGTGGCTAATACCGAATGAAC >138829 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGTAACGATGGTGCTTGCACCAGGCGACGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTACCTATAACTAAAGAATAGCCCGAAGAAATTTGGATTAATACTTTAG >137398 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTGCGAGAAAGTCCCCGCAAGGGGATGAGTAAAGCGGCAGACGGGTGAGTAATACGTGAACAACGTACCTTCCTGCGGGGGACAACGTTCCGAAAGGAACGCTAATACCGCATG >137055 ATTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGCGAAAGGGCGCAAGCCCAAGTAGAGTGGCGGACGGGTGAGTAACACGTAGGAATCTGCCTGACAGTGGGGGATAACTTAGGGAAACTTAAGCTAATACCGCATACGCCC >134265 GATGAACGCTAGCTATAGGCTTAACACATGCAAGTCGAGGGGCAGCGAATAGATGGCTTGCTATTTATGTCGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTGCCCATAACTAAGGGATAACCCAGCGAAAGTTGGACTAATA >131162 AACGAACGCTGGCGGCACGTTTTAAGCATGCAAGTCGAACGGTAGTCCCGTTTTCGGATGGGATGAGAGTGGCGGACGGGTGAGTAACACGTAGGTGATCTATCTTATGGTTGGGGGATAGCCCATGGAAACATGGGGTAATACCGCATG >114798 GATTAACGCTAGCGGGAGGCCTAACACATGCAAGTCGAGGGGCATCACGGGTAGCAATACCTGGTGGCGACCGGCAGACGGGTGCGCATCGCGTGTGCAACCTGCCTTATGCTGGAGGATAACCCGAAGAAATTCGGACTAATACTCCAT >114578 GATGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGCTCCCTTCGGGGAGAGTGGCGGACGGCTGAGTAACGCGTGGGAATCCACCCCAAAGTGAGGGATAAGCACCGGAAACGGTGTCTAATACCGCATAACCTCTTCGGAGAA >113409 AATGAACGCTGACGGCGTGCTTAACACATGCAAGTCGTACGAGAACTCCCGAGCTTGCTCGGGATAGTAAAGTGGCGCACGGGTGAGTATCGCGTGGGTTATCTACCCTCGAGTTCGGGATAACATTGCGAAAGCGGTGCTAATACCGAA >111871 GACGAACGCTGGCGGTGCGCCTAATGCATGCAAGTCGAACGAGCGACCCGGGCTTGCCCGGTTAGCTAGTGGCAGACGGCTTAGTAACACGTAAGTAATTTGCCCCGAAGAGGGGGATAATCCAGAGAAATCTGGCTTAATACCCCGTAA >110020 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTGGAACGCATTGAGAAGAGAGCTTGCTCTTTTCTCAATGAGTCGCGAACGGGTGAGTAACGCGTGGGAAATCTGCCTCTAAGCGGGGGACAACTACTAGAAATGGTAGCTAATACC >107881 GATGAATGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGCCTTCGGGCTAGCGGCAGACGGGTGAGTAACACGTAGGCAATCTACCCCAGACACGGGCATAACTCCGCGAAAGCGGAGCTAATTCCCGATATGCTCACAGGTTGAA >107797 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAACGGTAACATTTCTTGCTTGCAAGAAGATGACGAGTGGCGCACGGGTGCGTAACGCGTATACAACCTGCCTTTAACAAAGGGATAGCCCATGGAAACGTGGATTAATACCTT >107665 GACGAACGCTGCCGGCGTGCCTAATACATGCAAGTCGAGCGGGGAAGACGCCTTCGGGTGTGTTCCTAGCGGCGAACGGGTGAGTAACACGTAAGCAACCTGCCCAAAAGACCGGGATAACACCGGGAAACCGGTGCTAATACTGGATAG >105573 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGCCTCTTCGGAGGCTAGTGGCAAACGGGTGCGTAACACGTAGGTAATCTACCCAGAAGACGGGGACAACGGATGGAAACGTCCGCTAATACCCGATGGCGTCGCGAGA >104326 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGTGGAGCAATCCATGAGTAAAGTGGCGCACGGGTGAGTAACACGTGACTAACCTACCTTTGAGCGGGGGATAACCTAGGGAAACCTGGGCTAATACCGCATAAT >104067 CGCGAACGCCAGCAGGGGGCTTAAGACATGCAAGTCGTGCGCGAAAGTNNTTNAGGATGTGTAGCGCGGCAAACGGGTGAGTAACGCGTGATTAACCTTCCCCGCCGGATCGGGATAACCCCCCGAAAGGGGGAATAATACCGGATGTGC >103940 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAGGGGCAGCAGGTCCCGATCTTCGGATCGGGATGCTGGCGACCGGCGCACGGGTGCGTAACGCGTACACAACCTGCCCTGTACTGGGGGATAGCCCGCCGAAAGGCGGATTAA >103802 GATGAACGCTAGCGGGAGGCTTAATACATGCAAGTCGAGCGGTAAGGTTTTCGGACCCTAGAGCGGCGAACGGGTGAGTAACGCGTACGAAACCTACCTTTAAGAGAGGAATAGCCCTGGGAAACTGGGAGTAATACCTCATAGTATTCA >102747 AACGAACGCTGGCGGCGTGCTTAAGACATGCAAGTCGTGCGAGAAAGTCACCTTCGGGTGGCGAGTAAAGCGGCGCACGGGTGAGTAACGCGTGGGTAATCTACCCAAGGGTCTGGAATAACACCGGGAAACTGGTGCTAATGCCGGATA >101800 AACGAACGCTGGCGGCATGCTTAACACATGCAAGTTGAACGGATAGAGATATCAGTGGCGAACGGGTGAGTAACACGTGGGAATTTGGCTTATAGTTTTGGATAGCTATTGGAAACGATAGGTAATACAAGATGAGTTGGAGACAAGAAA >101480 GATTAACGCTAGCTGTGCGCCTAACACATGCAAGTCGAGCGTGATCATAGAACTAGCTTGCTAGATCTATGTGAAAGCGGCGAACGGGTGAGTAACACGTTGGAATCTGCCCTCGATTCAGGGATAATCCGTCGAAAGACGGACTAATAC >101021 ATTGAACCCTTGGCGGCAGGCCTAATACATGCAAGTCGAACGGTAACATGGAAGTAGCAATACTTTTGATGACGAGTGGCGGACGGGTGAGTAATATTTGGGAATCTACCTATCAGAGGGGGATAGCAACTGGAAACGGTTGATAAGACC >100774 AGTGAACATTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGAATATTTTGAGATTACATCAAGAGATATTCCAGCGGCAAACGGGTGAGTAATGCACAGACAATCTACCCTCGAGCGGGGAATAGTCCCGGGAAACCGGGGTTAATAC >97342 AACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGAAGGCTTCGGCCTTAGTGGCGCACGGGTGCGTAACGCGTGGGAATCTACCCTTAGGTTCGGAATAACTCAGAGAAATTTGAGCTAATACCGGATAATGTCTTCGGACCA >95370 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGCGAAAGTAGACTTCGGTCTGCGAGTAGAGCGGCGAACGGGTGAGTAACACGTGGGTAACCTACCTGAGAGCGGGGGATAACCCGGGGAAACCTGGACTAATACCGCATA >95032 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAAGTGCTTTATGCACTTAGTGGCGAATGGGTGAGTAACACCGTATTTAATCTACCTAATAGTGAGGGACAACAGTTAGAAATGACTGCTAATACCGCATAGTATATTTT >94710 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGCGGGCTTCGGCCCGCTAGTAAAGTGGCAGACGGGTGAGTAACACGTGGGCAACCTGCCCGGAGGTGGGGGATAACCCTTCGAAAGGAGGGCTAATACCGCATG >91130 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAGGGGCAGCATTAAGTTGGCGACCGGCAAACGGGTGCGGAACACGTACACAACCTTCCCCCGGGAGGGGGGCAGCCCAGAGAAATTTGGATTAATACCCCGTAACACGGGCGG >90508 GGTGAACGCTGGCGGCGTGCCTAATGCATGCAAGTTGAGCGATCCACTTCGGTGGAGAGCAGCGAACGGCTGAGGAACGCGTAGGTGACCTGCCCTTTAGTGGGGGACAACACCGGGAAACGGGTGCTGATACCGCATAAGTTCTTCTGG >88715 GACGAACGCTGGCGGCGCGCCTAATGCATGCAAGTCGAACGGTCCTCTGACCTTCGGGTCTTGGGATAGTGGCGAACGGCTGAGTAACGCGTAAGCAACCTGCCCCTGAGTGGGGAATAACTCACCGAAAGGTGGACTAATACCGCATGT >88193 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAAAGCCCCTTCGGGGGTTAGTAAAGCGGCGGACGGGTGAGTAACACGTGAGCGATCTACCCAAGGGTGGGGGACAACTCAGGGAAACTTGAGCTAATACCGCGTACA >86730 GACGAACGCTGGCGGCGTGCCTACTACATGCAAGTCGAGCGTGCATCCTTTGGGGTGCAAGCGGCGGACGGGTGAGTAACACGTGGATAACTTGTCCAGAAGACGGGGATTACCCCTGGAAACGGGGGTCAATACCGGATACGCCTACCG >86589 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAAATCCGCTTTCGGGCGGAGAGTAAAGTGGCGCACGGGTGAGTAACGCGTGGGTAATCTCCCCTCGGATCCGGGATAACCAGCCGAAAGGAGGGCTAATACCGGATA >85142 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCGGTTACCGCTGCTTCGCAAGAAGTAGTGGTAACTGAGTGGCGAACGGGTGAGTAACACGTGGGTGACCTGCCTTCGAGTGGGGGATAACATCCCGAAAGGGGTGCTAA >79590 GGTGAACGCTGGCGGCGTGCTTCACACATGCAAGTCGAGCGAGAACAAGGTGCTTGCACCTTGGGAAAGCGGCGAACGGGTGAGTAACACGTGAGTAACCTGCCCTTTGGAGGGGGATAGCGGTTCGAAAGGACCGGTAATACCCCATAT >79318 CGCGAACGCTGTCGGCGTGCCTAACACATGCAAGTCGTGGGGCAGCAGGCCGGTTCCTTTTGGAACTGGTGCTGGCGACCGGCGAACGGGTGAGTAACGCGTGAGCAACCTACCCCGAGGAGGGGGATAACCCGGGGAAACCCGGGCTAA >79191 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAGCGATCGGCCCGCAGCCCTTCGGGGCAGTGGGTACGGAGCGGCGGACGGGTGAGTAACGCGTACCTGACCTACCCTCCAGAGGGGGATAGCCACGGGAAACCGTGGGTAATA >79153 GATGAACGCTGGCTGTGTGCCTAATACATGCATGTCGAACGAAGTAGCTTGCTACTTAGTGGCGAATGGGTGAGTAACACGTACTTAACCTACCTCTAAGATGGGGATAACAATTGGAAACAATTGCTAATACCGAATACTTAAATAGAA >74136 AACGAACGCTGGCGGCACGCCTAACACATGCAAGTCGAACGGTATGGACATATAATTGTACATATAGTGGCGGACTGGTGAGTAAAAAGTAGGAATCTACCCATAGGTTAGGGATAGCACCGGGAAACTGGTGGTAATACCTGATAATAC >73760 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGATCCCTTCGGGGATAGTGGCAGACGGGTGAGTAACACGTGGGAATCTACCTGGTTCTTCGGGATAACAGTTGGAAACGGCTGCTAATACCGGATACGCCCTTTTGGGGA >72653 AACGAACGCTGGCGGCAGGCGCTAATACATGCAAGTCGAACGAAACCTTACGGGTTTAGTGGCKCACGGGTGAGTAATGCATGGGAACGTGCCCTTCAGTACGGAWCAACATCGGKAAACTGGTGCTAATACCGTATAACATCTCCGGAT >66908 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGACCATATTCGTATGGTTAGTGGCAGACGGGTGCGTAACACGTGGGTGACCTGCCCTCAAGTGGGGAACAACTCCGCTAACGCGGAGCTAATACCGCATATGTTCGCTT >60618 GACGAACGCTGGCGGCGGGCCTAACACATGGAAGTCGTGCGGTAAGGAGTCCTTCGGGGCTCCTTATAGCGGCGGACGGGTGCGTAACACGTAGCTAACCTGCCCTCGGCTGGGGGATAACCCACCGAAAGGTGGGCTAATACCGCATAA >60610 GGTGAACGCTAGCGGCGGGCCTAACACATGCAAGTCGTGCGGAGGGGGCAACCCCTCAGCGGCGGACGGGTGCGTAACACGTAGGTAACCTGCCCCCAGGAGGGGGATAACCCTGGGAAACCAGGGCTAATACCCCATAAAGCAAGGGCA >60582 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGTCGCAAGACAGTGGCGCACGGGTGAGGAACACGTAGCTAACCTGCCCTCAAGACCGGGATAACGGATCGAAAGGTCTGCTAATACCGGATAAGCTCACGTGAAGTAGA >45082 GATGAACGCTGGCGGTATGCTTAACACATGCAAGTCGTACGAAAACTTTAATGTTTTAGTGGCGAACGGGTGAGTAACACGTGAGAATTTGCCCTTAGGAAGAGAATAACGATTGGAAACGATCGCTAATACTCTATATCTCTAAGTTTT >35786 GATGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGGACGATGCCCCTTCGGGGACAAAGTCAGTGGCGGACGGGTGAGTAACGCGTGAGTAACCTGCCCTTATGAGTGGAATAACGTTTGGAAACGGACGCTAATACCGCATGA >34789 GACGAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAACGGAGCGAACGGGATGAAGCCTTCGGGCGGAATTCCGTGAGCTTAGTGGCGAACGGGTGAGTAACGCGTGAGCAACTGGTCCCAAAGAGGGGGACAACTTTGAGAAATCAA >29714 GATGAANGANTAGCGGCGTGCCTTATGCATGCAAGTCGAACGGTCTTAANCAATTAAGATAGTGGCAAACGGGTGAGTAACGCGTAAGTAACCTACCTCTAAGTGGGGGATAGCTTCGGGAAACTGAAGGTAATACCGCATGTGATGGGC >26642 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAGGGGCAACACGGATTAGCTTGCTAATTTGGTGGCGACCGGCGCACGGGTGAGTAACGCGTATGGAATCTGCCTGTTACAAGGGGATAGCCCGAAGAAATTTGGATTAATACC >25562 ATTGAACGCTGGCGGTATGCTTTACACATGCAAGTCGGACGGCAGCGAAAGAAAGCTTGCTTTCTTGTCGGCGAGTGGCGGACGGGTGAGTAATGTATCGGAACATATCATTAGGTGGGGGATAACTTCCCGAAAGGGAGGCTAATACCG >18516 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGATCGAAACGCTGTATCAATACATAGTGGCAGACGGGTGATGTAACGCGTGGGAATCTACCCAGATCTTCGGAACAACTGAGGGAAACTTCATTCTAATACCGGATACGCCCTACGG >15850 GATTAACGCTGGCGGCATGCCTAATACATGCAAGTCGATCGGATGTAGCAATACATTAGAGGCGAACGGGTGAGTAACACGTATCCAATCTACCCTACAGTGGGGGATAACTAGTCGAAAGATTAGCTAATACCGCATAACAAATGTACT >15791 GATAAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGAGGTGCTTGCACCTCAGTGGCGAACGGGTGAGTAACACGTATCTAATCTACCTTCTAGCGGGGGATAACTTTTGGAAACGAAAGGTAATACCGCATGTGGATATTATY >7735 ATTGAACGCTGGTGGCATGCTTAACACATGCAAGTCGAACGGTAGCAGATCTAGCTTGCTAGATGCTGACGAGTGGCGGACGGGTGAGTAACGCGTGGGAATTTACCTTTTAGTGGGGGATAACTTTAGGAAACTGAAGCTAATACCGCA >6817 ATTGAACGCTGNCNGCATGCCTTACACATGCAAGTCGAACGGTAACAGGGACTTCGGTCCGCTGACGAGTGGCGAACGGGTGAGTAAAGCATAGGAATACATCCATTAGTGGGGGATAACGCATCGAAAGGTGTGCTAATACCGCATACG >2599 GATNAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAACGGGTGTAGCAATACATTAGTGGCAGACGGGTGCGTAACACGTATGCAATCTACCTTTCACAGGGGGATAACTCAGGGAAACTTNAGCTAATACCGCATAACATTAGGTAA >1503693 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAATGAAATTCCTTCGGGAACGGATTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTCATAGAGGGGAATAGCCTTCCGAAAGGGAGATTAATACCGCATAA >1513052 AACGAACGCTGGCGGCGCGTTTTAAGCATGCAAGTCGAGCGGCAAGGGGGGCTTCGGCCCCCCCTAGAGCGGCGGACGGGTGAGTAACACGTGGACAATCTGCCCCCCGGTTCGGGATAGCCCAGGGAAACCTGGATCAATACCGGATGC >829927 GATAAACGCTGGCGGCGTGCCTAAAACATGCAAGTCGTACGGGTGTCTTCGGACACCAGTGGCAGACGGCTGAGTAACACGTGGGTGACCTACCTCTAAGTGGGGAATAACCCTCCGAAAGGAGAGCTAATTCCGCATGTGGTCATTGGG >1106142 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCACTTCGGGTGGCGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTACCTTTAACTGGGGGATAGCCCAGGGAAACTTGGATTAATACCCCATAACATCCCGA >1567686 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAGGTAGCAATACCTAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCCTTAAGCTTGGAATACCCAGAGGAAACTTTGGTTAATACCGGATAACATCAGAGGAGG >1575356 GACGAACGCTGGCGGCGTGGATTAGGCATGCAAGTCGAACGCGAAACCCCGAGCTTGCTTGGGGGATTAGAGTGGCGGACGGGTGAGTAACGCGTAGGTAATTTACCTTAAAGTGGGGGATAGCTCCCGGAAACGGGAATTAATACCGCA >544773 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAAGGGGGCCCGCAAGGGTAACCGGCGAACGGGTGCGTAACACGTGAGCAACCTACCCAAGTGTGGGGGATAGCCGGGCCAACGCCCGGGTAATACCGCATACGTTCGGCGAGCG >732105 AACAAACGCTGGTGGCGTGCTTTATACATGCAAGTCGAGCGGAAGTTAGTTGGAAAAGAAGATAGCAGAAGGTAGTTCTCTACTAACTGTTTATTCTTTTTTACTATCTTTAGCGGCGAACGGATGAGTAACGCGTGGATAATCTACCCT >1598493 GATGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGAAAGTTTTTAACTTTAGTGGCGAACGGGTGCGTAATACGTGAGAATCTGCCCTTAGGAGGAGTATAACTGCTGGAAACGGCTGCTAACACTCCATATGTCGAGAGATGA >1110421 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGTTCCTGCAGAACGCCGCAGGGACTAGTGGCAAACGGGTGAGTAATGCGCAGGTCAACAACCGTCAAGAGGGGGATAACATGGCGAAAGCCGTACTAATACCCCGTAA >899137 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCCCCGCAAGGGGAGTGGCAGACGGGTGAGTAACACGTGGGAACATGCCCAAAGGTACGGAATATTCTCGGGAAACTGAGAGCAATACCGTATGTGCCCGAAAGGGGAAA >1632436 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGATAAAGCGACTTCGGTCGTGATTAAAGTGGCAAACGGGTGAGTAACACGTGGGCAATCTGCCCTTAAGTTGGGGATACCCTTGGGAAACCAGGGCTAATACCGAATGTG >778385 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTTGTACGAGAAAGCGATCTTTCGGGATTGTGAGTAAAGTGGCGCACGGGTGAGTAACGCGTAGGTAATTTCCCCATATGACTGGGATAACATTCCGAAAGGAGTGCTAATACTGGA >967832 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAGGGGCATCGGGTCTCCTTCCGGGGAGATGCCGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACCCACCCTGCACTGGGGGATAGCTCAGGGAAACTTGAGGTAATACC >1660169 AACGAACGCTGGCGGAATGCTTAACACATGCAAGTCGAACGAGTACTTTTTACGAGTGGCGGACGGGTGAGTAACGCGTGGGAACCTGCCTTTAGGTAGAGAATAACTACAGGAAACTGTAGCTAATACTTTATAAGCCCTACGGGGGAA >825873 AATGAACGTTTGCGGTGCGCTTTATGCATGCAAGTCGAACGGAGTTGTAGTTTTCGGACTGCAATTTAGTGGCGGACGGCTGAGTAACACGCAAGCAACTTGCCTCGGAGTGGGGGATAATCTATCGAAAGACAGACTAATACCGCATAT >1707471 GACGAACGCTGGCGGCATGCCTAAGACATGCAAGTCGAACGAACAATCGAGTGCTTGCACTCGAGAGTTAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTACCTTAAAGACGGGGACAACAGCTGGAAACGGCTGCTAATACCGGAT >1711236 AACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGAACAAAATTGGGGCTTGCTCCAATTTTAGTGAGTGGCAAACGGGTGAGTAACACGTGGGAATCTACCTATCAGTACGGAATAACATTTGGAAACAGATGCTAATACCGT >828183 GATGAACGCTGGCGGTGTGCCTAACACATGCAAGTCGAACGGACCTTTGGAACTGAAGCTTCGGTGGATGTTCCTTCTGGTTAGTGGCAAACGGGTGAGTAATATATAGATAACATACCCTTAAGACTGGAATAACTTTTCGAAAGGGAA >1134236 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCACGGGGGCGGGGCTTCGGCCTCGCAACCGGCGAACGGGTGCGTAACACGTGAGCGACCTGCCTCCCCGCGGGGGATAGCCGGCCCAACGGCCGGGTAATACCGCATACGCTCTC >1146188 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGTAACAGGTATCTTGATCCTCTGAAGAGTGGCAAACGGGAGAGTAATGTCTCAGAACGTACCATCTCGTGGGAGATCACGTAGCAAACTTTACTCTTATACCGCATACT >1749853 GATGAACGCTAGCGGGAGGCTTAACACATGCAAGTCGAGGGGCAGCACGAGTAGCAATACTTGGTGGCGACCGGCGGACGGGTGAGTAACGCGTATGCAACCTACCATTTACCGGGAAATAGCTCGAAGAAATTTGAATTAATGTCCCAT >1785734 AACGAACGCTGGTGGCGTGTTTTATACATGCAAGTCGAGCGAGGACAATAGCTTGCTATTGAGCCGAGCGGCGAACGGGTGAGTAACGCGTAAGCAATCTGCCCCATAGTCGGGAATAACCGCGCTAACGTGCGGCTAATGCCGGATATT >1133974 GATGAACGCTGGCGACGTGGATAAGGCATGCAAGTCGAACGGTTGTAGCAATACAACAGTGGCGAACGGGTTAGTAACACGTAGATATCAACCCTTTACTCGGGCATAACCTGGAGAAATCTAGGCTAATTCCCGATAGTCCGGAAACGG >1843326 AATGAAACCTGGCGGTGTGCCTAACACATGCAAGTCAAACGACAATTTTTTTTGGAGTGGCGGACGGGTGAGTAACACGTAAGAACCTACCTTTAGGAGGGGGATACCATCCCGGGAAACTGGTGCTAATACCCCATATGCTGAGAAGTG >1852712 GACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGAATTTGGTTCTTCGGAACCAGGTTAGTGGCGAACGGGTGAGTAATATATGAGCAACCTGCCTCTGTCAACGGGATAGCAAGTGGAAACGCTTGCTAATACCGTATATGA >1099001 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGGTAAGGTCTCTTCGGAGATACACGAGTGGCGGACGGGTGCGTAACGCGTATGCAACCTACCCTTTAACGGGGGATAGCCTGGAGAAATTCAGATTAATACCCCATAGTA >1870404 GACGAACGCTGGCGGCGTGCCTGACACATGCAAGTTGAGCGAAGTACTTACAACTGATCCCTTCGGGGTGACGATGTAAGTATCTTAGCAGCAAACGGGTGAGTAACGCGTAAGAAACCTGCCATTCACAGGGGGATAGCCTCGGGAAAC >1937709 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAATTCTGATTCGTCAGAAGAGTAAAGTGGCAGACGGGTGAGTAACATGTAGGTAATTTACCCTTAAGAAAGGAATAACCCACCGAAAGGTGGGCTAATACCTTATA >837564 ATTGAACGCTGGCGGTATGCTTTACACATGCAAGTCGAACGGTAATAGCTCTTGTAGAGCTGACGAGTGGCGGACGGGTGAGTAATACATAGAAATCTGCCTAAAAGTATGGAATAACTTTTGGAAACTTAGGCTAATACCATATGTTCC >1110349 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTTGAGCGACCCTTTCCCATGAGAGCTTGCTCGAATGGGGCTTATAAGGGGAGCGGCGAACGGGTGAGTAACGCGTGAGTAATCTGCCTCGAAGACTGGGATAACCTCGCGAAAGCG >1941303 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAAGCGTGTACTTGTACAGGCTGAAAGTGGCGAACGGGTGAGTAACACGTTGGTGACCTGCCCCGAGGCGAGGGATAACTCCTTGAAAGAGGAGCTAATACCTCAGAT >1130256 GGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTGCGACGGCCCTCGAGAAGTCCCTTCGGGGATGGATTGAGGGCACGGAGCGGCAAACGGGTGAGTAACACGTAGCTAACCTGCCCCCGCGACGGGGATAACCCTCCGAAAGGG >1961382 GATGAACGCTAGCGGGGGGCTTAATACATGCAAGTCGAACGGCAGCAGGTCCTTCGGGACGCTGGCGAGTGGCGAACGGGTGAGTAACACGTATGCAACCTACCTCTAACTGCGGGATAGCCCCGGGAAACCGGGATTAATACCGCATGT >717487 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGGTAAGTGTAGTAGCAATATTATACGAGAGTGACGTACGGGTGCGTAACACGTATGCAACCTACCCTTTACAGGAGGATAGCTCGGGGAAACTCGAATTAACCCTCCATG >546240 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGCTCTTTCGGGAGTTAGTGGCGGACGGGTGAGTAACGCGTGAGGATCTGCCTACAGGATGGGGACAACAGTGGGAAACTGCTGCTAAAACCCAATGTGCCGAGAGGTG >2014200 GATGAACGCTAGCGGGAGGCTTAACACATGCAAGTCGAGGGGCAGCATTATCTGCTTGCAGATAGATGGCGACCGGCGGACGGGTGCGTAACGCGTATATAACTTGCCTATCACTAGAGGATACCCATTGGAAACGATGAATAAGACTCT >1148027 ATTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGAGGGTAGCAATACCTTAGTGGCGGACGGGTGAGGAATACGTAGGAATTTGCCCTTAAGTGGGGGATAGCCCGGGGAAACCCGGATTAATACCGCATGATCTCGAGAGAG >663310 GATGAACGCTGGCGGTGTGCCTAAGGTATGCAAGTCGAGCGACCCTTCGGGGGAGCGGCAGACGGGTGAGTAATGCACAGATATCTGCCTTAAAGTCCGGCATAGCCCCACGAAAGTGGGAGTAATTCCGGATAGTCCCTAAATCTTTTA >806148 GACGAACGCTGGCGGCGTGCCTAAGGCATGCAAGTCGAGCGGTAGCTCCTATTGGGATAACCGATAGGAGTGAGAGCGGCGCACGGGTGAGTAACACGTAGGTAACCTACCCCAGAGAGGGGGATAACACCTCGAAAGGGGTGCTAAACC >816797 GGTGAACGCTGGCGGCGTGGATAAGGCATGCAAGTCGTACGCAGGCCTCTTTGTAAGCTTTCTTACAAAGAGGTGCTGAGTGGCGAACGGGGCAGTAACACGTGCCTAACTCACCCTGCACACGGGGATAACTCCGGGAAACTGGAGCTA >1140764 GACGAACGCTGGCGGCGTGCTTTATACATGCAAGTCGAACGAGAAAGCATCCTTCGGGGTGTGAGTAAAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTACCCACTGATTGGGGATAACATGCCTAACGGCGTGCTAATACCGAATG >1141396 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAAGGAGAACGTCCCGACTTGTCGGGATTAGTAAACTGGCGAACGGGTGCGTAACGCGTAGGCAATCTGCCCTTAAGTGCGGAATAACGCTACGAAAGTGGTGCTAATACCGCAT >2030745 GACTAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGGGAGTATTAGTTAGCTTGCTAACAAAGTACTCTAGTGGCGGACGGGTGAGTAACACGTGGGAATCTGCCTTTTACTGGGGGATAACAGTGGGAAACCACTGCTAATACC >1006554 AATGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGTAACAGGGACTTCGGTCCGCTGGCGAGTGGCGCACGGGTGAGTAACACGTGAGTAATCTACCCTAGAGTTCGGGACAACCACTGGAAACGGTGGCTAATACCGGATAC >1131325 GACAAACGCTGGCGGCGTGCTTTAAACATGCAAGTCGAACGGACCAGGGTCTTCGGGCTCTGGTGAGTGGCGAACGGCTGAGTAAGACGGCGCTGACCGATCCGGGCGTGGGGAATAACACCGGGAAACCGGTGCTAAGACCGCATGCGC >2057833 GATGAACGCTGGCGGTGTGGATAAGGCATGCAAGTCAAGGGGTTGCTTTCGGGCAACACCGGCGAATGGGTTAGTAACACGTAACTACCTACCCAATACACAGGTATAGTCCAAAGAAATTTGGGTTAATTCCTGATAGTCTGGCATTTA >1147399 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGCGAAAGGGTAGCGATACCCGAGTAGAGTGGCGAACGGGTGAGTAAAGTGTGGGTAATTTGCCTTTCAGAGGGGGACAACTCGGGGAAACCTGGGCTAATACCCCATAAC >2105437 AGCGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAGCGAGAAAGAACTTCGGTTCAAGTAAAGCGGCGCACGGGTGAGTAACACGTGGGTAACCTACCCTTGAGTTGGGGATAACCTTCCGAAAGGAGGGCTAATACCCGGTAAGAC >2107974 AACGAACGCTGGCAGCGTGCTTAACACATGCAAGTCGAACGAGAAGAGCGGGGCAACTCGCTTTGTAAAGTGGCGCACGGGTGAGTAACACGTAAGTAATCTACCTATACGTGAGGAATAACTTCGGGAAACTGAGGCTAATACCTCATA >2115593 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAACAGAGAAGGAGCTTGCTCCTTTGACGTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTACCTTATAGTTTGGGATAACTCCGGGAAACCGGGGCTAATACCGA >2119808 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGTACGCTTCCGACCTTCGGGTCAATGGAAGAGTGGCGAACGGGTGAGTAACGCGTAGGCAATCTACCCTTAGGACGAGGATAACTATTGGAAACGATAGCTAATACTGGATAGG >1143913 GACGAACGCTGGCGGCGCGCTTAACACATGCAAGTCGTACGCTGCTTGGGCTCTTCGGGGCCCGGGCGGAGTGGCGAACGGGTGCGTAACACGTGAGCGACCTGCCCCTTTTCGGGGGATAACCGGGGGAAACCCCGGCTAATACCGCAT >2135972 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGGCTGTACGAAGTATTTCGGTACAGAATACGGCCTTAGTGGCGAACGGGTGAGTAACACGTGGGCAACCTGCCCCAGACTGGGGGATAACCTTGTGAAAACAGTGCT >2135976 GATGAATGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAAGAAATGTTTGCTTGAAGGTGCTTGCACCGGATAGTTGCTTTTCTTAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCTAGTAGTTGGGAATAACAATGGGAA >1141209 ATTGAACGCTGGCGGCATGCCTTACACATGCAAGTCGAACGGTAACAGGGAGCTTGCTCCGCTGACGAGTGGCGAACGGGTGAGTAATGTATCGGAACGTGCCATAGAGTGGGGGATAACTATCCGAAAGGATAGCTAATACCGCATATT >1140062 AACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGCTCCGGGGCTTGCCCCGGGGCAGTGGCAGACGGGTGAGTAACACGTGGGAACGTACCCCTCGGTTCGGAATAACGGCCGGAAACGGCCGCTAATACCGGATACGTCCG >875406 GACGAACGCTGGCGGCGGGCTTAACACATGCAAGTCGTACGAGCAGCTAGGCCCTTCGGGGCCTAGCGAGCGAGTGGCGGACGGGTGCGTAACGCGTAGACAATCTACCTGCAAGCGGGGGATAACCACTGGAAACGGTGGCTAATACCG >2205961 GACGAACGCTGGCGGCATGCTTAACACATGCAAGTTGTACGAAATGATTTTCTTTGGATATCATTTAGTGGCGGACGGGTGCGTAACGCGTAAGAATCTACCCTTAGGTGTGGGATAACTATTGGAAACGGTAGCTAATACCGCATATGC >807143 GGTGAACGTTCGTAGCGTGGATAAGGCATGCAAATCGTACGTTTCTAAGATAGATTTATCTATCTTAGAATACGTGGTAAACGGGGCAGTAATGCATACCTAATCTACCCCAAGGATAGACATAACCTCCGAAAGGAGACTAATGTCTAA >1111696 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAACCTTCGGGTTAGTGGCGGACGGGTGAGTAACGCGTGAGAATCTGCCCTCAGGAGGGGGACAACAGCTGGAAACGGCTGCTAATACCCCATATGCCGCGAGGTGAAAT >2273342 GATAAACGCTGGCGGCGTGCGTAAAACATGTAAGTCGAACGGGTGGAAGCCGCAAGGCTGAAGCCAGTGGCGGACGGCTGAGTAACGCGTAGGTGACTTGCCCGGAAGTGGGGAATAACGATTTGAAAGAATCGCTAATACCGCATACGG >2275320 AACAAACGCTGGCGGTATGCTTAACACATGCAAGTCGTACGAGAAAGGTGCTTTCGGGTGCTGAGTAAAGTGGCGGACGGGTGAGTAACGCGTGAGCAAGCTACCCTGGAGAGGAGGATAACATTCCGAAAGGGGTGCTAATACTCCATG >1124104 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCATACGGATACAGAAGTTAGAAGAGAGAGGTTATCTGACTTCCGACTTCTAACTTCTGTTATCAGTGGCGCACGGGTGAGTAACGCGTGGGAATCTACCCGGTAGTGGGGGATAA >818146 AACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGGATAGCTTGCTATCAGTGGCGCACGGGTGAGTAACACGTGGGAACCTACCTTTTAGTTTGGGATAACTTTGGGAAACTAAGGCTAATACCGGATACGCTTTGCAGCTTG >2341558 GGTGAATGCTAGCGGTGCGCCTAACACATGCAAGTCGAGCGAGAGTAGTAGCAATACTACAAAAGCGGCAGACGGGTGAGGAACACGTTGGTACCTCCCCTTTAGTCAGGGATAGCCAGCCGAAAGGCTGATTAATACCGGATAGTCTCT >733847 AACTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGTCACCACTTTGTAGCAATACAGATGAAGTGATAGCGGCAGACGGGTGAGTAACACGTAGGCAATCTACCCTTCCGTCCGGGATAACTAGCCGAAAGGTTAGCTAATAC >676966 GGCAAACGCTGGCGGCGTGCCTAAGACATGCAAGTCGGACGGGCGCCTTCGGGCGCCAGTGGCGGACGGCTGAGTAACACGTGGGTGACCTGCCCTCTGGTGGGGGATAACCCCTCGAAAGGGGGGCTAAGACCGCATACGGTCGCCGGT >1106671 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCATCATTACGGTTAGCAATAACCGTAGATGGCGACCGGCGCAAGGGTGCGTAACGCGTGAGCAACATGCCCGTATCAGGGGGATAACCCGGAGAAATCCGGACTAAAA >745583 GATAAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGAACGGTTTAAGTTCTTCGGGACTTAAATAGTGGCAAACGGGTGAGTAACACGTGGGAATCTGCCCAATAGTGGGGAACAACTCCTCGAAAGAGGAGCTAATACCGCATACGGT >2404302 GATGAACGCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGTAACGATTTCGAGCAATCGAAAGGCGACGACCGGCGCACGGGTGAGTAACACGTGGATTATCTACCTCTAACACAGGGATAGCTCGTCGAAAGGCGGATTAATACCTG >1142556 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGGAAAGGCCCCTTCGGGGGTACTCGAGCGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCCTAGTTTTGGGATAAGCCTGGGAAACTGGGTCTAATACCGGATAGGA >1108926 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAAAGTCTCCTTCGGGGGGCGAGTAAAGCGGCGAACGGGTGAGTAACACGTGAGTAATCTGCCCTCAGGACGGGGATAACATCCCGAAAGGGATGCTAATACCGGATA >150550 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCACTCNNNNNNNNNNNNNNNNNNNNNNNAGTGAGTGGCAGACGGGTGAGTAACGCGTGGGAATCTACCCAGTGGTACGGGATAACCCGAGGAAACTCGAGCTAATACCG >742320 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAATCTCCTGCTTGCAGGAGAGAGTAAAGTGGCGAACGGGTGAGTATCGCGTGGGTAATTTACCTCTGAATCCGGGATAACCCGCCGAAAGGCGTGCTAATACCGGA >2437270 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGTTCTCACCTAAAAACCTTCGGGGGCTTAGGTGAGGATAGCGGCGAACGGGTGAGTGACGCGTGAGAAACCTGCCTTTCACAAAGGGATAGCCTCGGGAAACTGGGATT >2462433 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGCCCGCTTCGGTGGGCGATTAAAGTGGCGAACGGGTGAGTAACATGTAGGTAATCTGCCCTCAAGACTAGGATAACATTTCGAAAGGGGTGCTAATACTGGATA >2463674 AATCAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGCGAAAGTCCTTCGGGATGAGTAGAGTGGCGTACGGGTGAGTAACGCGTGGGTGGTCTTCCTTCGGGTGGGGAATAACTCAGGGAAACTTGAGCTAATACCGCATAATAC >2479930 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTTGAACGAGATTTACTTTTGTAGCAATACTTAGGTAATGAAAGTGGCGCACGGGTGCGTAACACGTATGCAACCTACCCTTAACAGGGGAATAACAGAGAGAAATTTCTGCTAATA >806767 ATTGAACGCTGGCCGGTTCAGAGACGATTAACACATGCAAGTCGTACGGTAACAGAGGGAAGCTTGCTTCTCTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAGCTGCCTGCTTGAGGGGGATAGCGGAGCGAAAGTTCCGAT >1114050 GATGGACGCTAGCGGGAGGCTTAATACATGCAAGTCGGACGGTAACAGGTCTTCGGACGCTGACGAGTGGCGAACGGGTGCGTAACGCGTACACAACCTACCTTTTACTGGGGGATAGTTTTGGGAAACTGGGAGTAATACCCCATTCGT >749583 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCAACTTGACGGAAGGAGCAATCTGACCGTAGAGTGGCGCAAGGGTGCGTAACGCGTAAGTAACTTGCCCCAAGGTAAGGAATAACGTCGAGAAATCGGCACTAATACCTTATAAT >827864 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAAGCCGGTGCTTGCACCGGTGGAAAGTGGCGAACGGGTGAGTAACACGTGAGAAACCTACCCCGGAGACCGGGACAACCATTGGAAACGATGGCTAATACCGGATAT >625188 GATGAACGCTGGCGGTGCGCCTAACACATGCAAGTCTTAAGTTAATGTATTTATATGTTGGCTTGGCAAACGGGTGAGTAGTACTTTGGTAATCCAACCTCGACTCAAGTATAACCCAGAGAAATTTGGGACAATCCTTGATAGAATTGG >2529078 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGACCTAGCTTGATAGCAATATTGGGCGACGGTTAGTGGCGAACGGGTGAGTAACGCGTGAGCAACCTGCCTTTCAGAGGGGGATAACAGCTGGAAACAGTTGCTAATAC >2538454 AACGAACGCTGGCGGCGCGTCTTAGGCATGCAAGTCGAGCGGTAGGGTGGTGCTTGCACCACCTGAGAGCGGCGGACGGGTGAGTAACACGTAGGTGACCTATCCTCAGGTTGGGGATAGCCCGTGGAAACACGGGGTAATACCGGATGG >759363 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAATCTTTTTTTCGGAAAAGAGAGTAAAGTGGCGCACGGGTGAGTAACGCGTAGATAATCTACCCCTAGGTCGGGGATAACACTGCGAAAGCGGTGCTAATACCGGA >2541514 GACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAACGGGGTATAGCAATATACCCAGTGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCTATACAGGGGGACAACAGCTGGAAACGGCTGCTAATACCGCATAAGACCACAG >2542324 AATGAACGCTAGCGATATGCTTAACACATGCAAGTTGAACGTTGTTTTCGAATCAGAATGAGAACAAAGTAGCGAACGGGTGCGTAACACGTGGGAATCTGCCAAACAGTTTGGGCCAAATCCCGAATGAATAAAAGCTAAAAAGCGCTG >1108864 GACGAACGCTGGCGGCGGGCCTAACACATGCAAGCCGAGGGAGAACTTGGCTCTTCGGAGCCTTGGGAGACCGGCGCACGGGTGAGTAAGGCGCAGATAACCTGCCCATAGCAGGGGGATAACTCCGCGAAAGCGGGGCTAATACCGCAT >2581885 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGAAAGGGTGCTTCGGCACCTGAGTAGAGCGGCGAACGGGTGCGTAACACGTAAGTAATCTGCCTCAGACTCTGGGATAACATCTCGAAAGGGGTGCTAATACCAGATA >829433 AGCGAACGTTAGCGGCGCGCCTAACACATGCAAGTCGCACGAGAAAGGGGGCAACCCCCGGTACAGTGGCGCACGGGTGAGTAACACGTAGATGACCTTCCCTGGAGTGGTGGATAACCTGCCGAAAGGCGGGCTAATACAGCATGGGAC >780514 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCTACTTGAATACCCTGCTTGCAGGGAGCTAAGGTGGCGAACGGGTGAGTAACGCGTAGATAATCTGCCATTCAATCTAGGATAACCTCGTGAAAACGGGACTAATACTGGATATC >746138 ATTGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGGAAACGATGGGAGCTTGCTCCCAGGCGTCTAGCGGCGGACGGGTGAGTAACGCGTAGGAATCTACCCGGTAAAGGGGGATAGCCCGGGGAAACCCGGATTAATACCGCA >2672862 AATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGCGAAAGTGACTTCGGTCACGAGTAGAGCGGCGAACGGGTGAGTAACACGTGGATAATCTGCCCAGGTGTGGGGGACAACTCAGGGAAACTTGAGCTAATACCGCATACG >2679706 AGCGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGCCTGTAGCAATACAGGAGCGGCAGACGGGTGAGTAACGCGTGGGAACGTACCCTTTGGTTCGGAACAACACAGGGAAACTTGTGCTAATACCGGATAAGCCCTTACGGG >1148170 ATTGTACGATGGGGGCATGCCTTACACATGCAAGTCGAGCGGCAGCCCGGGGGCAACCCTGGCGGCGAGCGGCGCACGGGTGAGTAATGCATCGGAACGTGTCCTCTTGTGGGGGATAACCAGTCGAAAGACTGGCTAATACCGCATGAG >1146405 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAGGTCCATCCTGTCGCAAGACAGGTGAAGACCTAGCGGCGAACGGGTGAGTAACACGTGAGGAACCTGCCCCGAAGACCGGGATAACACCGGGAAACCGGTGCTAATAC >1147974 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGTGGGAGCAATCCCATGAGTAAAGTGGCGACCGGGTGAGTAACACGTGACCAATCTACCCTTGAGTGGGGGATAACTCCGGGAAACCGGAGCTAATACCGCATA >2685963 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAAGTGTTTAGGATGATCTATTCGTAGTGAATCCTAAACATCTTAGCGGCGGATGGGTGAGTAACGCGTGAGAAACCTGCCTTTCACAAAGGGATAGCCTCGGGAAACTG >2707164 AACGAACGCTGGCGGTGCGTTTTAAGCATGCAAGTCGAACGGCAAGGAAGCGAATTTTCGTTTCTCTAGAGTGGCGGACTGGTGAGTAACGCGTGGGTAATCTGCCTTTGAGATGGGGATAGCCTCTAGAAATAGGGGGTAATACCGAAT >2717581 GACTAACGCTGGCGGCGTGTCTTAGCCATGCAAGTCGAACGCCTCGTAGAGCTTGCTTTACGAGGAGTGGCGAACTGGTGAGTAATGCTTGGGTAATCTACTCTCATGAGGTGGATAATTTCGTGAAAACGAAACTAATACACCATATTG >2720387 AGCGAACGCTAGCGGCGGGCTTAACACATGCAAGTCGAGCGCTCGACTTCGGTCGGGAGCGGCGGACGGGTGAGTAACACGTAGGTTACCTGCCCTTTGGTGAGGGATAACCAAGGGAAACTTGGCTAATACCACATATGGTCTACGGAT >1110170 GATGAACGCTGGCGGCGCGCTTAATACATGCAAGTCGAGCGGGGAATCAACTTCGGTTGAGACCTAGCGGCGGACGGGTGAGTAACACGTACGGAACCTGCCTTTCAGTGGGGGACAACCCACGGAAACGAGGGCTAATCCCGCATATGG >822469 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCAAGGGGTCGTAGCAATACGGCACCGGCGAACGGGTGCGTAACGCGTACGCAACATACCTCTAAGAGGGGGATAGCTTCTGGAAACGGGAGGTAATACCCCATAGTATTATTTGG >1130714 AACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAACGCGAAAGGGGCTTCGGCCCTGAGTAGAGTGGCGCACGGGTGAGTAACACGTAGATAATCTACCTCCTGGCGGGGGATAATCGCTCGAAAGGGCGTCTAATACCGCATACG >2775219 AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGCATCAGGGGCAACTCTGGTGAGCGGCGCACGGGTGAGTAACACGTGAGTAATCTGCCTTGATGTCAGGGATAACCGTCCGAAAGGATGGCTAATACCTGATAAGACCAC >369386 GACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGAGCAAAGCAATTTGTGTAGTGGCGAACGGGTGCGTAACGCGTAAGAACCTACCTATCGGAGGGGGATAACATTGGGAAACTGTTGCTAATACCCCATACAGCTGAGGAG >786223 AACGAACGCTGGCGATGTGTTTTAAGCATGCAAGTCGAACGGTTCGCGGGCTTGCTCGCGAATAGTGGCGGACGGGTGAGTAACGCGTAAATAATCTGCCTTAAAGATGGGGATAGCCTTTGGAAACAGAGGGTAATACCGAATAATGTT >2818167 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGTGAAAGGGAGGTTCGCCTCCCGAGTAAAGTGGCGCACGGGTGAGTAACGCGTGGGTAACCTACCTCCGGGCGGGGGATAACCATCCGAAAGGGTGGCTAATACCGCATG >701453 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGTAATTAAAGTAGCTTGCTACATTAATTACTTAGTGGCGGACGGGTGAGTAACGCGTGGATAACCTACCTTACACAGGGGGATAACAACGAGAAATCGTTGCTAATA >810525 AGTGAACGCTGGCGGCGTGCCTAAGGCATGCAAGTTGTACGAGAAAGTCCGCAAGGATGTGTAAAGTAGCGCACGGGTGAGTAATAATTAGATAACGTGCCCTTTCGCTGGGGATAACTAGGGGAAACTTTAGCTAATACCGAATACCTC >2855860 GACGAACTTTGGCGGCGCGCTTAACACATGCAAGTCGAACGGAGTTGCATCTTAACCCTCTTCGGAGGGGGCGGGTGCATACTTAGTGGCGGATGGGTGAGTAACGCGTGAGCAACCTGCCTTTCAGAGGGGGATAACACAATGAAAATT >822929 GATGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGAAGTCTTCGGACTTAGTGGCGGACGGGTGAGTAACGCGTAAGAATCTACCTACAGACTCGGGACAACAGTTAGAAATGACTGCTAATACCGGATATGCCTTCGGGTGAA >2910382 AACAAACGCTGGCGGCGTGCTTCATACATGCAAGTCGAACGAGAAAGCACCTTCGGGTGTGAGTAGAGTGGCGCACGGGTGAGTAACGCGTAGTCAATCTGCCTTTCGGTTCGGGATAACACCTCGAAAGGGGTGCTAATACCGGATGAG >1112175 GACGAACGCTAGCGGCGTGCCTAACACATGCAAGTCGTACGAGCATTAGCAATAATGTTAGTGGCGAACGGGTGCGTAACACGTGGGAAATCTGCCTGGGAGTGGGGAATAAACGCTCGAAAGGGCGTCTAATACCGCATAATGCAGCGG >2916964 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGATTAAAGCCCCTTCGGGGGTGTATAAAGCGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCCATACTCTGGAATAGCCTCGTGAAAACGGGATTAATGCCGGATAT >1106540 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGTATCAGCAATGGTACAGTGGCGCACGGGTGAGTAACACGTAGCTGACCTGCCCTTCAGTGCGGGATAACGGTTCGAAAGGACTGCTAATACCGCATAAGCTCACGGAC >722695 GACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGTACGAGATTGAATTTTGTATGTAAATACAGAATTCAATTCTAGTGGCGGACGGGTGCGTAACGCGTAAGAACTTACCTTTTGGTGTGGGATAACAGCTGGAAACGGCTGCTAA >638942 AGCGAACGTTAGCGGCGCGCCTAACACATGCAAGTCGCACGAGAAGGGGGCAACCCCTGAAAGTGGCGCACGGGTGCGTAACACGTAGATAATCTGCCCTTCGGCGGGGGATAACGTTCCGAAAGGAGCGCTAATACCGCATACAGCGTT >2941516 GATGAACGCTAGCGATAGGCCTAACACATGCAAGTCGAGGGGTAACAGGGTAGCAATACCGCTGACGACCGGCAAATGGGTGAGTAACGCGTATGCAACCTACCGATAACAGTTGGATAGCTCCCTGAAAGGGGAATTAAACCGGCATGA >2969785 ATTGAACGCTGGTGGCATGCTTAACACATGCAAGTCGAACGGCAGCATGACTCTGCTTGCAGAGTTGATGGCGAGTGGCGGACGGGTGAGTAACACGTGGGAATCTACCTATCAGACTGGGACAACCTGAGGAAACTTGGGCTAATACCG >2977445 AACGAACTCTTGCGGCGCGTTTTAAGCATGCAAGTCGAACGGCAAGAGGTATTTATACCTCCTAGAGTGGCGAACGGGTGAGTAACACGTGGATAATCTACCCCCTTGTCTGGGATAGTCTATGGAAACATGGGGTAATACCGGATATGA >1093740 GACAAACGCTGGCGGCGTACCTAAGACATGCAAGTCGAACGGATCATATGGTTTCGGCCGTATGGTGAGTGGCGGACGGGTGAGTAACGCGTAGGAACCTGTCATCAAGTGGGGGATAACGCTGGGAAACCGGCGCTAATACCGCATGAG >677834 GGTGAACGCTCGAGGTGTAGATAAGGCATGCAAGTCGAACGGGTTTACATCCGTAAGGATATAAACTACGTGGCAAACGGGACAGTAATACACATCTAACTCACCCTGAAGTTGGGGATAACCTCCGAAAGGAGACTAATCCCCAATGGT >670696 GGTGAACGCTCGCAGTGTGGATAAGGCATGCAAGTCGTACGTTCCATAATAGATTTTTTCTATTATGGAAAGTGGCGAACGGGGCAGTAATACGTACCTAACTTACCCTTCAGTCGGGCATAGCTTGTCGAAAGACAAGGTAATTCCCGA >833694 ATTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGTAACGACAGAAACAATCCTTCGGGTGCGTTTCTGGGCGACGAGTGGCGAACGGGTGAGTAACACTTAGGAATCTACCCAGTAGTGGGGGATAGCCCGGGGAAACCCGG >829035 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGTGGAGTTGTTCCTTCGGGGGCAGCTTAGCGGCGAACGGGTGAGTAACACGTAGGCAACCTGCCCGCAAGTCCGGGATAACCCACGGAAACGTGAGCTAATACCGGATAATC >807851 GGTTAACGCTGGCGGCGTGCCTTACACATGCAAGTCGAACGGGGCTATCAGCGATGGTAGCTTAGTGGCGAACGGGTGAGGAAGACGCAGGGACCCACCGACCAGAGGGGGATACCCGCTGGAAACGGCGGATAAAACCGCATACGCCCG >1147645 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGTTCCCCGTAAGGGGGACGAGTAAAGTGGCAGACGGGTGAGTAACACGTGAACAATCTACCCTCGAGTGGGGAATAACCCCGCGAAAGCGGGGCTAATACCGCA >3058155 GACGAACGCTGGCGGCGCGTCTAAGACATGCTAGTCGAACGATAAAGTTCCCTTCGGGAATTATTAAAGTGGCGAACCGGTGAGTAACACGTATCTAACGTACCCTTCTTGTCTGGGATAGCAAGCCGAAAGGCCTGGTAATACCAGATA >3059360 ATTGAACGCTGGCGGCATGCGTAACACATGCAAGTCGGACGGTGGTTAGTGCTTGCACTAACTACAGTGGCGGACGGGTGAGTAAAGCGTAGGAATCTATATTAGAGAGGGGGATAACCGAGGGAAACCTTGGCTAATACCGCATAGATT >805416 AACGAACGCTGGCGGCGTGCCTCATACATGCAAGTCGAACGAGAAAGCCCGGCTTCGGTTGGGTTAGTAAAGTGGCGCACGGGTGCGTAACACGTGAGGAACATGCCCCTATATCGGGGATAAGCCTGCGAAAGCGGGTCTAATACCGGA >1129202 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGGTTGCTTGGAAGATGATTTCGGTCTGAAACTGAGTTAACCTAGCGGCGGACGGGTGAGTAACACGTGGGCGACCTGCCCTGAAGACTGGGATAACAACCCGAAAGGG >1115911 AGTGAACGCTGGCGGCGTGCCCAACACATGCAAGTCGAACGGACTCTTAAGGGCTTGCTCTTAAGAGTTAGTGGCGCACGGGTGAGTAACACGTAGTTAACCTACCCCTGGGTGGGGGATAACAGTTGGAAACGACTGCTAATACCCCAT >836204 GATGAACGCTAGCGGCATGCCTAACACATGCAAGTCGTACGAAATTATTTTAGTGGCGGACGGGTGAGTAACGCGTGAGAATCTACCTTTAGGAAAGGAATATACATAATTAAATCCTTATACGCTTTACAGTGAAAAAAGAAATTTGCC >1105985 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGTGCGAACCAGCCCGCGGATTGTTTAGTGCTTGCATTAAACAAGAAGTGGAAATCTGGTTAGCGGCGAACGGGTGAGTAATACGTAGGTAACCTGCCCCAGAGACTGGGATAAC >1105185 GATAAACGCTAGCGGCAGGCCTAACACATGCAAGTCGGGGGAAAGAGTAGCAATACTTGAGACCGGCGCACGGGTGCGTAACGCGTATGAAACTTACCATATACAGGGGGATAGCTCTCGGAAACGGGAATTAATACCCCATTAAGTATT >749636 GATTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCCCTGCACCCTGCCCTCGATACTCATTAGAGCAATCGAGGCCAGCGTGCAGGGAGTGGCGGACGGCTGAGTAACACGTTGGTACCTACCCTACACACGGGGATAAGCCT >3133367 GACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGAAGTAGCAATACTTTAGTGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCTCATACACTGGGATAACAGTTGGAAACGACTGCTAATACCGGATAAGACCACACTG >1125988 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGTGAAGCCACCTTCGGGTGGTGGAAAGTGGCGAACGGGTGCGTAACACGTAGGTGACCTGCCCCGAAGTGGGGGATAACCTCCCGAAAGGGAGGCTAATACCGCATAGGG >670970 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGTGGGTTTAGACCCACGGCGAACGGGTGAGTAACACGTAGGTATCTGCCTGATAGTGGGGCATACCCAGCCGAAAGGTTGGATAATTCCCCATATGGTCACAACGCAAGTTG >3145540 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGAGGGGCAGCACGGGTAGCAATACCTGGTGGCGACCGGCGCACGGGTGCGTAACGCGTATGGAACCTACCCACCGCAGGGGGATAGCCCACCGAAAGGTGGATTAATACCCCAT >1130034 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGCAGCACGGGCGCAAGCCTGGTGGCGAGTGGCGAACGGGTGAGTAACGCGTCGGAACGAAACACACAGAGGGGGATAACGCCGCGAAAGCGGTGCTAATACCGCATATA >3203182 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCAAACGGGTGTAGCAATACATCAGTGGCGCACGGGTGCGTAACGCGTACACAACATACCTTATACAGGGGGATAACTTTTCGAAAGAGAAGCTAATACCGCATAACATTATTAGA >1142745 AATGAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAACGAGAAATCTCGAGCTTGCTCGGGAGAGTAAAGTGGCGCACGGGTGAGTAACGCGTGGGTAACCTGTCCTTAAATTTGGGATAATCCACCGAAAGGTGGCCTAATACCAAA >1140127 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAAGGAGAACGGGAATCTTAGGAATCCTTAGTAAACTGGCGCAAGGGTGAGTAACGCGTAGGTAACCTGCCCTGGAGTGGGGAATAACATCGGGAAACCGATGATAATACCGCAT >3223797 AATGAACGCTAGCGATACGCTTAACACATGCAAGTTGAATGGGGTATTCATATTGAGTATTCCATAGCGAACGGGTGAGTAATACACAAGAACTTGCCTAACAGTCTGGGATAAGTATAGTAACACTTTAGTGTTACGAATTAAGATAGT >812800 GACTAACGCTGGCGGCATGCCTTACACATGCAAGTCGAACGGGGTTTTGGGGCTTGCTCCAAAACCTAGTGGCGAACGGGTGCGTAACACGTAGACAACCTGCCCTCTGGTCTGGGATAACAGTCCGAAAGGACTGCTAATACCGGATAC >609168 GGCGAACGCTGGCGGCGTGCCTTAGACATGCAAGTCGAGCGGTAGGCGCTCCTTCGGGAGCGCCGAGAGCGGCGCACGGCGGAGTAACACGTGGGTAACCTGCCCCGAAGACTGGGATAACCCGGGGAAACTCGGGCTAATACCGGATGT >1136265 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGTCTGTGGGGGAGGGTACTTTCCTGCGGACTTAGTGGCGGACGGGTGAGTAACACGTGGATAACCTACCTGTAAGACCGGGATAACAGCGGGAAACTGCTGCTAATA >1105862 GGTGAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGGACGGGAGCACGCGTGAGCGTGCCGACCGTGGCGGACGGGTGCGTAACACGTGGGGAACCTGTCCTCGCGAGGGGGATAACCCGGGGAAACTCGGGCTAATACCCCATACGCT >810586 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCTACGAGAAAAGAGTAGCAATATTCTGAGTAAAGTGGCGCAAGGGTGCGTAACTCGTAAGCAATCTACCTTTAGAAGGGGAATAACCCAGCGAAAGCCGGACTAATACCCCATAA >3322007 GATTAACGCTGGCGGTGTGCCTTATACATGCAAGTCGAGCGTGCCCGCAAGGGTATCGCGGCAAACGGGTGAGTAACAAATAGGGAATCTGCCCTCAAGTTCGGGATAACCAGTCGAAAGATTGAACAATACCGGATAATGTTGCGAAGG >3336801 AACGAACGCTGGTGGCGTGCTTCATACATGCAAGTCGAGCGAGGACAGCAGCTTGCTGCTGAGCCGAGCGGCGCACGGGTGAGTATCGCGTGAGTAACCTGCCCTTAAGTCGGGAATAACCCCCCTAACGGGGGACTAATACCGGATATT >819753 GATGAACGTTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGATAGCAATATCTGAGTGGCGCACGGGTGAGTAACACGTAGCTTACCTACCTCAAAGCGCGGGATAACGTTCCGAAAGGAATGCTAATACCGCATAAGCTCCCGAGC >3355011 GACGAACGCTGGCGGCGTGCTTAACCCATGCGAGTCGAACGGAGGTTACCAGGAATCTTGCGAATTGTAACCTTAGTGGCGGACGGGTGAGTAACGCGTGGATAACCTGCCTGACAGACCGGGACAACACCGGGAAACTGGTGCTAATAC >816425 AGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAAAGGGAGCAATCCTGAGTAAAGTGGCGTACGGGTGAGTAACGCGTAGGTAATCTACCCTAGAGTCTGGAATAACCTGCCGAAAGGCGGGCTAATACTGGATAGAGC >3390949 GGTGAACGCTGGCGGCGTGGATAAGGCATGCAAGTCGAACGGTCCCGCAAAGCTCGCAAGAGCGACGTGGGATAGTGGCAAACGAGTTAGTAACACGTAGGTAACTACCCATTACTCGGGCATAACTAGCCGAAAGGTTAGCTAATTCCC >1142103 AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGCCGTAGCAATACGGAGTGGCAGACGGGTGAGTAACGCGTGGGAACCTTCCCAATGGTACGGAATAGCCCAGGGAAACTTGGAGTAATACCGTATACGCCCGTAAGGGGA >3420280 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCACGGGTAGCAATACCTGGTGGCGACCGGCGCACGGGTGCGTAACGCGTATGGAACCTACCCACCGCAGGGGGATAGCCCACCGAAAGGTGGATTAATACCCCAT >1147432 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAACGGTAAGTAGTGTAGCAATACATTACCAAGAGTGACGTACGGGTGCGTAACACGTATGCAACCTACCTTGTACTGGAGGATAGCTCGGGGAAACTCGAATTAACCCTCCAT >3431067 ATTGAACGCTGGCGGAATGCTTTACACATGCAAGTCGAACGGCAGCACGGGAGCTTGCTCCTGGTGGCGAGTGGCGAACGGGTGAGTAATATATCGGAACATGTCCAATAATGGGGGATAACTATCCGAAAGGATAGCTAATACCGCATA >1147428 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTGCGCGAACGGGGCTTCGGCTCCTAGTAGAGCGGCGAACGGGTGAGTAACACGTGGGTAACCTGCCTGGGAGTGGGGAATAACCTGGGGAAACTCGGGCTAATACCGCATACG >139347 ATTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTACGAGAACGCTTCAGCTTGCTGAAGCTAGTAAAGTGGCGCACGGGTGAGTAACGCGTAGGTAATTTGCCTCCAAGCCCGGAATAACACCGCGAAAGTGGTGCTAATACCGGA >1110528 GACGAACGCTGGCGGCGTGCTTAACACATGTAAGTCGAACGAGAAATCCGCCTTCGGGCGGATGGACAGTGGCGAACGGGTGAGTAACACATAGGTAATCTGCCCTCGAGTGGGGGATAATTCCGGGAAGCCGGTTGTAATACCGCATAA >1112478 AGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAACGCTCCCTTCGGGGAGCAAGTAGCGTGGCAAACGGGTGAGTGACACGTGGGCAACCTACCCCAAGGCGGGGAATAACCCCGAGAAATCGGGGGCAATACCGCATA >3494920 GATGAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACGGGGATCTGTTTACAGATCTGCCGACGAGTGGCGGATGGGTGAGTATCGCGTATGTAATCTTCATTATGCTAAGGGATAGCCAGGGGAGACCCTGATTAATACC >3533825 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGGATGTAGCAATACATTAGTGGCGCACGGGTGAGTAACGCGTGGGAACGTACCCTTAGATACGGGACAACCTCGGGAAACTGAGGCTAATACCGTATAATGTCTTCGGAC >709355 AACGAACGCTGGCGGCGCGTCTTAAACATGCAAGTCGTACGGGAACCCTGGTGCTTGCATTGGGGGGAGAGTGGCGAACGGGTGAGTAACACGTGGATAATCTGCCTCTGGGTTTGGGATAACTACTCGAAAGGGTAGCTAATACCGGAT >3553390 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGGGGAAAATCACTTTCGGGTGATGAGTATACTGGCGGACGGGTGAGTAACGCGTAGGTGACCTATCCTTATGTTTGGGATAACCTTGCGAAAGCGGGGCTAATACCGGATGT >3559874 GATGACCTTTAGCGACAGGCTTAACACATGCAAGCCGTGGGGCAGCGGGGGTAGCAATACCTGCCGGCGACCGGCGTACGGTTGAGTAACGCGTGCGCAACCTACCCTTTACCGGGAGATAACCCATGGAAACGTGGATTAATATCCCAT >1112570 GACGAACGTTGGCCGGCGTGTCTAAGGCATGCAAGTCGAACGAGATCGCTTTCTTCGGCAAGCATTATATCTAGTGGCAGACGGCTGAGTAACGCGTAAGTAACTTACCCTAGAGTGGGGAATAACACAGAGAAATCTGTGCTAATACCG >841337 AACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGATCTTAGCTCTTCGGGGCGAAAGAGAGTGGCAGACGGGTGAGGAACGCGTGGGAACATACCTTGAAGTGGGGAACAACCATTGGAAACGATGGCTAATACCGCATAATC >1106779 GATGAACGTTGGCGGCGTGCCTGAGATATGCAAGTCGAGCGTCTCAATTGACCCCGCAAGGGGTTGATTGGGTAGCGGCGGACGGCTGAGTAACACGTAGGTACCTGCCCCTATCTCAACCATAGCCTAGCGAAAGCTGGGGTAATAGTT >3601578 GATGAACGCTGGCGGCATGCTTAATACATGCAAGTTGAACGAGAATAGTAAAAGCTTGCTTTTACTAGGACAGTAGCGAACGGGTGAGTAATACGTAAGAATCTGCCCTTTGGAGGAGGAAAACGGTTGGAAACGACCGCTAATCCTGCA >3612083 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGACGATACTTATTCAGCAATGGGTAAGTAGAGTGGCGCACGGGTGCGTAATGCGCAGGTAATCTACCTTACAGACGGAAATAACACTTCCAACGAGGTGCTAATGTCCGATGTT >729816 AACGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAACGCACCTTCGGGTGAGTGGCAGACGGGTGAGTAACGCGTGGGAACCTTCCCTATGGTACGGAATAGCTCCGGGAAACTGGAATTAATACCGTATAAGCCCTTCGGGGGAAA >3685328 AACGAACGCTGGCGGTATGCTTAACACATGCAAGTCGAACGAGAAAGTTTCTTCGGAAACGAGTAAAGTGGCGGACGGGTGAATAATGCATAGGAATCTGCCCAATAGTGAGGGACAAGCACTGGAAACGGTGTCTAATACCACATAATA >3692061 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAATGAAGTTCCTTCGGGAACGGATTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTCATAGAGGGGAATAGCCTTCCGAAAGGGAGATTAATACCGCATAA >850935 GATGAACGCTAGCGGCGGGCCTAATACATGCAAGTCGAGGGGCATCGCGGGTAGCAATACTTGGCGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACCTGCCCTTAACACGGGGATAGCCCTCCGAAAGGAGGATTAATACCCGAT >805194 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGGGATCTACGGGTAGCTTGCTATCTGTGGTGAGAGTGGCGCACGGGTGCGTAACGCGTGAGCAACCTGCCCGTCCCAGGGGGATAGCCCCTCGAAAGAGGGATTAACACC >3721617 GACGAACGCTGGCGGCATGCCTAATACATGCAAGTTGAACGATGACGTCATCTGCTTGCAGATGACTGATTAGTAGCGAACGGGTGAGTAACACGTGGGAAATCTACCCATGAGTGGGGAATAACATTCGGAAACGAATGCTAATACCGC >785554 AACGAACGCTGGCGGCGTGGATTAGGCATGCAAGTCGAGCGAGAAAGTCCCCTTCGGGGGGCGAGTAAAGCGGCGACCTGGTGAGTAACGAGTGGGCAACGTTCCCTGGAGTGGGGAATAATCCGTCGAAAGGCGGACTAATACCGCATG >1105901 GACAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTCTTTCTTCGGAAAGATAGTGGCGGACGGGTGAGTAACACGTAGTTGACCTGCCCCCTTGTGGGGAATAACTCCTCGAAAGAGGAGCTAATACCGCATAAGTTCTTCT >3734843 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGATACTTTTGAAGCTTGCGAAGGAGTATCTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAATCTGCCCATAAGCGGGGAACAACAGTTGGAAACGACTGCTAATAC >3749801 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGCGAAAAGGGGAAACCCTGAGTAGAGTGGCGTCCGGGTGAGTAACACGTAGATAATCTACCTACGAGTGGGGAATAACTTTCCGAAAGGGAAGCTAATACCGCATAAAGT >822483 GACGAACGCTGGCGGCGTGCCTAAGACATGCAAGTCGAACGAACTGCTTTTTTATAGCAATATAGGAAAGCAGTTAGTGGCGGACGGGTGAGTAACACGTGGGTAATCTACCTTCGAGTGGGGAACAACCCTGCTAACGCGGGGCTAATA >1124080 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGTGGGGCATCATGATGTAGTAATACATTGATGGCGACCGGCGCACGGGTGAGTAACGCGTATCCAACCTACCCTCCACTCAAGTATAGGCTTCCGAAAGGGAGATTAATCCTTG >810495 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGGACGAGAAACTCCGCCGCAAGGCGGGGCGGTACAGTGGCGAACGGGTGAGTAACACGTGGGTAACCTGCCCTTCAGAGGTGGATAATTCGCCGAAAGGCGGACTAATACACCG >3842051 GATGAACGCTAGCGGGAGGCTTAATACATGCAAGTCGAACGGCAGCAGGCACTTCGGTGTGCTGGCGAGTGGCGTACGGGTGAGTAACGCGTACACAATTTGCCTTTAACTGGGGGAAAGTCACTGGAAACGGTGAATAATCCCGCATAA >780193 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGAGCGGTAAGTTGTAGCTTGCTACAACCTAGAGCGGCGGACTGGTGAGTAACGCGTGGGTGACGTACCTTCGTGATGGGGACAGCTCCTAGAAATAGGAGATAATACCGAATAC >820775 GGCGAACCCTGGCGGCGCGCCTCACCCATGCAAGCCGAGCGACACAGGTCGGGCAACCGGCCTGTGGAGCGGCGAACGGCCGAGTAATACACAGGTAACCTACCCTCAGGAAGGGGATAACCTGGGGAAACCCAGGCTAATACCCTATAA >689754 GATGAACGCTGGCGGCGTGGATAAGGCATGCAAGTCGAACGACTCACTTCGGTGAGGAGTGGCGAATGGGTTAGTAACACGTAGATAATTTGCCTTGAAGACAGGGATAACTCCGCGAAAGCGGAGCTAATACCTGATAGTAATGAAATG >722791 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGTGCCTTCGGGCACAGTGGCGAACGGGTGCGTAACACGTGGAGGACCTGCCCTGGAGACGGGGATAACCACTGGAAACGGTGGCTAATACCCGATGACCTCGCGAGAGG >1125422 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGGGGCTTCGGCCCTGAGTAAAGTGGCGCACGGGTGAGTAACACGTGGGTAACCTGCCTCTAAGATTGGGATAACCTGTCGAAAGACGGGCTAATACCAAATGAG >672701 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAATGTCCCTTCGGGGGCGAGTACAGTGGCGGACGGGTGAGTAACGCGTGGGTAATCTACCTTCCAGTGGGGGACAACCTGCCGAAAGGCGGGCTAATACCCCATAAC >3909532 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTACGAGAAAATCCGCTTCGGCGGGTGAGTAAAGTGGCGCACGGGTGAGTAACGCGTGGATAATCTGCCTTTAAGCGGGGAATAACTTACCGAAAGGTGGGCTAATACCCCATA >3916519 GATGAACATTGGCGGCATGCTTAACACATGCAAGTCGCACGCGACCTTCGGGTCGAGTGGCGAACGGGTGCGTAACACGTAGGTAACCTGCCCTCGAGTGGGGAATAACCGCGAGAAATCGCGGCTAATACCGCATGGTCTTGGAAGAGT >3920492 AACGAACGCTGGCGGCAGGCCTGAAGCATGCAAGTCGAACGGATGTAGCAATACATCAGTGGCGCACGGGTGAGTAATACATGGGAATCTACCTAGAAGTGGGGAATAACTGGGGGAAACTTCAGCTAATACCGCATACGCCCTCCGGGG >818994 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAAGAGGCCTCTTCGGAGGTACTTCAGTGGCGGACGGGTGAGTAACACGTAGGTGACCTACCCCGAAGTGGGGAATAACAGTCCGAAAGGATTGCTAATACCCCATGTGA >3954474 GATGAACGCTAGCGATAGGCCTAACACATGCAAGTCGAGGGGCAGCGATGGTAGCAATACCAGTCGGCGACCGGCGGATGGGTGAGTAACACGTATGCAACCTGCCTCCAACATTGGAATAACCCGTTGAAAGACGGACTAATGCCTTAT >836371 AAGAACGCTGGCGGCGGGCCTAACACATGCAAGTCGCACGAGAACGTCCCAGCTTGCTGGGGCTAGTAAAGTGGCGCACGGGTGAGTAACACGTGAATAATCCACCTACGGGTTTGGGATAACGCACCGAAAGGTGTGCTAATACCGGAT >4014251 ATTGAACACTGGCGGCACGCTTAACACATGCAAGTCGAGCGGCAGCATCTCTCTAGAATAACTAGCTTGCTAGTTAGGAAGGAGAAGGATGGCGAGCGGCGGACGGGTGAGTAATGCGTAGGAATTTGCCTTTAGGTGGGGGACAACTCG >738462 GACAAACGCTGGCGGCGTGCCTAAGACATGCAAGTCGAACGGGGGCCTTCGGGCTCGAGTGGCGGACGGGTGAGGAACGCGTGACTGACCTACCCTTGAGTGGGGGATAACAGCCAGAAATGGGTGCTAAGACCGCATACGACGGTATCG >4024554 GACGAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAACGCTGGGTGAGGCTTCGGCCTCATCCGGAGTGGCGGACGGGTGCGTAACACGTGAGCGACCTGCCGTTGTGTGGGGGATAACCGGGGGAAACCCCGGCTAATACCGCATGG >1139850 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGCGTTGAAAACAACATGATCCCTTCGGGGTGATTGTTGTGGATCGAGCGGCGGACGGGTGAGTAACACGTGGGTAACCTACCTGAGAGATCGGGATAACCCCGGGAAACC >4044215 GATGAACGCTGGCGGTATGCTTAACACATGCAAGGCAAGCGAGCGAAACTGTACTTGTACAGTCTAGCCAGCGCCGGACGGGTGAGTAACACGTAAGAACCTACCTTTAGGAGGAGGATAACAACTGGAAACGGTTGCTAATACTCCATA >4044597 AACGAACGTTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGATTGTGGCTTCGGTCACAGTTAGCGGCGCACGGGTGAGTAACACGTGAGTTACCTGCCCTTGAGACTGGGACAACTCTTCGAAAGGGGAGCTAATACTGGATACGTCG >763875 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAACCCATTCTTCGGATTGGGGGACAGTGGCGGACGGGTGAGTAACACGTTGGTGACCTGCCCCGAAGTGGGGGATAATCCTGCGAAAGCGGGACTAATACCGCATGC >4064689 GATGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAGCGAGCAGTCACTGTCCTTCGGGGTGGTGGCGGGCGAGCGGCGAACGGGTGAGTAACACGTGGGTAACCTGCCCCAGAGACGGGGATAACCACTGGAAACGGTGGCTAATAC >733426 AACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAACGCGAAAGGGGGCAACCCTGAGTAAAGTGGCGCACGGGTGAGTAATACCTAGGTAATCTACCTTATTGACCGGAATAACCAGTCGAAAGATTGGCTAATACTGGATAGAGC >1107877 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAACTGTTTTCGGACAGTTAGTGGCGAACGGGTGAGTAACACGTAGATAACCAACCCTTTAGACGAGGATAACCCGGGGAAACCTGGACTAATACTGGATAGGAGCTATT >1127577 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAACGGTCCTTCGGGATGTCAGCTAAGTGGCGGACGGGTGAGTAATGTATAGTTAATCTGCCCTTTAGAGGGGGATAACGATGAGACTATATGGTATCAGGTAGTTGG >1114572 GATGAACGCTGGCGGCGTGCCTTATACATGCAAGTCGAGCGGAAACACTTCGGGTGTCGAGCGGCGGACGGGTGAGTAACGCGTAGATATACACCCCAAAGTGAGGGATAACCATCTGAAAAGATGGCTAATACCGCATGTGGTCTTCGG >1129750 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGGTAGCAATACCTAGTGGCGGACGGGTGAGTAACACGTAGGTAACCTGCCTCATAGTGGGGGATACCCAGCCGAAAGGTTGGCTAATACCGCATAAGCTCTGCAGTTG >1113461 GGTGAACGCTGGCGGCGTGGATAAGGCATGCAAGTCGTGCGGGAAGATATTTCTGGTTTTACCAGAAATATCTTTCAGCGGCGAACGGGGCAGTAACACGTACCTAACGTACCCCGTGCACAGGGATAACCTTCCGAAAGGAAGGCTAAT >835619 AACAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGACTCCGCTACGTTTCATTAGCGGAGAGTGGCATACGGGTGAGTAACGCGTGGATAATCTGCCTCCGGGACCGGGATAACTTTGCGAAAGCGGGGCTAATACCGGATAAG >4172205 AGTGAACGCTGGCGGCATGCTTAAGACATGCAAGTCGAACGAAGGTAGCAATACCTTAGTGGCAAACGGGTGAGTAAAGGATGGGAATCTACCTTACAGTGGGGAACAACAGTTGGAAACGACTGCTAATACCGCATATTACCATTTATG >661785 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGAAACGAGTTAACAGACCCTTCGGGTAACGTTAACGGCGTCGAGCGGCGGACGGGTGAGTAATGCCTAGGAAATTGCCCTGATGTGGGGGATAACCATTGGAAACCGCA >833480 GATGAACGTTGGCGGCGTGTCTGAAGCATGCAAGTCGAACGGGTATGCCTTTGAACCTTCGGGGGATAAGGAATTACATACTAGTGGCAAACGGGTGAGTAACACTTTGGTAATCTGCCCTAAAGCGGGGAATAAGCCGGAGAAATCCGG >4215053 GACGAACGCTGGCGGCGTGCCTAAAATATGCAAGTCGAATGTCGATTTATCGGCATGGCGAACGGGTGAGTAACGCGTAGGAATCTACCTTAGAGTCTCGGATAACCCCTCGAAAGGGGGAATAATACGAGATGGTCCCCGCACCATACG >833898 ATTGAACGCTGGTGGTATGCTTAACACATGCAAGTCGGACGAAGTTTAAAGTAACTTGTTACTTAAAACTTAGTGGCGGACGGGTGAGTAACACGTAGGAATCTGCCTTATAGAATGGGATAACAGTTAGAAATAGCTGCTAATACCATA >834924 GATGAACGCTAGCGGGAGGCTTAACACATGCAAGTCGAGGGGCAGCATTTCTAGCTTGCTAGAAGATGGCGACCGGCGGACGGGTGCGTAACGCGTATGCAACTTGCCTATAACTTAGGGATAACTTGGAGAAATCCTTGCTAATATCTA >4229175 GACGAACGCTTGCGGCGTGCCTAACACATGCAAGTCGAACGGACAAAAGAGCTTCGGTTTTTTTGTTAGTGGCGGACGGGCGAGTAACGCGTGAGTAACCTGCCCATCAGTGGGGAATAACGACTGGAAACGGTCGCTAATACCGCATAA >1113453 GATGAACGCTAGCGGCGTGCCTGAGATATGCAAGTCGAGCGAAGTTCCGACCGCAAGGTTGGAATTCAGCGGCGGACGGCTGAGTAACGCGTAGGTATCTGCCCCTTTCTGGAGGATAGCCCGGAGAAATCCGTGATAATACTCCATAGT >1148064 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGGGCACTTCGGGGCAACTCGAGGTGACCGGCGAACGGGTGCGTAACACGTGAGCGACCTGCCCTGGTGTGGGGGATAGCCGGCCCAACGGCCGGGTAACACCGCATACGCTT >1146677 AACGAACGTTGGCGGCGTGGATTAGGCATGCAAGTCGAACGCGAACGTCGGGCTTCGGCCTGACTAGTAGAGTGGCGAACGGGTGAGTAACGCGTGGGTAATCTACCCTCGAGTGGGGAATAACCATTCCAACGAGTGGCTAATTCCGCA >614253 AATCAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAACGAGAAAGGGTTCTTCGGAACCTGAGTAAAGTGGCGGACGGGTGAGTAACACGTGGGTTACCTGCCCTTGAGTGGGGAATAACTCCGGGAAACTGGAGCTAATACCGCATA >1111648 GATTAACGCTGGCGGCGTGCCTGACACATGCAAGTCGAACGAGGCCGCAAGGCCTAGTGGCGGACGGGTGAGTAACACGTGACCAACCAACCCCGAAGTTGGGAATAGCTCTGCGAAAGTAGAGGTAATACCGAATGTGGTCCAGGGCGG >1120398 GACGAACACTGGTGGCGTGCCTAACACATGCAAGTCAGGGGGAAAGGATGCTTCGGCATCCCTGTATACCGGCGAACGGGTGAGTAACGCGTGAGTAACCTATCCTTAAGGCAGGGATAACTGGCCGAAAGGTTGGCTAATACCTGGTAC >1119197 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGAGGGTCAGACCCTCGGCAGACGGGTGAGTAATAACGAGGAACTTCCCTCCAAGTGGGGCATACCTCCGAGAAATCGGAGATAATTCCCCATAATACCGCAAGGTTAAAGAT >4289859 GATGAACGCTAGCGACAGGCCTAACACATGCAAGTCGAGGGGTAACAGGGGCTTCGGCCCGCTGACGACCGGCGCACGGGTGAGTAACGCGTATGCAACCTGCCTGTAACAGCGGGATAGCTCCCTGAAAGGGGAATTAACACCGCATAA >1106599 AGCGAACGCTAGCGGCAGACTTAACACATGCAAGTCGAGCGAGAAACCACTTCGGTGGCGGACAGCGGCGAACGGGTGAGTAACACGTAGGTTACGTGCCCTTTGGTGGGGGATAGCCCAGGGAAACCTGGATTAATACCGCATATGTCC >4294447 ATTGAACGCTGGCGGAATGCTTTACACATGCAAGTCGAACGGCAGCACGGGAGCTTGCTCCTGGTGGCGAGTGGCGAACGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATGGGGGATAACTAGTCGAAAGATTGGCTAATACCGCATA >4295019 GACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAACGATAAGGCTCCTTGCAGGACGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4295363 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAGGGGCAGCACGGGTAGCAATACCATGAGAGTGGCGCACGGGTGTGAGTAACGCGTATTCAACCTACCTGTAACAGAGGGATAGCCCATAGAAATGTGGATTAATATCTCATA >4295378 ATTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGGTATTTATTTCGGTAGATATCTTAGTGGCGAACGGGGGACGTGAGCAACCTGACCTAAAGAGGGGGATAACATTCGGAAACGGATGCTAATACCGCATAAGACCAC >4295827 AACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGCACCATTTCGGTGGTGAGTGGCGGACGGGNNNNNNNNNNNNNNAGCGGCGGACGGGTGAGTAACGCGTGGGTAACCTGCCTTGTACAGGGGGATAACATATTGAAAAGT >4296286 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGAATTCAATAAGCTTGCTTAAAGAATTTTTAGTGGCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4296291 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGCGATTAGACGGACTGGAGACTTCGGTCAAAGGGAAGACTATGAGTAACGCGTGAGCAACCTGCCCTGTACAGGGGGATAGCCACTGGAAACGGTGATTAATACCCCATA >4296811 AGCGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGCCGTAGCAATACGGCAGCGGCAGACGGGAGAGTAACACGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCTAATACCGGATACGCCCTTACGGG >4296878 AATGAACGCTGGCGACGTGCTTAACACATGCAAGTCGCACGAGAAAGCTCGAAGCTTGCTTTGGGCGAGTAAAGTGGCGAACGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4297375 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGGACTTCGGTCCTAGCGGCGGACGGGTGAGTAACGCGTGGGTAATCTGCCTCATACACATAACGCGTGGGTAATCTGCCTCATACACACGGATAACGTACCGAAAGGT >4298545 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAACGGTAACAGGTCCTTCGGGATGCTGACGAGTGGCGGACGGGTGCGTAACACGTACGAAACTTGCCCACAACTGGAGAATAGCCCCGGGAAACTGGGATTAATACTCCATAA >4298715 GATGAACGCTAGCGGGAGGCCTAACACATGCAAGTCGAACGGGATTGGTAGCAATACCATGAGAGTGGCGCACGGGTGAGTAACGCGTGCGCACGGGTGAGTAACGCGTATGCAACCTACCTGTAACAGAGGGATAGCCCATAGAAATGT >4299233 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGAGTTTAGATGGAAGCTTGCGAAATCTAAACTTAGTGGCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4299277 AGTGAACGCTAGCGGCGCGCCTAACACATGCAAGTCGAGTGGGTTTAGACCCACGGCAAACGGCTGCGTAACACGTTGGAACCTGCCCCGAACTCAGGGATATCCCTCCGAAAGGAGGAGTAATACCGGATGCCCTCGAAAGAGGAAAGA >4299768 GATGAACGCTAGCGGTGCGCCTAACACATGCAAGTCGAGCGTGATTGAGAAGTAGCTTGCTACTTTTCATGAAAGCGGCAAACGGGTGAGTNNNNNNNNNNNNNNTAGCTTGCTACTTTTCATGAAAGCGGCAAACGGGTGAGTAATAAG >4299875 GATGAACGCTGGCGGCGTGCTTAACACATGCTAGTCGAGCGAGATTTTATAAAATTACTCTTCGGAGGAAGTTTATAGATGAAAGCGGCGGACGGGTGAGTAACGCGTAGGCAACCTACCTTATACAAAGGGATAGCCTCGGGAAACTGG >4299901 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGTGATCCGGAGCTTGCTCCGGTGAAAGTGGCGCACGGGTGAGTAACGCGTGGATAACCTGCCCTGGTATCTGGGATAACATCTCGAAAGGGGTGCTAATACCGGATAAGC >4300655 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTTCTCGTAGTTTACTTCGAGGATAGCGGCGGACGGGTGAGCGGGTGAGTAACGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATACC >4301106 AACGAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAACGGGGTGAGGGGCTTGCTCCTCATCTAGTGGCGCACGGGTGAGTAACGCGTAGATAATCTGCCTGACGATCTGGGATAACACTTCGAAAGGGGTGCTAATACCGGATAAGC >4301112 AACGAACGCTGGCGGCGCGTCTTAAGCATGCAAGTCGAGCGGCAAGGCAGGGCAACCTGCCCTAGAGCGGCGGACTGGTGAGTAACACGTGGGTGATCTGCCCTTGGGTTGGGGATAGCCACTAGAAATAGTGGATAATACCGAATACGT >4302425 GATTAACGCTGGCGGTATGCCTAATACATGCAAGTCGAGCGAGGTACTTCGGTACCTAGCGGCGAACGGGTGAGTAACGCGTACTCAACGTACCCCATAGACAGGGATAGCCTGGAGAAATCCAGATTAATACCAGATAAGATATTGGAA >4303094 GACTAACGCTGACGGTATGCCTTATACATGCAAGTCGAACGGAAAGGTCTTCGGATACTCGAGTGGCGGACGGGTGAGTAACACGTAGGAATCTGCCCCAAAGTGGGGGATAACTAAGAGAAATCTTAGCTAATACCCCATATGCCGTGA >4303992 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAAGAATTTATCATGAAGCCTTCGGGCAGATTGATAAACTTCTTAGCGGCGGATGGGTGAGTAACGCGTGAGGAACCTGCCTTCTACAAGGGGATAGCCTCGGGAAACCG >4304270 AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGAGAAGCCACCTTCGGGTGGTGGACAGTGGCAGACGGGTGAGTGAGTAACGCGTGGGAACGTGCCTTTCGGTTCGGGACAACCCAGGGAAACTTGGGCTAATACCGGATA >4305631 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGTTAATGCTGTAGCAATACAGCATTGACTTAGTGGCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4305902 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGGCTTAGTGAAAAGTTTACTTTTTACTTTGTCTAGCGGCGGGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATACCCGATAACCTCT >4307982 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTTGAACGGAGCACATTAAGTAGCAATACGAGGTGTGCTTAGTAGCGGACGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGGATGCTAATACCGC >4308184 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGGAAGTTGGAGAGCTNNNNNNNNNNNNNNNNNNNNNNGGGTGAGTAACGCGTGGGCAACCTGCCCTGCAGATCGGGATAACTCCGGGAAACCGGTGCTAATACCGAATAG >4308610 AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGATCCCTTCGGGGACAGCGGCGGACGGGTGAGTAACGCGTGGGAACGTGCCCTTTCCTTCGGAATAGCCCATGGAAACGTGGATTAATGCCGGATGCGCCCTTTGGGGGA >4312504 GATTAATGCTAGCTGTGCGCCTAACACATGCAAGTCGAACGAGATCACGCAGTAAGCTTGCTTATAGCGTGTGACAGTGGCAGACGGGTGAGTAACACGTCGGAATCTGCCCCTTATTCAGGGATAAGCTCGAGAAATCGGGTCTAATAC >4313071 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGTGATTGAGAGCTTGCTCTCATGAAAGTGGCGCACGGGTGAGTAACACGTGGATAATCTGCCTGGCGATTCGGGATAACACTTCGAAAGGGGTGCTAATACCGGATAAGC >4313876 GACGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGATCTCTTCGGAGATTAGTGGCGGACGGGGGAGTAACGCGGGGTGAGTAACTCGTGGGCAACCTGCCCCAAAGATCGGGATAACACTTCGAAAGGAGTGCTAATACCGG >4314293 AATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGGGATTGCTTGCAATCCTGAGTAGAGTGGCGCACGGGTGAGTAACACGTAGATAATATCTACCTTTGAACCCGGGATAACTAATCGAAAGGTTAGCTAATACCG >4314510 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTTTGGTGGTGGGTGGTTAGTGGTTAGTCTTATCACCAAATAGTGGCGGACGGGTGAGTAACGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGT >4314518 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTTGAGAGGTGGGAGTTGAGAAGTTAGACGTGGGAGAAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4314576 GACGAACGCTGGCGGCGTGGATTAGGCATGCAAGTCGAACGCGGAAGGTATTCCTTCGGGAAAATACTGGTAGAGTGGCGGACGGGTGAGTAACGCGTAGGTAATCAGCCTTTAAGTGCGGGATAGCCCCGGGAAACCGGGGTTAATACC >4314697 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGATTAATGCAAGTGGAGACTTCGGTCAAAGCGACCATTATGAAAGCGGCGGACGGGTGAGTAACGCGTGAGCAATCTGCCCCATACAAAGGGATACCCACTGGAAACG >4315167 AACAAACGCTGGCGGCGTGTCTTAAGCATGCAAGTCGAGCGGCAAGGGCAGCAATGCCCCTAGAGCGGCGGACTGGTGAGTAACGCGTGGGTGATCTACCTTTGGCATGGGGATAGCCATTAGAAATAGTGGGTAATACCGAATACGTTC >4315275 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGATACTTTAGTAGTAATACCGAGGTATTCTAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCTTTCAGAGGGGGACAACAGCTGGAAACGGCTGCTAATACC >4317419 GACGAACGTTGGTGGCGTGCTTAACACATGCAAGTCGAGCGGTTCTCGTAGTTTACTTCGAGGATAGCGGCGGACGGGTCAGACGGGTGAGTAACGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATAC >4319168 GATGAACGCTGACAGAATGCTTAACACATGCAAGTCAACTTGAATTTGGGTTTTTAACTTAGATTTGGGTGGCGGACGGGTGAGTAACGCGTAAAGAACTTGCCTCACAGCTAGGGACAACATTTAGAAATGACTGCTAATACTCCATAC >4319882 ATTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTAACGCGGGGGCAACCCTGGCGACGAGCGGCGAACGGGTGCGTAATACATCGGAATCTGCCCAGTAGCGGGGAATAACCCGGGGAAACCCGGGCTAATGCCGCATACG >4319889 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAGGGGTAACAGGAGAGCTTGCTCTCGCTGACGACCGGCGAACGGGTGAGTAACGCGTACGGAATTTACCTGTGGCTGGGGAATAGCTTCCGGAAACGGAAATTAATGCCCCAT >4320405 ATTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGTAACGACGGAAATGATCCCTTCGGGGTGATTTTCCGGGCGACGAGTGGCGGACGGGTGAGTAATGCATAGGAATCTGCCCAGTAGCGGGGGACAACTCGGGGAAACTC >4320407 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGATGATCCGGCTTCGGTCGGTGAAGAGTGGCGAACGGGTGAGTAACGCGTACGCAATCTGCCTCTATCAGGGGGATACACACGGGAAACTGTGGATAATCCCGCATACTA >4321379 GACTAGCGCTGGCGGTGTGTCTTAGACATGCAAGTCGAGCGGGATTCACTCCGGTAGCAATACCGGGGTGCGCCTAGCGGCGAACGGGTGAGTAATGCAAGGGTAACCTACCCTGAGGTGAGGCACAACCCGTCGAAAGGCGGGCTAATT >4321845 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGTACGGTAATTCCGGTGCCTAGCATCGGAAACGAGTGGCGCACGGGTGCGTAACACGTATGCAACCTACCCTGAACTGGGGAATAACCCCGCGAAAGCGGAGCTAATACCCCAT >4322537 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAATCTTGAGGAGCTTGCTCCTCTTGGTTAGTGGCGGACGGGGGAGTAACGCGTGGGTAACCTGCCCTATGCAGGGGGATAACAACGAGAAATTGNNNNNNNNNNNNNNN >4323164 GGTTAACGCTAGCGATGTGCCTAAGGTATGCAAGTCGAACGGTGAACTTTTGGTAGTAATACCGAAAGTTCATAGTGGCAAACGGCTGAGTAACGCGTGGGAATCTCCCCTTGAGTCTGATATAGCTCGCCGAAAGGCGGGGTAATCTCA >4324993 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAAAGTCCCGCAAGGGATAAGTAGAGTGGCGCACGGGTGAGTAACACGTGGATAACCTGCCGTCGAGTGGGGAATAACCCTCCGAAAGGAGGGCTAATACCGCATAAT >4326567 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGCCTTAACGAATAGATTTACTATGAGCTAAGGTTAGTGGCGGACGGGTGAGTAACACGTGGATAACCTACCTGACACATCGGGATAACACCGTGAAAACAGTGCTAAT >4327117 GACGAACGCTGGCGGAATGGATTAGGCATGCAAGTCGTACGAGATTTATACTTTCCGGGTATATTGAGAGTGGCAAACGGGTGAGTAACGCGTGGGTATCTGCCTTTAAGCGGGGGATAACTCAGGGAAACTTGAGCTAATACCGCATGT >4327602 GACGAACGCTGGCGGTATGCCTAACACATGCAAGTCGAACGTGATCTTCTGTAGTTTTACTAGCACTGAGCGAGAGAAGTGAAAGTGGCGGACGGGTGAGTAACACGTGGGTAACCTGGCCTTTGGAAGGGGATAACCTCGGGAAACCGG >4327922 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTGCGCGAACGGGACTTCGGTCCCTAGTAGAGCGGCGAACGGGTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4328672 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGCGCTAGCTTGCTAGCGGCTGACGAGTGGCGGACGGGTGAGTAACGCGTGGGAATCTACCTGGTAGTGGGGGACAACAGTCGGAAACGACTGCTAATACCGCA >4330488 GATGAATGTTGGCGGCGTGCCTGAGATATGCAAGTCGAACGTCCCGTTGCAAGACGGGAGTGGCGGACGGCTGAGTAACACGTAGGAATCTTCCCCAAAATAAGGGATAGCTCGTCGAAAGACGGGGTAATCCTTTATGGTCCCCAACGC >4331274 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAAGTTGCAAGGTATAAGTTTACTTTTACCCTGCAATTTTAGTGGCGGACTGGTGAGTAACGCGTGGGTAATCTACCCATAAAACGGGGATAACATCGGGAAACCGGTG >4331964 ATTGAACGCTGGCGGCACGCCTAACACATGCAAGTCGAACGGTAGCATGACCTGTAGCAATACAGGTTGATGACGAGTGGCGGACGGGTGAGTAACGCGTGGGGATCTACCCCGAAGCGAGGGATAACCTTTGGAAACGAGGGCTAATAC >4332330 AACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGATGAAGTCCTTCGGGACATATCAGTGGCGTACGGGTGAGTAACACGTAAGCAATTTGCCTTATGGACTGGGATAACATCGCGAAAGCGATGCTAATACCGGATGATGTC >4332942 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGGTAAATATTCAGCAATGGATATGAGAGTGACGTACGGGTGCGTAACACGTATGCAACCTACCCTTTACAGGAGGATAGCTCGGGGAAACTCGGATTAACCCTCCATGAG >4333552 GACGAACGCTGGCGGCGCGTTTTAAGCATGCAAGTCGAGCGGCAAGGGTACTTCGGTACCCCTAGAGCGGCGGACGGGTGAGTAACACGTGGATAACCTGCCCCCGGGTGCGGGATAGCCCAGGGAAACCTGGATTAATACCTCGTAGGA >4334796 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGGCTCAGTAGAAAGTTTACTTTTTATTTTGTCTAGCGGCGGACGGGTGAGTAACGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATA >4335289 AACGAACGCTGGTGGCGTGTTTTATACATGCAAGTCGAGCGAGGACAATAGCTTGCTATTGAGCCGAGCGGCGAACGGGTGAGTAACGCGTAAGCAATCTGCCCCATAGTCGGGAATAACCGCGCTAACGTGCGGCTAATGCCGGATATT >4335291 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAACGGCAGCGGGTCCAGCAATGGATGCCGGCGAGTGGCGCACGGGTGCGTAACACGTATGCAACCTACCTTTAACCGGGACATAACCTCGAGAAATCGTGGCTAATATTCCAT >4335376 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGCGCGGTTAAAGCTGCTTCGGCAGTGCATAGAGCGGCGAACGGGCGAGTAACGCGTGGGCAACCTGCCCCCCTCCCGGGAATAGCCGGGGGAAACCCCGGGTAAGGCCCGGCGA >4335619 GATGAACGTTGGCGGCGTGCCTGAGATATGCAAGTCGAACGCAGGATGTCGCAAGACATCTTCAGTGGCGGACGGCTGAGTAACACGTAGGAATCTACCCCTATCTCAAGAATAGCCAGCTGAAAGGTTGGGTAATACTTGATGATTCAG >4335623 AACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGTAGCAGGCCCGCAAGGGCGCTGACGAGTGGCAGACGGGTGAGTAACGCGTGGGTGACCTGCCCTAAGATGGGGGACAACAGCTGGAAACGGCTGCTAATACCGCATAC >4337276 GATGAACGCTAGCGATAGGCCTAACACATGCAAGTCGAGGGGTAACAGGGTAGCAATACCGCTGACGACCGGCAAATGGGTGAGTAACGCGTATGCAACCTACCGATAACAGTTGGATAGCTCCCTGAAAGGGGAATTAAACCGGCATGA >4338827 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCACGTCTTCGGATGGTGGCGACCGGCGCACGGGNGCGTAACGCGTATACAATCTACCTTTTACAGAGAGATACCCCAGAGAAATTTGGAATAATACCTCATAATA >4340111 GATGAACGCTTGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCATGAAGATTGATTTATCAATTTTTGATGGCGACCGGCGTACGGGTGCGTAACGCGTGAACAACTTTCCCTTGTCAGGAGGGTAACCGGAGGAAACTCTGACTAA >4340420 AACGAATGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGGTTCTAGCAGAATATCGCTGGGATTAGTGGCAAACGGGTGAGTAACACGTGGGTAACCTACCTCCGAATGGGGAATAACCCGCCGAAAGGCGAGCTAATACCCCGTAG >4340429 GATGAACGCTGGCGGCGTGCCTAAGGCATGCAAGTCGAAGGAGTCGACTTGTCGACTCCTGGCAAACGGGTGAGTAACACGTGTGAATCTACCTTTCAGTCAGGAACAACCCCGAGAAATCGGGGATAATTCTGGATAGTCCCCGAATTT >4340587 GATGAACGCTAGCGATAGGCTTAACACATGCAAGTCGAGGGGCAGCATGGTCTTAGCTTACTAAGACTGATGGCGACCGGCGCACGGGTGCGTAACGCGTATGCAACTTGCCTCACAGAGGGGGATAACCCGTCGAAAGACGGACTAATA >839212 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGTAACAGAAAGTAGCTTGCTACTTTGCTGACGAGCGGCGGACGGGTGAGTAATGCTTGGGAACATGCCTTGAGGTGGGGGACAACAGTTGGAAACGACTGCTAATACCG >4341587 ATTGAACGCTGGTGGCGTGCTTAACACATGCAAGTTGAGCGAGAAAGCTTCTTCGGAAGTGAGTAGAGCGGCGCACGGGTGAGTAACGCGTGGATAATCTACCCAGAAGACTGGGATAACAGTTGGAAACGACTGCTAATACCGGATACG >4341816 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAATGAAAGAGAAGCTTGCTTCTCTGGATTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTACCTTATAGATGGGGATAACTCCGGGAAACCGGGGCTAATACCGA >4342056 GACGAACGCTGGCGGCGTGCCTTATACATGCAAGTCAAGGGGGTCCGACGTTAAGTCGGACAACCGGCGAACGGGTGAGGAACACGTGGGAACTAAGCACAAGTTGAGAATAACCTGTCGAAAGATGGGCTAATACTCGATGTGGTCGCA >4345165 GATGAACGCTGGCGGCGTGCCTAAGACATGCAAGTCGAGTGGGTTTAGACCCACGGCGAACGGGTGAGTAATACCTAGGAACGTTCTTCTAGTCGAGCATATACAGCCGAAAGGTTGTGCAATTCTCGATGTGGTCGTAAGACTAAAGTC >4346663 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGAATAGCAATATTCCATCTTAGNNNNNNNNNNNNNNNATCTTAGCGGCGGACGGGTGAGTAACGCGTGGGCAACCTGCCTATAACTGGGGGATAACACAGGGAAACT >4348297 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAGGTCCCTTCGGGGATGAGTATAGTGGCGCACGGGTGAGTAACGCGTGGGTAATCTACCTTTGGATTTGGGATAACTTCGCGAAAGCGTAGCTAATACCGGATAGT >4348866 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGACTTAGTGAAAAGTTTACTTTTTACTTTGTCTAGCGGCGGACGGGAACACGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATACCGGA >4349618 GATGAACGTTGGCTGTGTGCCTAAGGTATGCAAGTCGAACGGTCTTATTCTGAATTCCAAAGACTTCGGTCAATGGTTTTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4351085 AACGAACGCTGGCGGCGCGTTTTACGCATGCAAGTCGAGCGGAAAGCACGGCCTTCGGGCTGTGCCTAGAGCGGCGAACGGGTGAGTAACACGTAGGTGATCTGTCCTGGTGTCGGGGATAGCTTCTGGAAACAGAAGGTAATACCGGAT >4351087 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGGGTGGTGGAAGGCGTAAGCTGGAAGCCACCTTAGCGGCGGACGGGTGAGTAACACGTAGGCAACCTACCCACCACACGGGGATAGCCCTGGGAAACTGGGGGTAATA >4351772 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGCACGGGGCCCGCAAGGGCTCAGTGGCGGACGGGTGCGTAACACGTGAAGAACTTGTCCATCGGTGGGGGATAGCCGGCCCAACGGCCGGGTAATACCGCGTACGTCGGCGAGA >4351962 GATGAACGCTAGCTACGGGCTTAACACATGCAAGTCGAACGGATTCTGGATTCGTCTGGAATTAGTGGCAAACGGGTGAGTAACACGTATCCAACCACCCTGCGACTCGGGGATAGCCTCTTGAAAGGGAGATTAATATCCGATGTACTG >4352153 AACGAACGCTAGCGGCGGGCTTAACACATGCAAGTCGAACGAACCCACTTCGGTGGGTGAGTGGCGCACGGGTGAGTAACACGTAGATAACGTGCCCGGAAGCGGGGGATAACAGGCCGAAAGGCCTGCTAATACCGCATAAGACCACGG >4352392 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAGTAAACTGATGACAGAGAACAGATGACGGAGAACAGAATTTCTGGTCTCCAGCTTCTGACTTCTGTCATCTGGTTTACTAGTGGCGAACGGGTGAGTAACACGTTGGA >4352520 GGTGAACGCTAGCGGCGCGCCTAACACATGCAAGTCGTGCGATCGGCTTGCCGAAGCCGCAAGGCCGAGGCAAGTACGGAGCGGCAAACGGGTGAGTAACACGTAGCCAACCTGCCTCCGCGACGGGGACAACCCTCCGAAAGGGGGGCT >4354363 GATGAACGCTAGCGGGAGGCTTAATACATGCAAGTCGTACGGTAGGATTCCTTCGGGGATCTGAGAGTGGCGAACGGGTGAGTAACACGTATGCAATCTGGCTCTAACAGGGAGATAGCCCTTCGAAAGGAGGATTAATATTCCATAGTA >4357144 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGATAATTGGGTGTTAGACAATGGGCGTTGATTAAAATATTAATTAATTCTTATTGTCTAATACTTGATTGTTAGTGGCGAACGGGTGAGTAATGCGTAGGCAATCTACC >4357274 GACTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGTTGTTTATAGTAGCAATATTACAAACAGCAAGTGGCGAACGGGTGAGTAACACGTAGATAATCTGCCTTTCAGACGGGGACAACTCAGGGAAACTTGTGCTAATACC >4357725 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAATGAATAGTGGTAGGTGGTTAGTGGTTAGTCTTTGGGGTTTTTGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATACCCGATAACCTCTTT >4358136 GATAAACGCTAGCGGCGCGCCTAATGCATGCAAGTCGAGCGATGATCCTTCGGGGTCATAGCGGCAGACGGGTGAGTAACACGTGGGTGACCTGCCCCAAAGCCGGTGGATAACGACTGGAAACGGTTGCTAATACCCGATGTGCTCGGT >4360029 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCTAGGTGGCTTTGGTTTTCGGATCAAAGCAAACTGGCGAACGGGTGAGTAACACGTAAGAAACCTGCCCCTATGTCTGGGATAACAATAGGAAACTGTTGCTAATACCGGATACG >4361215 GATGAACGCTAGCGGTGCGCCTAACACATGCAAGTCGAGCGTGATTGAGAAGTAGCTTGCTACTTTTCATGAAAGCGGCAAACGGGTGAGTAATAAGTTGGTACCTACCTCTAAGTCAGGGATAGCCCAGGGAAACCTGGATTAATACCG >4361335 AACGAACGCTGGCGGCGTGCCTCATACATGCAAGTCGGGCGGTTGTAGCAATACAGCAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGGCCTTAAGAGGGGGATAACGTCTCGAAAGGGACGCTAATACCGCGTAACGCAAAGAGA >4361921 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGGAACCCCTTCGGGGGTTTTCAGCGGCGGACGGGTGAGTCGGCGGACGGGTGAGTAACGCGTGAGCAACCTTTCCTTCACAGGGGGATAACGCAGCGAAAGCTGTGCT >4362191 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGGTGTCCTCATGAGCCCGCGGCAGACGGGTGATTAACACGTAGGTCATCTACCTCCAGGAGAGGGATAACCCGCCGAAAGGCGGACTAATACCTCGTAAGACCACGGTT >4362511 AACGAACGCTGGTGGCGTGTTTTATACATGCAAGTCGAGCGAGGACAATAGCTTGCTATTGAGCCGAGCGGCGAACGGGTGAGTAACGCGTAAGCAATCTGCCCCATAGTCGGGAATAACCGCGCTAACGTGCGGCTAATGCCGGATATT >4364418 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGATTAATGCAAGTGGAGACTTCGGTCAAAGCGACCATTATGAAAGCGGCGGACGGGTGAGTAACGCGTGAGCAATCTGCCCCATACAAAGGGATACCCACTGGAAACG >4367232 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGATCCTCATGAAGGAGTTTTCGGACAACGGAATGGGGCATCTAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCCTTCGGAGGGGGACAACAGTTGGAAACGA >4367891 AGCGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGAGATGGTAACATCTAGAGGCGAACGGGTGAGTAATGCATAGGATTAATTTGCCTGATAGTGGGGGATAACCGTTGGAAACGATGGCTAATACCGCATAGTCCAGGGATG >4368981 GATGAACGTTGGTGACGTGCTTGAGATATGCAAGTCGAGCGACCCTAACGCAAGTTAGGGAGCGGCGGACGGCTGAGTAATGCGTAGGTATCTACCCCTAGGTGGAGAATAGCTCCGAGAAATCGGAGATAATACTCCATAGTTCCCGCC >4369138 ATTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTAACATGCAGATGAAGTGGCAACATGGAATTTGTGATGACGAGTGGCGAACGGGTGAGTAATGCATCGGAACATGCCTAGTAGTTGGGGATAACTATTCGAAAGGATA >4371273 AACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAGCGGACGACCCTTTCGGGGGAAGTTAGCGGCGGACGGGTGAGTAAGGCATAGGTAATCTGCTCTTTAGTGGGGGACAACAGACCGAAAGGTTTGCTAATACCGCATAAGCTG >839203 GACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGAGAAAGTTCCTTCGGGAGCAATTAAAGTGGCGCACGGGTGAGTAACGCGTAGACAATCTGCCCTTCAGTCTGGGACAACTTTTCGAAAGGAGAGCTAATACCGGATAAC >4372979 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAGTACAGTAGCAATACTGTATTGTAAAGTGGCGCACGGNNNNNNNNNNNGTGGGTAATCTACCCTTGAGTTTGGGATAACCCCGCGAAAGCGGGGCTAATACCGAA >4374455 GATGAACGCTAACGGCAGGCCTAATACATGCAAGTCGAACGGTGCAGCAATGCATAGTGGCGCACGGGTGCGTAACGCGTATGCAACCTACCTATCAGTGGGGAATAGCCCGGGGAAACCCGGATTAATACCGCATAAGATCACAGGATG >4374591 GACGAACGCTGGCGGCGTGGTTTAGGCATGCAAGTCGAACGGTATATATGCCTTCGGGTGTATAGAGAGTGGCGAACGGGTGAGTAACACGTAGATAATCTACCCTCAAGAGGGGGATAACCCAGGGAAACTTGGGCTAATACCGCATGA >4374847 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGGGATACTTCAGTAGTAATACCGAGGTCATCCTAGTGGCGGACGGGTGAGTAACGCGTGAGCAACCTGCCTTTCAGAGGGGGACAACAGCTGGAAACGGCTGCTAATAC >4375477 AATGAACGCTAGGGGCCGTTAAAGGGATGCGAGTCGAACGACAAATTTGTTTTGTAGCCGTAAAAAGGTGAGTAATACACAAGAATCTGCCTTCAAGAAGTTTTAGATAAACTATAATCAAAGGAATTAATTTCTCTTAAAGATGAGCTT >4377602 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGAATTAGTTAGGTGCTTGCACCTAACTAATTTTAGCGGCGGAGTAACCTGCCTTATACAGGGGGATAACATATTGAAAAGTATGCTAATACCGCATAAGCGCACAATA >4377603 GATGAACGCTAGCGGCAGGCTTAATACATGCAAGTCGAGGGGCAGCACGGGTAGCAATACCTGGTGGCGACCGGCGCACGGGTGCGTAACGCGTATGTAATCTACCATTAACCGGGGAATAGCCCAGAGAAATCTGGATTAATGCCCCAT >4377851 AGTTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGCTTGTAGCAATACAAGTTAGCGGCAAACGGGTGAGTAACACATGGGAAACCTCCCTCAAAATGGGGAATATCTCCGAGAAATCGGAGCTAATACCGCATAAGACCAC >4378109 GATAAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAACTGAGTGGAAGTCTTCGGACAGAAATGAAGTGAGCGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCCTCGAGATTGGGATAACAGTTGGAAACGACTGCTAATA >4378232 GACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGGGGTATGACTTCGGTTGTACCCTAGTGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCTGTACAACGGGATAACACTAAGAAATTAGTGCTAATACGGTATATGA >4380628 AGCGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGTGGGTGAAAGTTCCCTTCGGGGAGTGAGTAAACCGGCGAATGGGTGAGTAATACGTGAATAACCTGCCTTCAAGACCGGGATAACCCCGCGAAAGCGGGGCTAATACTGGATA >701912 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGATCTATTTCGGTAGGTAGTGGCGCACGGGTGAGTAACACGTAGCTTACCTGCCCTAGACACTGGGATAACGCACCGAAAGGTGTGCTAATACCGGATAAGCTCACGTTC >4383214 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGGACGCGAAAGTCCCTTCGGGGGCGAGTAAAGTGGCGCACGGGTGAGTAACGCGTAGGAACGTGCCTAAGGGTGGGGAATAACCACGGGAAACCGTGGCTAATACCGCATAAAA >4383920 GACGAACGCTGGCGGCGGGCCTAACACATGCAAGTCGAGCGAGAAAGTTTCCTTCGGGGAGCGAGTAAAGCGGCGGACGGGTGAGTAACACGTGGGTAAGCTACCTTTTAGACGGGGACAACTCCGAGAAATCGGAGCTAATACCGGATG >4384293 GATAAACGCTGGCGGCGTACATAAGACATGCAAGTCGAACGAGCAGAAACTGGAAGATTTATCTACTAGTGGAGCTAGTGGCGGATGGGTGAGTAACACGTAAGCAACCTACCTAGCAGAGGGGAATAACAGTGAGAAATCATTGCTAAA >4384911 AACGAACGCTGGCGGCGTGTCTTAAGCATGCAAGTCGAGCGGCAAGGCGGGGCAACCCGCCCTAGAGCGGCGGACTGGTGAGTAACACGTGGGTGATCTACCCTTGGTTTGGGGATAGCCTGTGGAAACATGGGGTAATACCGAATACGT >4386133 GATAAACGCTAGCGGCGCGCCTAATGCATGCAAGTCGAGCGATGATCCTTCGGGGTCATAGCGGCAGACGGGTGAGTAACACGTGGGTGACCTGCCCCAAAGCCGGTGGATAACGACTGGAAACGGTTGCTAATACCCGATGTGCTCGGT >4386447 GACGAACGCTGGCGGTGCGCCTAACACATGCAAGTCGAGCGATGAGGCCCTTCGGGGTACATCAGCGGCGGACGGGTGAGTAACACGTGGGTCATCTACCCCTTAGTTCGGAATAGCTCCTGGAAACGGGTGGTAATGCCGAATGTGGCT >4387049 AACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAGCGAGAACCGAGAGCTTGCTCTCGGGGAAAGCGGCGCACGGGTGAGTAACACGTGGATAACGTACCTAATGGTTGGGGATAACCTGCTGAAAGGCGGGCTAATACCCGATAA >4387052 AGCGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGGCACCGCAAGGTGTCAGCGGCAGACGGGAGAGTAACACGTGGGAACGTGCCCTTCGGTTCGGAATAACTCGGGGAAACTCGTGCTAATACCGAATACGCCCTTACGGG >4387088 GACGAACGCTGGCGGCATGCCTAACACATGCAAGCCGAACGGAGTAATACTGAAGGTAGCGATATTGGAAGGATTACTTAGTGGCGAACGGGTGAGTAACGCGTGAGCAACCTGCCTTGTACACTGGGATAACAGAGGGAAACTTCTGCT >4387158 AATAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGGTCTTCGGACTGAGTAGAGTGGCGAACGGGTGAGTAACGCGTGGATTATCTGCCTTTTAGTGGAGAATACCTTCGAGAAATTGAAGTTAATACTCCTGTTGAA >4387722 ATTGAACGCTCGGTTGCACGCTTAACACATGCAAGTCGGACGGCAGCAGCGCTGATTGATTTATTAATTAGTGGCTGGCGAGTGGCGGACGGGTGAGTAACGCGTAGGGACATGCCTTGTAGAGGAGGACAACCTGAGGAAACTTAGGCT >4388127 AATCAACGCTGGCGGCGTGCCTCAGACATGCAAGTCGAACGATTAAAGCTCCCTTCGGGGAGTGCATAAAGTGGCGCACGGNNNNNTAACACGTAAGTAATCTACCCTCGAGTGGGGAATAACAGTCGGAAACGACTGCTAATACCGCAT >4388133 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGTCGAACGAGAGAAGGGAGCTTGCTCCCCGATCTAGTGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4389194 GACTAACGCTGGCGGCACGCATAAGTCATGCAAGTCGTACGAGAAAGGGGTCTTCGGACCCCGAGTAAAGTGGCGAACGGGTGAGTAACGCGTGAATAATCTACCTTTGAGAGGGGGATAACCCCGGGAAACTGGGGCTAATACCGCATG >4389611 GATGAACGCTAGCGATAGGCCTAACACATGCAAGTCGAGGGGCAGCATGGATGTAGCAATACATTCGATGGCGACCGGCGCACGGGTGAGTAACACGTATGCAACCTACCTTTTACAAGGAGATAGCCCGGAGAAATCCGGATTAATACC >4390198 GGTGAACGCTGGCGGTGTGGATGAGGCATGCAAGTCGAACGCCCCTTCGGGGGAGTGGCAAACGAGTTAGTAACGCGTGGGTAATCTACCCTGTTCACGGGGACAACCAGTCGAAAGGCTGGCTAATACCCGATGGTCTGTCGGATGCGG >624232 ATTGAACGCTGGCGGAATGCTTTACACATGCAAGTCGAGCGGCAGCGCGGGGCAACCTGGCGGCGAGCGGCGAACGGGTGAGTAACACATCGGAACGTGCCCAGACGTGGGGGATAGCCCGGCGAAAGCCGGATTAATACCGCATACGAT >4390351 GATTAACGCTGGCGGTGTGTCTAATACATGCAAGTCGAGCGAGCTTTTATTAGCTAGCGGCGAACGAGTGAGTAACACGTTGGAACCTGCCCCGAACTCAGGGATAAGCACTGGAAACGGTGTCTAATACCGGATAGCCCGTAAGGGTAA >4390479 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGATGAAGCTCCTTCGGGAGTGGATTAGCGGCGGACGGGTGAGTAACACGTGGGTAACCTACCTCAAAGAGGGGGATAGCCTCCCGAAAGGGAGATTAATACCGCATAATA >4391686 AATCAACGCTGGCGGCGCGCTTAACACATGCAAGTCGAACGAGAAAGGGTAGCAATACCTGAGTAAAGTGGCGTACGGGTGAGTAACACGTGGATCATATACCTTTTAGTGGGGAATACCCTTGGGAAACCGAGGACAATACCGCATAAT >4392534 GATTAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAAACAGTTTACTGTTTAGTGGCGAACGGGTGAGTAATACGTATTTAATCTACCCTTAAGTTGGGGATAATTACCGGAAACGGTGACTAATACCGAATATCTTATCGAAA >4392535 GATGAACGCTGGCGGTGTGCCTAATACATGCAAGTCGTGCGAGTAGTTTACTACTAGCGGCGAACGGGTGAGTAACACGTATCTAACCTACCCATCAGTCTGGAATAACATCGAGAAATTGGTGCTAATACTGGATAGCTAATATTTACT >4393546 GACGAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGAGCGGGCCATTCGCGGGGATGGCTTAGCGGCGAACGGGTGAGTAACGCGTAGGTGATCTACCCCTCAGAGGGGGACAACCCTGGGAAACTGAGGCTAATCCCCCATACGCTCC >634455 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAACCTTCGGGTTAGTGGCGGACGGGTGAGTAACGCGTGAGAATCTGCCCTCAGGAGGGGGATAACGGCTGGAAACGGCCGCTAATACCCCATATGCCGCGAGGTGAAAT >4395818 GATGAACGCTGGCAGTGTGCCTTAGACATGCAAGTCGAACGAGATGAGCGATCACCTAGTGGCAAACGGGTGAGTAACACGTAGGTAATCTACCCCTAAGAGGGACTAAACTATGGGAAACTGTAGCTAATATCCCATATGCTCTGAGGA >4397838 AACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAGAAAGTGGCTTCGGCCATGAGTACAGTGGCAGACGGGTGAGTAATACATAGGCAACCTACCCTTAAGTTGGGGACAACCTTCCGAAAGGAGGGCTAATACCGAATGAG >4399294 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAATGAAGTTTCTTCGGGAACGGATTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTCATAGAGGGGAATAGCCTTCCGAAAGGGAGATTAATACCGCATAA >4401161 AATAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGTCCTTTCGGGGATGAGTAAAGTGGCAGACGGGTGAGTAACGCGTGAGAATCTACCCTAAAGTGGAGAATACCTTCGAGAAATCGAAGTTAATACTGCATACGT >4401294 GATGATCGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGTCGTAGCAATACGATGGCGGCGACCGGCGCAAGGGTGCGTAACGCGTGAGCAACTTGCCCGCAACAGGAGGATAACCGGAGGAAACTCCGACTAATACTGC >4401777 AACGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGCCCCGCAAGGGGAGTGGCAAACGGGTGAGTAACACGTGGGAATTTTCCTCATAGTTCGGGATAGCCTCGGGAAACTGGGATTAATACCGGATACGGTCTACGGACGAAA >4402525 GACGAACGCTGGCGGCGCGCCTAATGCATGCAAGTCGAACGAACGACCCAGCTTCGGTTGGGAAGTTAGTGGCGGACGGCTGAGTAACGCGTAAGTAACCTACCCATTGGCGGGGGACAACCCGGAGAAATCCGAGCTAATACCGCATGT >4403865 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAACGGTCTAGCTTGCTAGATGCAGTCTAAGTGGCGGACGGGTGAGTAATGTATAGCTAATGTGCCCCTTGGAGAGGGATAACAGTTAGAAATGACTGCTAATACCT >613161 GACGAACGCTGGCGGCGGGCTTAACACATGCAAGTCGAACGTGAAGCCTGGAGCTTGCTCCAGGTGGAAAGTGGCGAACGGGTGCGTAACGCGTAGGCAACCTGCCCTTGAGTGGGGAATAACCATCGGGAACGGTGGCTAATACCTCAT >4404362 GACGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAGCGCTAAAGTTTCTTCGGAGATGATTAAAGCGGCGGACGGGTGAGTAACTCGTAGATAATCTGCCCTTGAGCCCGAGATAACCCCGGGAAACCGGGGCTAATACCGGATGAC >4405151 GATGAACGCTAGCGGCGGGCCTAATACATGCAAGTCGAACGGTGCAGCAATGCATAGTGGCAGACGGGTGCGTAACGCGTATGCAACCTACCTTTTATCGGGGGACAACATTTCGAAAGAAGTGCTAATACCGCGTAAGATAGTAGTGGG >4405613 GATGAACGCTGGCGGCGTGCTTAATACATGCAAGTCGAACGGATGGATGCCAGGCCCAGCCTGGCTGAAGTCAGTGGCGAACGGGTGAGTAATACGTAGGCAACCTGCCCCCATGTGCGGAACAACGGATGGAAACGTCCGCTAATGCCG >4406624 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAGGGGGAAACTTCCCTTCGGGGAGGGAGTACACCGGCGCACGGGTGAGTAACGCGTGAGTGACCTACCCATTAGACCTGGATAACCTGGCGAAAGTTGGGCTAAGACAGGATGT >4406781 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAACGACTATTAACAGAACCTTTCGGGGCGAAGAATATAGAAGTTAGTGGCGGACGGGTACGTAACGCGTGGGTAATCTGCCTTTGTCAAAGGAATAACTATTCGAAAGA >4407763 GATGAACGCTAGCGGCAGGCCTGACACATGCAAGTCGAGGGCAGCGCGCGTAGCAATACCTGGCGGCGACCGGCGCACGGGTGAGTAATGCGTATGCAACCTGCCCCCGTCTGGGGAATAGCCCGTCGAAAGGCGGATTAAAGCCCCATG >4408741 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAACGGGTTATAGCTTGCTATAATTGTCAGCTAAGTGGCGCACGGGTGAGTAATGTATAGATAACCTGCCCTCTAGAAAGGAATAACAGTTGGAAACGACTGCTAATG >4408885 AACTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGCACGAGAAAGTTGGCTTCGGCCGATGAGTACAGTGGCGCACGGGTGAGTAACGCGTGGATAATCTGCCCTTTAGTTGGGAATAACGTACCGAAAGGTGCGCTAATACCGAATA >4409658 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCACGTCTTCGGATGGTTGGCGGCGACCGGCGCACGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATAGACCAGAGTAACCTGGATAAATGCCCA >4409929 GATGANNGCTGGCTGTGTGCCTAATACATGCATGTCGAGCGGAGTATTAATTTATTAGTGCTTAGCGGCAAATGGGTGAGTAACACGTATTTAACCTACCTCAAAGACTGGGATAACAACAGGAAACTGTTGCTAATACCGGATATGTAT >4411852 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGCACCTTCGGGTGTGAGTACAGTGGCGCACGGGTGAGTAACACGTAGGTCACCTACCCATTGGTGGGGGATAACTCGGAGAAATCCGAGCTAATACCGCATAAG >4413062 GATGAACGCTAGCGGCGGGCTTAATACATGCAAGTCGAACGGTAACAGGTCTTCGGATGCTGACGAGTGGCGCACGGGTGCGTAACGCGTACACAATCTACCTTTAAGTGGGGTATAGCCTTGGGAAACTGAGAATAATCCCCCATAGTA >4413098 GATGAACGCTAGCGGCGCGCTTGATCCATGCAAGTCGGACGGTTCCTTGTTCTTAGGGATAAGGGATAGTGGCGAACGGGTGAGTAACACGTTGGTGACCTGCCCCTGAGTGGGGGATAACTACTCGAAAGGGTAGCTAATCCCGCATAC >4413327 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAACTCTGGTATTGATTGGTGCTTGCATCATGATTTACATTTGAGTGAGTGGCGAACTGGTGAGTAACACGTGGGAAACCTGCCCAGAAGCGGGGGATAACACCTGGAAA >4413467 GAACAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGAATGGGACCCACTTAGGTGGACGACCATGGCGGACGGGTGAGTAACACGTGGAGAACCTGCCCACTGGCGGGGGATAACCCTGGGAAACCGGGGCTAATACCGCATGAGCTTG >4415180 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGTAACAGGTCCAGCTTGCTGGATGCTGACGAGCGGCGGACGGGTGAGTAACGCGTAGGAATTTGCCTGATAGTGGGGGATAGCCCGGAGAAATCCGGATTAATACCGCA >4415436 AACTAACGCTGGCGGCGTGCCTAACACATGCAAGCCGAACGATTCTATTATAATAGCAATATTGTGGTAGGATAGTGGCAAACGGGTGAGTAATACATAGGTAATTTACCTCGGAGAGGGGGATAACACTGCGAAAGCGGTGCTAATACC >4415819 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGTGATTGAGAGCTTGCTCTCATGAAAGTGGCGCACGGGTGAGTAACACGTGGATAATCTGCCTGGCGATTCGGGATAACACTTCGAAAGGGGTGCTAATACCGGATAAGC >4416466 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTTGAGAGGTGGGAGTTGAGAAGTTAGAAGTGGGAGAAAGTTCTCACCTCTTCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATACCGGATAACCTCTT >4418129 GATGAACGCTAGCGGGTGCGCCTAACGCATGCAAGTCGAGCGGAGGATACGCAAGTATCCTTAGCGGCGAACGGGTGAGTAACACGTGGGTAATCTACCGCAGTCCCGGGGATACCCCTGCGAAAGTAGGGTTAATACCTGATAGTCTCC >4418809 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAAGAGAGAAGCTTGCTTCTCTTTTAGTGGCGAACGGGTGAGTATAATACATAAGCAACCTACCCATTCGACCGGGATAACAGTTGGAAACGACTGCTAATACCGGATAG >811806 AGCGAACGTTAACGGCAGGCTTAACACATGCAAGTCGAGCGAGAAAAAGACTTCGGTCTTTAGTAAAGCGGCGAACGGGTGCGTAACACGTAGATAATCTGCCTTCTAGAGGGGGATAACACTTCGAAAGAGGTGCTGTAATACCGCATA >4419974 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGTCCTTCGGGATGAGTAGAGTGGCGCACGGGTGAGTAATGCATGGGAACGTGCCTGTTACTGGGGGATAACTGCGGGAAACTGCAGCTAATACCGCATGAGATC >4420082 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGATGAAAAAGAAGTAGATCTCTTCGGAGTGACGCCTCTTTGGATTAGCGGCGGACGGGTGAGTAACACGTGAGCAACCTGCCGTACACATTGGGATAGCCTCGGGAAACT >4420490 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAAGCACTCAACTTTAGCTTGCTAAAGTTGTTTGACTGAGCGGCGAACGGGTGAGTAACACGTGGGCAATCTATCCGGAAGACCGGGATAACAGCTCGAAAGGGCTGCTA >4421302 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGCGAAAGTTTTCTTCGGAAGAGAGTAGAGTGGCGCACGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4421368 ATTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTAACAGGCGTATCAATACGTGCTGACTAGCGGCGAACGGGTGCGTAATACATGGGAATCTGCCCTTTGGTGGGGAATAACCCGGCGAAAGCCGGGCTAATGCCGCATG >4421369 AATCAACGCTGGCGGCGTGCCTCAGACATGCAAGTCGAACGATTAAAGCTCCCTTCGGGGAGTGCATAAAGTGGCGCACGGGTGAGTAACACGTAAGTAATCTACCCTCGGGTGGGGAATAACGTTCGGAAACGGACGCTAATACCGCAT >4423139 GACGAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGTGCGCTCTGGCCTTCGGGCCAGGGAGCGGCGGACGGCTGAGTAGCGCGTGGGTCATCTGCCCTGGACGTGGGGGATAACAGCCCGAAAGGGCTGCTAATCCCGCATAATGCCA >4423711 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGTAACAGGGAGCTTGCTCCGCTGACGAGTGGCGAACGGGTGAGTAATGCATCGGAACGTGCCTATTTGTGGGGGATAACGTAGCGAAAGTTACGCTAATACCGCATACG >4424610 GATGAATGCTGGCGGCGTGGATAAGGCATGCAAGTCGTGCGGTCCTGCTTTTTGCAGGATAGCGGCAAACGGGTTAGTAATACATGGGTAACATACCCCCGGCCCGGCCATAACTTAGAGAAATCTAAGCTAATAGCCGATGGTCTCTGA >4424614 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGGGCCAGAACGAAGGGCAACCGGAGTTCGGGTTTAGCGGCGCACGGGTGAGTAACGCGTAGGTAATCTACTCCGAAGACCGGGATAACACCTCGAAAGGGGTGCTAATAC >4424871 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGATGAGGGGAGCTTGCTTCCTGATTCAGCGGCGGACGGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4426469 GATAAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGTAACATTGGGTGTTTACACTCAGATGACGACCGGCGGATGGGTGAGTAACGAGTATGTAACCTACCTGTTACTAAAGGATAGCCCGAAGAAATTTGGATTAATCCTTT >4426532 AACGAACGCTGGCGGTGCGTCTTAAGCATGCAAGTTGAACGGCAAGGTTGCAGGAAACTGTAACCCTAGAGTGGCGGACTGGTGAGTAACGCGTGGGTGACGTACCCTAATGACAGGGATAGCCGGTAGAAATACCGGGTAATACCTGAT >4426850 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAGATTTTATAAAATTACTTTTCGGAGGAAGTTTTATAGATNNNNNNNNNNNNNGGGTGAGTAACGCGTGAGCAATCTGCCCATAAGAGGGGGATAACACCGGGAAACCG >4427000 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGACCATTTGCAACGTTTGTTGTGGGTGGTTAGTGGCGGACGGGTGAGTAACACGTGAGTAACCTGCCCCTTGGTTTTTTGGGATAACTGCTTGAAAGGGTGGCTAATAC >4427993 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTTGAACGTTCCGCCCTTTTTGGCCTTCGGGCCATAAAGGACCACGGAAAGTGGCGGACGGGTGAGTAACGCGTGGAGAACCTGTCCTCAAGTTGAGGATAACCTGGCGAAAGTCGG >4429635 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGAGGTAAGCGGATGGTAACTGAAGCTTACTTTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTCGAAGTGGGGGATAACACCGAGAAATCGGTGCTAATACC >4430037 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAGAAAGTTACCTTCGGGTAATGAGTAAAGTGGCGGACGGGTGAGTAACGCGTGGATAACCTGCCCCTAGGTCTGGAATAACCTTTCGAAAGGGGGGCTAATTCCGGATG >4430360 GATGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAGCGAGATTTTATAAAATTACTTTTCGAAGGAAGTTTTATAGATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4430730 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGACGAATGAGAGAAGTTTACTTTTCTTATGAGTTAGTGGCGGACGGGTGAGTAACACGTGGATAATCTACCTGCAACACTGGGATAACGCTGTGAAAACGGTGCTAATA >4430839 AACGAACGCTGGCGGCGTGTCTTAAGCATGCAAGTCGTGCGGCAAGGGTAGCAATACCCCTAGAGCGGCGGACTGGTGAGTAACACGTGGGTGACCTGCCTCTGGGATGGGGATAGCCACTAGAAATAGTGGGTAATACCGAATACGTTC >4431212 GATGAACGCTAGCGGGAGGCTTAACACATGCAAGTCGAGGGGCATCACGGAGTAGCAATATTTTGGTGGCGACCGGCGCACGGGTGAGTAACGCGTATGTAACCTACCCCCAACAGGGGAATAACCCGGAGAAATTCGGACTAATACCGC >4431349 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGGACGGTAAGGCCCAGCACCTTTGTTATGTTACTCACAGGAATAATAGAAACTTTAGATTTCTCATATGACTGTTAGATAACAACGTGGCAAAGGTGCTGGGTACACGAGTGGC >4431350 GATGAGCGCTGGCGGTGTGCCTAACACATGCAAGTCGAACGCATTTAGTTGCGTGGCAGACGGGTGAGTACAAGCAAGGAACGTGCCCTTGAGTCGGGGATAGCCCACCGAAAGGTGGTGTAATACCCGATATACCTCCGGGTGAAAGTT >4431351 GGTGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGCCCTGCACATTGCGCTTCTTGAATCTTTCGAGACAGGACGCGGGGATTTTTTGAAAGAAAAATCAGCCGCATCAATAACGAAAGGGATGAAGGTCTGAGCGATCAAACC >4433285 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGCGAAAGTCATCTTCGGGTGGCGAGTAGAGCGGCGGACGGGTGAGTAACGCGTGGACAACCTACCCTGGGGTACGGGATAACACTTCGAAAGGGGTGCTAATACCGTATG >4434148 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGGAGATATTTGGAGTACTTGTACAAAGGATATCTTAGCGGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >838203 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCAAGGAGAACATCCCGCTTGCGGGATTATTAAACTGGCGAACGGGTGAGTAACGCGTAGGTAACTTGCCTTAAAGTTTGGGATAACTTTGGGAAACTGGAGCTAATACCGGATAA >4434769 AATCAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGAGAAAGGATGGCAGTAGCAATACTGTCGTCTGAGTAAAGTGGCGAACGGGTGAGTAACACGTAGCTAACCTGCCCTTCAGTGGGGAATAACCCTGCGAAAGTAGAGCTA >4437189 AACGAATGAAGGGGACATGCTTAACACATGCAGTCGAACGGTTGATGTGGTTTTACCTGCATTGATAGTGGCAGACGGGTGAGTAACACGTGGGAACGTACCCTTTAGTTCAGAATAACGTTTGGAAACGGACGCTAATACTGGATAAGC >4437452 GATGAACGCTGGCGGCGTGCTTAATACATGTAAGTCGAACGAGGAGTTTTGCTTCGGTAAATCTCCGAGTGGCGAACGGGTGAGTAACGCGTTGGTGACCTGCCCCGAAGAGGGGGATAACGGCTCGAAAGGGCTGCTAATACCCCATGT >4438565 AGTGAACGCTGGCGGTAGGCCTAACACATGCAAGTCGAACGGCAGCACAGGAGAGCTTGCTCTCTGGGTGGCGAGTGGCGGACGGGTGAGGAAAACGTCGGAATCTGCCTATTTGTGGGGGATAACGTAGGGAAACTTACGCTAATACCG >4441200 AGTGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGTAACAGGTCTTTCGGGATGCTGACGAGTGGCGCACGGGTGAGTAATGGATAGTTACATGCCCCTTGGAGAGGGACAACAGTTGGAAACGACTGCTAATACCTCATATT >4443078 ATTGAACGCTGGCGGCAGGCTTAACACATGCAAGTCGAGCGGTAACAGGTCCTTCGGGATGCTGACGAGCGGCGGACGGGTGAGTAATACATAGGAAACTGCCCAGTAGTGGGGGATAGCCCGGGGAAACCCGGATTAATACCGCGTACG >4443191 ATTGAACGCTGGCGGTAGGCCTAACACATGCAAGTCGAGGGGTAACAGGAGATAGTTTACTATTTTGCTGACGACCGGCGAACGGGTGAGTAACGCGTAGGAATCTGCCTCAAAGCGGGGGATAGCCCGGGGAAACTCGGATTAATACCG >4443888 GATAACGTTGGCTGTGTGCCTAAGGTATGCAAGTCGAACGAATTATTCGTTGAGTGGCAAACGGGTGAGTAACACGTGGAAACCTGCCTTGAAGTCATGAACAGCTCATCGAAAGATGGGATAATACATGATATCTTACATTTAAGTAAG >831195 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGAACCGGACCAAAGATAATGAAGTGTTTACACTGATTTTGATTTGGATCTTCCGGTGAGTGGCGCACGGGTGAGTAACAGGTAGGTAACATGCCCATAAGACGGGGATAA >4445669 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGCAGGAAATCGACGGAACCCTTCGGGGGGAAGTCGACGGAATGANNNNNNNNNNGTTAGGAACGCGTGAGCAACCTGCCCTGTACAGGGGGATAGCCACTGGAAACGGTG >4447353 GACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGCAGGAAATCGACGGAACCCTTCGGGGGGAAGTCGACGGAATGAGCGGCGGACGGGTGAGTAACACGTAAAGAACATGCCATAAGGACGAGAAATCGGGTCTAATACCGG >4447545 AGTTAACGCTGGCGGCGTGCCTAACACATGCAAGTCGGGCGGAATGTTTGGTGTAGCAATACATTGGACATTGAGCGGCAGACGGGTGAGTAACACGTGAGTAACCTACCCTAAAGTGGGGAATAACTTGCCGAAAGGTGAGCTAATACC >715138 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGGACGGCAGCGGGGTAGTGCTTGCACTACTGCCGGCGAGTGGCGAACGGGTGAGTAACATATCGGAACGTACCGAGCAGTGGGGGATAACTAATCGAAAGATTAGCTAATACCG >4450215 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGCGAAAGGGGGGGCAACTCCCCGAGTAGAGCGGCGCACGGGGAGTAACGCGTGGGTAACCTACCTCCGGGCGGGGGATAACCACTCGAAAGGGTGGCTAATACCGCATGA >4450538 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTTTGGTGGTGGGTGGTTAGTGGTTAGTCTTTTGGGGTTTTTCCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4450541 GATAAACGCTAGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGCCTTCGGGTGCTGACGAGTGGCGCACGGGTGCGTAACATGTGTAGAACCTACCTATTACTGGGGCATAGCCCGGAGAAATTTGGATTAACACCCCATATTG >4451743 GATGAACGCTAGCGGGAGGCTTAGCACATGCAAGTCGAGCGGATCTTCATTAGCTTGCTTTTGAAGATCAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTGTAAGACTGGGATAACTTCGGGAAACCGGAGCTAATACCGGAT >4451788 GATGAACGCTAGCGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGAGGGGAGCAATACCTGTCGGCGACCGGCGCAAGGGGGGTGCGTAACGCGTGAGCAACATGCCCGTATCAGGGGGATAATCCAGGGAAACTTGGTCTAATACCC >4452487 ATTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGTAACAGGGAAGCTTGCTCCGCTGACGAGTGGCGAACGGGTGAGTAATGCGTCGGAACGTGCCGAGTAGTGGGGGATAACGCAGCGAAAGTTGTGCTAATACCGCATAC >4453636 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAGTGAAGGAGCTTGCTCTTTCATTTAGTGGCGCACGGGTGAGTAACGCGTAGATAATCTGCCTTGGACTCTGGGATAACATCTCGAAAGGGGTGCTAATACCGGATAA >4453762 GATGAACGCTAGCGGCAGGCCTAATACATGCAAGGCGAAGGGGCAGCAATGTCACTGTCGTACGGGTGCGTAACGCGTATGCAACCTACCTATCACAGGGGAATAGCCTTTGGAAACAGGGATTAATACCGCATAAAGCAGGGGCTCCGC >4456055 GACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCTACGAGAACGAGGTAGCAATATCTTTAGTAAAGTGGCGCACGGGTGCGTAACACGTAAGCAATCTACCTTTGGGTCTGGAATAACTTCGAGAAATCGAGGCTAATACCGGATAA >4456252 GACGAACGCTGGCGGCGTGCGTAACACATGCAAGTCGAACGAGAGAGTGAGAGAAGCTTGCTTTTCTTACGATCGAGTGGCAAACGGGTGAGTAACGCGTAAACAACCTGCCCCGCAGATGGGGACAACAGCTGGAAACGGCTGCTAATA >4457249 GAATAACGCTGGCGGCGTGCCTAAAACATGCAAGTCGAACGGGCGTGCCCGGTGGATGCCGGGAACTACACGCTAGTGGCAAACGAGTGAGTAACACGTAGATGACCTACCTCAAAGTTTGGAATAAGCTCTCGAAAGAGAGTCTAATAC >4457583 AACGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAATGCGACACTATTTTCGAATAGTGTAGCATGGCAGACGGGTGAGTAACGCGTAACCGACCTGTCTCTTGATGGGGGATAGCCCCGCGAAAGCGGGGGTAATACCGCATAAGC >4457672 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGGACTTAGTAAAAAGTTTACTTTTTACTATGTCTAGCGGCGGACGGGTGAGTAACGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATA >4457689 AATAAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGAGAAAGGTCTTCGGACTGAGTAAAGTGGCGAACGGGTGAGNNACGCGTGAGAATCTACCCCTTAGTGAAGAATACCTTCGAGAAATCGAAGTTAATGCTGCATAAGCTC >610967 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGAAGAGTTCCTTCGGGAGTAATTCTAGCGGCGGACGGGTGAGTAACACGTGGGCAACCTGCCTTAGTGAGGGGGATAGCCTCCCGAAAGGGAGATTAATACCGCATAA >4459099 GACGAACGCTGGCGGCGTGCTTCACACATGCAAGTCGAACGGTCCTATCCGGAAGGAACCTTCGGGTGAATTCCGGAGACGGAAAGTGGCGGACGGGTGAGTAACGCGTGGGTAATCTGCCCTCAAGACGGGGATAACTCCGGGAAACCG >4460178 GATGTATAAAAAAAAGGGCAGGCCTAATACATGCAAGCTGAACGGTAAATGTCATAGCAATATAATATGAGAGTAGCGTAAGGGTGCGTAACACGTATGCAATCTACCCGCAACAGGAGGATAGCTCCCCGAAAGGGGAATTAATACTCC >4460596 ATTGAACGCTGGCCGCATGCTTAATACATGCAAGTCGAACGGTAACATTAGGAGCTTGCTCCTAGATGACGAGTGGCGGACGGGTGAGTAATGCATGGAAATCTACCTTTCAGCGGGGGGCAGTCCAGAGAAATTTGGTTTAATACCGCA >4461435 GATTAACGCTGGCGGTATGTATAATACATGCAAGTCGAACGGCCCTTCGGGGCAGTGGCGAACGGGTGAGGAACACGTTGGAAGTTTCCCAGTACTCAGGGATACCCCGCAGAAATGCGGGTTAATACCGGATGGTCTCGTAAGAGTAAA >4461437 GACTAACGTTGGCGACGTGCCTAACACATGCAAGTCGAGCGATCTTTATGATAGCGGCGGACGGCTGAGTAACACGTCCGTAACCTACCTCCGAGTGGGGCATAGCTCGTCGAAAGACGGGGTAATACCCCATAATATCCCTTCATAATT >4462642 AGTGAACGCTGGCGGCATGCTTTACACATGCAAGTCGAACGGTAACAGGGGCTTCGGCCTGCTGACGAGTGGCGAACGGGGGAGTAATGCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4462692 GATGAACGCTGGCGGCGTGCCTCATACATGCAAGTCGGACGGATTTAATAGTGTAGCAATATATTGTTAGATTAGTGGCGAACGGGTGAGTAACACGTAGCTAACCTACCCTAAAGTCTGGGATAACATACCGAAAGGGATGCTAATACC >4463320 AACGAACGCTGGCGGCAGGCCTAGCACATGCAAGTCGAGGGAGAAGCTGGCTTCGGCCAGGGGACACCGGCGCACGGGTGAGTAACGCGTGGGAATATACACTCAGGTAAGGGATAACGTCGGGAAACCGGCGCTAATACCTTATAACAT >4463838 GATGAACGCTAGCGACAGGCTTAACACATGCAAGTCGAGGGGTAACATGAGAGCTTGCTTTCGATGACGACCGGCGAACGGGTGCGTAACGCGTATGGAACCTGCTCTTTACAGGAGGATAGCCTTAAGAAATTGGGATTAATACTCCAT >4464557 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAAGATCTAGCTTGCTAGATCTTAGTGGCGAACGGGTGAGTAATACATAAATAATCTGCCCATTGGACTGGGATAACTATTGGAAACGATAGCTAATACCGGATAAGTGA >4464638 GACGAACGTTGGCGGCGTGCTTAACACATGCAAGTCGAGCGGTTGAGAGGTGGGAGTTGAGAAGTTAGAAGTGTGAGAAATGACGGGTGAGTAACGCGTGGATAATCTGCCTGTAAGACAGGGATAACGCCGGGAAACCGGTGCTAATAC >4464639 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGGAAATAAGCTCTAAGCTTGCTTAGAGCGAGTTTTAGTGGCGTTTTAGTGGCGGACGGGTGAGTAACGCGTGGGTAACCTACCCATAAACCCGGGACAACCCTTGGAAAC >4466255 GATGAATGCTGGTGGTGTGCCTAATACATGCAAGTCGAACGAGAAAGTTCCTTCGGGGATGATTAAAGTGGCGAACGGGTGAGTAACATGTAGATAATATGCCCTCAGGTGGGGGATAACCAAGCGAAAGCTTGGCTAATACCGCATAAG >4466628 ATTGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGCGAAAGAGGGGCAACTCTCGAGTAGAGTGGCGGACGGGGGAGTAATACGTAGGAATCTACCCTAGAGTGGGGGATAACCTGCCGAAAGGCGGGCTAATACCGCATAATC >4467031 GATGAACGCTAGTGGCAGGCTTAACACATGCAAGTCGAGGGGCAGCGCGAGTAGCAATACTTGGCGGCGACCGGCGCAAGGGTGCGTAACACGTGAGTAACATACCTGTATCAGGGGAATAAGCCATGGAAACGTGGTCTAAAACCGCAT >4467085 GGTGAACGTTGGCGGCGTGCCTAAGGTATGCAAGTCGAACGGTTCTTTTAGTTTTTTATGCTTATGTGTATTAAACTTAAAGAATAGTGGCAAACGGGTGAGTAACGCGTAGATAATCTACCTCGAAGATGGGGATAGCTCGCCGAAAGG >4467331 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGATGAAATCCTTCGGGATGGATTAGCGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCTCAAAGAGGGGAATAGCCTTCCGAAAGGAAGATTAATACCGCATAATATG >4467510 GATTAACGCTTGCGGCATGCCTAATACATGCAAGTCGAACGGAAAATATAGAAGTGCTTGCACATTTATATTTTTAGTGGCGAACGGGTGAGTAATATATAGATAACCTACCTTCCAGTTGGGGATAACAGAGGGAAACTTCTGCTAATA >4468051 GATGAACGCTAGCTACAGGCTTAACACATGCAAGTCGAGCGGTATGTGCTTTAGTGCATACAGCGGCAGACGGGTGAGTAACACGTATCTAACCTTCCCCTTACTTGGGCATAGCCTCTGGAAACGGAGATTAATTTCCGATGTGGTGTA >4468374 GACGAACGCTGGCGGCATGCCTAACACATGCAAGTCGAACGGAAGTAGCAATACTTTAGTGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCCTGTACTACGGGATAACTCCGAGAAATTGGAGATAATACGGTATATGACCACACTG >4468519 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTACGTGAAAGTTTCCTTCGGGAGGCAAGTAGCGTGGCAAATGGGTGAGTAACACGTGGGTAACCTACCTGAAGGAGGGGGATAACCCCGGGAAACTGGGGATAATACCCTATG >4468758 GACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGGGAGAAAGTCCTCTTCGGAGGGCGAGTAAACCGGCGCACGGGTGCGTAACACGTAGGCAACCTACCCTTTGGACGGGGATAACTTCGGGAAACCGGGGCTAATACCCGATG >4468811 AACGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGTACGAGAAACACGTCCTTCGGGATGTGGAGTAAAGTGGCGCACGGGTGAGTAACACGTGGGTAACCTGCCCTGGGGTCCGGGATAACTGGCCGAAAGGCCCGCTAATACCGGA >4469057 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGTAACAGGAAGTAGCTTGCTACTTTGCTGACGAGTGGCGCACGGGTGAGTAAACTATAGTTAATGTGCCTCGAAGACTGGGATAGCCACTGGAAACGGTGATTAATACT >4469487 ATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAGCGGTAACAGAAATTAGCTTGCTAATTTGCTGACGAGCGGCGGACGGGTGAGTAATGCCTGGGAATATGCCTTAGTGTGGGGGATAACTATTGGAAACGATAGCTAATACCG >4469652 AGTGAACTATAGCGGCGGGCCTAACACATGCAAGTCGAGCGCTCACTTCGGTGAGAGCGGCGAACGGGTGAGTAACACGTAGGTAATCTACCCTCTGGTGGGGAATAACCCGGGGAAACCCGGACTAATACCGCATATGGTCTACGGATC >4470190 GACGAACGCTGGCGGCGTGCTTAAGACATGCAAGTCGAGCGAAGCGCTTTGCTTGAAGCTTCGGTGGATAGCAAAGTTGCTTAGCGGCGGACGGGTGAGTAACACGTGGATAACCTGCCCTCAAGTTCGGGACGACCAGTCGAAAGACGG >4470867 GACGAACGCTGGCGGCGCGCTTAACACATGCGAGTTGAACGCTCCGCCCTCTACTGCCCTTCGGGGCAGAAGAGGATTACGGAGAGTAGCGGACGGGTGAGTAACGCGTAGGTAACCTGCCCTGAAGAGGAGAATAACCCTGCGAAAGCG >4471847 GACGAACGCTGGCGGCGTGCCTCAGACATGCAAGTCGTACGGGGCAGCGCAAGCTGCTTAGTGGCGGACGGGTGAGTAACACGTGGGCAATCTGCCCTCATGACCGGGATAACACTTCGAAAGGGGTGCTAATACCGGATGATGTTAGTG >4472833 GATGAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGACCATTTCGGTGGTAAGTGGCGAACGGGTGAGTAACACGTAGGTAACATATCCATACGACGAGGATAACGGCTGGAAACGGCTGCTAAGACTGGATAGGAATATAGGA >4474173 GATTAACGCTGGCGGTACGTCTAATACATGCAAGTCGAACGGACACTTCGGTGTCAGTGGCGAACGGGTGAGTAACACGTAGGTAACCTGCCCTTAAGACGGGGATAACTTTTGGAAACGAAAGCTAATACCGGATTGAAAGTAGAATAG >4474226 AGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAACGGAGCAATCCTAGTAAAGTGGCGTACGGGTGAGTAACACGTAGGTAATCTACCTTACAGTTCGGAATAACCTGACGAAAGTCGGGCTAATACTGGATAGAGCGA >4474227 AGTGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGCGAAAGTGGAGCAATCCATGAGTAGAGTGGCGAACGGGTGAGTAAAGTGTGGGTAATTTGCCTTCCAGAGGGGGATAACCCGGCGAAAGCTGGGCTAAAACCGCGTAAC >4475573 AATGAACGTTGGCGGCATGGATTAGGCATGCAAGTCGAGCGAGAAGGAAACCAAAGTTTACTTTGGTTTCCGGAAAGCGGCGGAAGGGAGAGTAACGAGTAGTTATCTACCCCAAGGCCCGGAATAGCTGCGGGAAACTGCAGGTAATGC >4475689 AGCGAACGCTGGCGGCGTGCTTAACACATGCAAGTCGAACGGATCCGGGGGGCAACCCTCGGGTTAGTGGCGAACGGGTGAGTAACACGTGGGTAATCTCCCCCCGAGTGAGGGATAAGCTTGCGAAAGCGGGTCTAATACCGCATGACG >4476462 GATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGATCGCACTACTTCGGTAGTGAGAGGCGAACGGGTGAGTAACACGTAGGTAACATATCTATATGACGAGGATAACGGTTGGAAACGACTGCTAAGACTGGATAGGAGTAGAGGA >4476738 AATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGGATGTGCCCGCAAGGGTGCATGGCAGACGGGTGAGTAACGCGTGGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4476741 GATGAACGCTGGCGGCGTGCCTAACGCATGCAAGTCGTGCGGGTAGACCTTCGGGTCTGCCAGCGGCGAACGGGTGAGTAACACGTGGGTAACCTGCCGTCTGGTGGGGGATAACCCTCAGAAATGGGGGCTAATACCGCATGATGATCC >4477309 GATGAACGCTAGCGGCGCGCCTAATACATGCAAGTCGAGCGAGAAAGCTGTGAACCGCAAGGGGATCGGCGAGTAAAGCGGCGAACGGGTGAGTAACACGTAACTAACCTACCCTCAGGACGGGCACAACTCCGGGAAACCGGGGCTAAT >4477561 GATGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAGCGAGATTTAGTGGAGTGGAGACTTCGGTCAAAGTGAAGCTAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN >4478993 GATGAACGCTAGCGATAGGCCTAACACATGCAAGTCGAGGGGCATCACATGAGGTAGCAATACCGATGGTGGCGACCGGCGCACGGGTGAGTAACACGTATGCAACCTGCCTTCAACAAGGGGATAACCCGTTGAAAGACGGACTAATAC >4478995 GACGAACGCTGGCGGCGCGCCTAACACATGCAAGTCGAGCGCGAACGGGGGGCAACCCCCTAGTAGAGCGGCGCAAGGGTGAGTAACACGTGGGTAACCTGCCCTCGGGTGGGGGATAACACCTCGAAAGGGGTGCTAATACCGCATGAG >4479575 AGCGAACGCTGGCGGCGTGCCTAACACATGCAAGTCGAACGTGAAATGGGGCAACCCAAAGTAAAGTGGCGTACGGGTGAGTAACACGTAGGTAATCTACCTGAGAGTTTGGAATAACCTGCCGAAAGGCGGGCTAATACCAGATAGAGC >4480618 AGCGAACGTTAGCGGCGGGCTTAACACATGCAAGTCGAACGAGAAAGCGTCCTTCGGGGCATAAGTAAAGTGGCGCACGGGTGAGTAACACGTGGGTAACCTGCCCTCAAGCGCGGAATAACAGTCCGAAAGGATTGCTAATACCGCATA >4481596 GATGAACGCTGGCGGCATGCTTCATACATGCAAGTCGAGCGATCGGACACGGGAAGCTTGCTTCCTGTGTTACGGAGCGGCGAACGGGTGAGTAACACGTGAGCAACCTGCCTCGATGACGGGGATAACCGCGGGAAACCGTGGCTAATA >4481623 GATGAACGCTGGCAGCGTGCCTAATACATGCAAGTCGTGCGGAAAGGTCCAGCACCAAGTTTTCGATATTTTGTTCGTGGCTACGAACGTATGAGTTCTAATTATCAGAACCGTATCGAAAGTCTGGTGTTGGATACTCGAGCGGCGGAC >4481625 AATGAACGCTGGTGGAGTGCCTTATACATGCAAGTCGAGTGAGGCTTCGAGCCGAGCGGCGGACGGGTGAGTAACGCGTGAATAACCTGCCCTGCAGTGGGGAACAACCTTCCTAACGGAGGGCTAATGCCGCATATTGAACGGAGCTTC >4483095 GACGAACGCTGGCGGCATGCTTAACACATGCAAGTCGAACGAATTTGGTTCTTCGGAACCAGGTAAGTGGCGAACGGGTGAGTAATATATGAGCAACCTGCCTCTGTCAACGGGATAACAAGTGGAAACGCTTGCTAATACCGTATATGA >4483957 GATCAACGCTGGCGGCGTGCCTAATGCATGCAAGTCGAACGGGGTCCTTTCGGGGACTTACGTGGCGGACGGGTGAGGAACACGTGGGCAAGCTGGCCTGAGGTGGGGGGTAGCCCTCGGAAACGGGGGGTAATTCCGCATGTGCCCGCG q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/data/taxonomy.tsv000077500000000000000000015633061411645176200270210ustar00rootroot00000000000000Feature ID Taxon 229854 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Legionellaceae; g__Legionella; s__ 367523 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__Flavobacterium; s__ 239330 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Geobacteraceae; g__Geobacter; s__ 203525 k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ 148318 k__Bacteria; p__ZB3; c__; o__; f__; g__; s__ 340276 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 289157 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 734928 k__Archaea; p__Euryarchaeota; c__DSEG; o__104A5; f__; g__; s__ 4109984 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 1787797 k__Bacteria; p__Bacteroidetes; c__SM1A07; o__; f__; g__; s__ 2855860 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 511554 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__ 199828 k__Bacteria; p__Planctomycetes; c__OM190; o__agg27; f__; g__; s__ 4437124 k__Bacteria; p__Lentisphaerae; c__[Lentisphaeria]; o__Z20; f__R4-45B; g__; s__ 4457583 k__Bacteria; p__; c__; o__; f__; g__; s__ 4434148 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 555433 k__Bacteria; p__Acidobacteria; c__PAUC37f; o__; f__; g__; s__ 514182 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__Acidaminococcus; s__ 203529 k__Bacteria; p__OD1; c__SM2F11; o__; f__; g__; s__ 114798 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 4349619 k__Bacteria; p__Elusimicrobia; c__; o__; f__; g__; s__ 275216 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 2626509 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 296752 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__ 1963518 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Enterobacteriales; f__Enterobacteriaceae; g__; s__ 201026 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Pirellulales; f__Pirellulaceae; g__; s__ 4475735 k__Bacteria; p__WS6; c__; o__; f__; g__; s__ 88715 k__Bacteria; p__Chloroflexi; c__SAR202; o__; f__; g__; s__ 225584 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__ 1109948 k__Bacteria; p__Planctomycetes; c__[Brocadiae]; o__Brocadiales; f__W4; g__; s__ 317368 k__Bacteria; p__GN02; c__GN07; o__; f__; g__; s__ 4434377 k__Bacteria; p__[Thermi]; c__Deinococci; o__Deinococcales; f__Trueperaceae; g__GBI-58; s__ 587612 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Sphingomonadales; f__Sphingomonadaceae; g__Kaistobacter; s__ 575033 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Coxiellaceae; g__; s__ 701453 k__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__; g__; s__ 818177 k__Bacteria; p__Verrucomicrobia; c__; o__; f__; g__; s__ 3510823 k__Bacteria; p__Planctomycetes; c__vadinHA49; o__PeHg47; f__; g__; s__ 220200 k__Bacteria; p__Acidobacteria; c__Solibacteres; o__Solibacterales; f__; g__; s__ 4304655 k__Bacteria; p__Spirochaetes; c__[Brachyspirae]; o__[Brachyspirales]; f__Brachyspiraceae; g__; s__ 3106714 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__WD2101; f__; g__; s__ 4437452 k__Bacteria; p__AC1; c__TA06; o__; f__; g__; s__ 1132537 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__DRC31; f__; g__; s__ 196131 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Odoribacteraceae]; g__Odoribacter; s__ 37026 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__; s__ 745583 k__Bacteria; p__Chloroflexi; c__C0119; o__; f__; g__; s__ 1111561 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__ 294913 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 528758 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__ 346141 k__Bacteria; p__Firmicutes; c__Clostridia; o__; f__; g__; s__ 537908 k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__; g__; s__ 348942 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 183870 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__Bacteroides; s__uniformis 4440541 k__Bacteria; p__LD1; c__; o__; f__; g__; s__ 154242 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Methylobacteriaceae; g__Methylobacterium; s__ 833480 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 4443384 k__Bacteria; p__Chloroflexi; c__TK17; o__mle1-48; f__; g__; s__ 4337276 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 219508 k__Archaea; p__[Parvarchaeota]; c__[Micrarchaea]; o__[Micrarchaeles]; f__; g__; s__ 4340753 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__; f__; g__; s__ 161484 k__Bacteria; p__NPL-UPA2; c__; o__; f__; g__; s__ 4314576 k__Bacteria; p__WWE1; c__[Cloacamonae]; o__[Cloacamonales]; f__MSBL8; g__; s__ 200061 k__Bacteria; p__Chloroflexi; c__TK17; o__; f__; g__; s__ 2059049 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 586980 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 3445546 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__GMD14H09; f__; g__; s__ 1113857 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 40435 k__Bacteria; p__Bacteroidetes; c__Sphingobacteriia; o__Sphingobacteriales; f__Sphingobacteriaceae; g__Pedobacter; s__cryoconitis 2101989 k__Bacteria; p__Planctomycetes; c__vadinHA49; o__p04_C01; f__; g__; s__ 1126466 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 4404098 k__Bacteria; p__Lentisphaerae; c__; o__; f__; g__; s__ 1117522 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__DRC31; f__; g__; s__ 4389688 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__Bdellovibrio; s__ 358336 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 1546526 k__Bacteria; p__Verrucomicrobia; c__[Methylacidiphilae]; o__Methylacidiphilales; f__LD19; g__; s__ 614695 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Vibrionales; f__Vibrionaceae; g__Salinivibrio; s__costicola 1939935 k__Bacteria; p__LD1; c__; o__; f__; g__; s__ 4477116 k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ 276155 k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ 756593 k__Bacteria; p__; c__; o__; f__; g__; s__ 1718973 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 1133483 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__Pla1; f__; g__; s__ 4259732 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__Chlamydomonadaceae; g__; s__ 4446818 k__Bacteria; p__Planctomycetes; c__C6; o__d113; f__; g__; s__ 710805 k__Bacteria; p__; c__; o__; f__; g__; s__ 218700 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__MSBL9; f__; g__; s__ 355100 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 4344999 k__Archaea; p__Euryarchaeota; c__Thermococci; o__Thermococcales; f__Thermococcaceae; g__Thermococcus; s__atlanticus 809666 k__Bacteria; p__Proteobacteria; c__TA18; o__PHOS-HD29; f__; g__; s__ 647539 k__Bacteria; p__Actinobacteria; c__MB-A2-108; o__0319-7L14; f__; g__; s__ 4403441 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__Azospirillum; s__amazonense 255056 k__Bacteria; p__Thermotogae; c__Thermotogae; o__Thermotogales; f__Thermotogaceae; g__Thermotoga; s__ 4437717 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__; g__; s__ 2783638 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__[Prevotella]; s__tannerae 211601 k__Bacteria; p__Planctomycetes; c__vadinHA49; o__p04_C01; f__; g__; s__ 201405 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__WCHD3-30; f__; g__; s__ 313925 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 203503 k__Bacteria; p__SR1; c__; o__; f__; g__; s__ 621056 k__Bacteria; p__Actinobacteria; c__; o__; f__; g__; s__ 814343 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 186578 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__ 305251 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 673678 k__Bacteria; p__Bacteroidetes; c__Sphingobacteriia; o__Sphingobacteriales; f__; g__; s__ 4398945 k__Bacteria; p__Proteobacteria; 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k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__; f__; g__; s__ 175290 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; g__Desulfovibrio; s__aminophilus 4439657 k__Bacteria; p__OP11; c__; o__; f__; g__; s__ 320985 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Thermodesulfobacteriales; f__; g__; s__ 4348122 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__Bacteroides; s__ 72653 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__BD7-3; f__; g__; s__ 4355810 k__Bacteria; p__Actinobacteria; c__MB-A2-108; o__0319-7L14; f__; g__; s__ 622298 k__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__; f__; g__; s__ 1927234 k__Bacteria; p__Fusobacteria; c__Fusobacteriia; o__Fusobacteriales; f__Leptotrichiaceae; g__Leptotrichia; s__ 394351 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 536121 k__Bacteria; p__Chloroflexi; c__Anaerolineae; 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s__ 534189 k__Bacteria; p__Planctomycetes; c__Pla3; o__; f__; g__; s__ 4391715 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__Anoxybacillus; s__kestanbolensis 4343117 k__Bacteria; p__Acidobacteria; c__DA052; o__Ellin6513; f__; g__; s__ 589869 k__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__RB41; f__; g__; s__ 2412762 k__Bacteria; p__BHI80-139; c__; o__; f__; g__; s__ 788933 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 4350647 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 183186 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__ 2751331 k__Bacteria; p__WS5; c__; o__; f__; g__; s__ 111066 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 277534 k__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermoanaerobacteraceae; g__Thermacetogenium; s__ 66908 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SJA-15; f__; g__; s__ 233435 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 19343 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__; s__ 2474588 k__Bacteria; p__Planctomycetes; c__ODP123; o__T8-B82; f__; g__; s__ 215748 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__mle1-8; f__; g__; s__ 292052 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Paludibacter; s__ 1133974 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 1118788 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__EB1017; g__; s__ 2538454 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Spirochaeta; s__thermophila 2679838 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 4407763 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__Blvii28; s__ 334562 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; 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p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 273494 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 224604 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__Trebouxiophyceae; g__; s__ 1663 k__Bacteria; p__OP3; c__koll11; o__; f__; g__; s__ 4377536 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Trebouxia; s__aggregata 671478 k__Bacteria; p__Acidobacteria; c__Acidobacteriia; o__Acidobacteriales; f__Koribacteraceae; g__; s__ 182617 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 338228 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Pirellulales; f__Pirellulaceae; g__; s__ 104933 k__Bacteria; p__Chloroflexi; c__Gitt-GS-136; o__; f__; g__; s__ 4415409 k__Bacteria; p__Spirochaetes; c__[Brachyspirae]; o__[Brachyspirales]; f__A0-023; g__; s__ 142489 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__Anaplasmataceae; g__Anaplasma; s__ 748865 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 2608395 k__Bacteria; p__BRC1; c__PRR-11; o__; f__; g__; s__ 269494 k__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__; g__; s__ 201574 k__Bacteria; p__WS6; c__SC72; o__WCHB1-15; f__; g__; s__ 819316 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Saprospiraceae; g__; s__ 4472833 k__Bacteria; p__Firmicutes; c__OPB54; o__; f__; g__; s__ 236789 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Neisseriales; f__Neisseriaceae; g__; s__ 525692 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 4461640 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Caldilineales; f__; g__; s__ 4299233 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfurispora; s__ 810148 k__Bacteria; p__Acidobacteria; c__BPC102; o__; f__; g__; s__ 538535 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 42311 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 4308610 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodobacterales; f__Rhodobacteraceae; g__Rhodobaca; s__ 250032 k__Bacteria; p__Gemmatimonadetes; c__; o__; f__; g__; s__ 4380628 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__DTB120; f__; g__; s__ 344506 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 211527 k__Bacteria; p__OP11; c__OP11-3; o__; f__; g__; s__ 4423706 k__Bacteria; p__Tenericutes; c__Mollicutes; o__; f__; g__; s__ 4472239 k__Bacteria; p__Chlorobi; c__OPB56; o__; f__; g__; s__ 551008 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__; s__ 586123 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__; s__ 4024554 k__Bacteria; p__Gemmatimonadetes; c__Gemm-3; o__; f__; g__; s__ 4298545 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Chitinophagaceae; g__; s__ 1136729 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__OM27; g__; s__ 4479442 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Planctomycetales; f__Planctomycetaceae; g__Planctomyces; s__ 255255 k__Bacteria; p__Chlorobi; c__; o__; f__; g__; s__ 192234 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 202949 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 79590 k__Bacteria; p__Thermotogae; c__Thermotogae; o__Thermotogales; f__BHI80-139; g__; s__ 592283 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Alicyclobacillaceae; g__; s__ 2776987 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__ 235447 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__; s__ 273970 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__SB-1; g__; s__ 247616 k__Bacteria; p__Chloroflexi; c__SAR202; o__; f__; g__; s__ 4428386 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__Megasphaera; s__ 813266 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__HOC36; f__; g__; s__ 4331274 k__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__; g__; s__ 3553390 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Anaerolineales; f__Anaerolinaceae; g__; s__ 170175 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Cercozoa; f__Chlorarachniophyceae; g__; s__ 524093 k__Bacteria; p__PAUC34f; c__; o__; f__; g__; s__ 806709 k__Bacteria; p__Chloroflexi; c__Chloroflexi; o__Chloroflexales; f__Chloroflexaceae; g__Chloroflexus; s__ 543902 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Eubacteriaceae; g__Anaerofustis; s__ 191464 k__Bacteria; p__Bacteroidetes; c__Sphingobacteriia; o__Sphingobacteriales; f__Sphingobacteriaceae; g__; s__ 298327 k__Archaea; p__Euryarchaeota; c__Thermoplasmata; o__E2; f__; g__; s__ 495086 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Porphyromonas; s__ 553035 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 3802889 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 265986 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 177545 k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Helicobacteraceae; g__Sulfurimonas; s__ 4383469 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__; f__; g__; s__ 21860 k__Bacteria; p__TM7; c__; o__; f__; g__; s__ 557504 k__Bacteria; p__Chloroflexi; c__Chloroflexi; o__AKIW781; f__; g__; s__ 3383796 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Dictyota; s__dichotoma 547795 k__Bacteria; p__[Thermi]; c__Deinococci; o__Thermales; f__Thermaceae; g__Meiothermus; s__ 4332975 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__H39; f__; g__; s__ 609266 k__Archaea; p__Crenarchaeota; c__MCG; o__; f__; g__; s__ 337359 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 935123 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 3802887 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 44156 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Oxalobacteraceae; g__Cupriavidus; s__ 733181 k__Bacteria; p__Verrucomicrobia; c__Verruco-5; o__LD1-PB3; f__; g__; s__ 819753 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Acidithiobacillales; f__; g__; s__ 2313484 k__Bacteria; p__BRC1; c__PRR-11; o__; f__; g__; s__ 4369590 k__Bacteria; p__Chloroflexi; c__Chloroflexi; o__Chloroflexales; f__[Chlorothrixaceae]; g__; s__ 4447545 k__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__; f__; g__; s__ 4342056 k__Bacteria; p__OD1; c__SM2F11; o__; f__; g__; s__ 158611 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 100328 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 225042 k__Bacteria; 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511139 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Beijerinckiaceae; g__; s__ 819699 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__; g__; s__ 4473186 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Sphingomonadales; f__Sphingomonadaceae; g__Sphingobium; s__ 4478995 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 541699 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__envOPS12; f__; g__; s__ 246898 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Caloramator; s__ 778385 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 1576799 k__Bacteria; p__Caldiserica; c__OP5; o__WCHB1-02; f__SHBZ1169; g__; s__ 165732 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Cryomorphaceae; g__Fluviicola; s__ 3479426 k__Bacteria; p__Firmicutes; c__OPB54; o__; f__; g__; s__ 3166208 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 749805 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Oxalobacteraceae; g__Cupriavidus; s__ 4386728 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 295516 k__Archaea; p__Euryarchaeota; c__Methanomicrobia; o__NRA6; f__; g__; s__ 577179 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__ 4447854 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 578456 k__Bacteria; p__; c__; o__; f__; g__; s__ 296297 k__Bacteria; p__Lentisphaerae; c__[Lentisphaeria]; o__Z20; f__R4-45B; g__; s__ 974905 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__; s__ 3478701 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 633005 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 773965 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__Phycisphaerales; f__; g__; s__ 102747 k__Bacteria; p__Planctomycetes; c__vadinHA49; o__; f__; g__; s__ 166367 k__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__Dehalococcoidales; f__; g__; s__ 4326101 k__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermoanaerobacterales Family III. Incertae Sedis; g__; s__ 569101 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__; s__ 2910382 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 824619 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; g__; s__ 4468374 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 1148064 k__Bacteria; p__Gemmatimonadetes; c__Gemmatimonadetes; o__; f__; g__; s__ 110393 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Procabacteriales; f__Procabacteriaceae; g__; s__ 108124 k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Helicobacteraceae; g__; s__ 94710 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__NB1-j; f__; g__; s__ 590445 k__Bacteria; p__Verrucomicrobia; c__[Pedosphaerae]; o__[Pedosphaerales]; f__OPB35; g__; s__ 1129860 k__Bacteria; p__KSB3; c__; o__; f__; g__; s__ 818161 k__Bacteria; p__OP1; c__[Acetothermia]; o__[Acetothermales]; f__; g__; s__ 552696 k__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__Elusimicrobiales; f__Elusimicrobiaceae; g__; s__ 265995 k__Bacteria; p__Spirochaetes; c__GN05; o__SBYZ_6080; f__; g__; s__ 1141035 k__Archaea; p__Euryarchaeota; c__Methanomicrobia; o__Methanomicrobiales; f__Methanomicrobiaceae; g__Methanogenium; s__ 4267879 k__Bacteria; p__OP3; c__BD4-9; o__; f__; g__; s__ 201959 k__Archaea; p__Euryarchaeota; c__DSEG; o__104A5; f__; g__; s__ 592425 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; g__; s__ 4429635 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Gracilibacteraceae; g__; s__ 292709 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 346735 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Caulobacterales; f__Caulobacteraceae; g__Mycoplana; s__ 303326 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 567229 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 206088 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__; s__ 259321 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__; s__ 810586 k__Bacteria; p__TPD-58; c__; o__; f__; g__; s__ 290018 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__bromii 4335321 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__ 4401161 k__Bacteria; p__TM6; c__; o__; f__; g__; s__ 2215035 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophobacteraceae; g__; s__ 4431779 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 3589625 k__Bacteria; p__GN02; c__GN10; o__; f__; g__; s__ 4445042 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__Bdellovibrio; s__ 314853 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Mogibacteriaceae]; g__; s__ 809675 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__; g__; s__ 4341659 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophobacteraceae; g__; s__ 613393 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 1127097 k__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__RB41; f__; g__; s__ 537316 k__Bacteria; p__Verrucomicrobia; c__[Methylacidiphilae]; o__; f__; g__; s__ 4325496 k__Bacteria; p__Chlamydiae; c__Chlamydiia; o__Chlamydiales; f__; g__; s__ 203013 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Alteromonadales; f__; g__; s__ 202294 k__Bacteria; p__OP3; c__koll11; o__GIF10; f__; g__; s__ 815460 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Thiotrichales; f__Piscirickettsiaceae; g__Piscirickettsia; s__ 605304 k__Bacteria; p__Chloroflexi; c__SAR202; o__; f__; g__; s__ 244729 k__Bacteria; p__GN04; c__GN15; o__; f__; g__; s__ 258203 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 4450541 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__; s__ 957126 k__Bacteria; p__GN02; c__GN10; o__; f__; g__; s__ 203339 k__Bacteria; p__LD1; c__; o__; f__; g__; s__ 819696 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__; f__; g__; s__ 244423 k__Archaea; p__Crenarchaeota; c__MBGA; o__; f__; g__; s__ 4333552 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__; s__ 1142745 k__Bacteria; p__LCP-89; c__; o__; f__; g__; s__ 4358278 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 510608 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Rhodocyclales; f__Rhodocyclaceae; g__; s__ 254199 k__Bacteria; p__GN04; c__; o__; f__; g__; s__ 544631 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__Dyadobacter; s__ 810721 k__Bacteria; p__Verrucomicrobia; c__[Pedosphaerae]; o__Arctic97B-4; f__; g__; s__ 807929 k__Bacteria; p__BRC1; c__NPL-UPA2; o__; f__; g__; s__ 4459359 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__; s__ 326921 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 145658 k__Bacteria; p__Chloroflexi; c__SAR202; o__; f__; g__; s__ 2529078 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Acidaminobacteraceae]; g__Guggenheimella; s__ 333453 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 574219 k__Bacteria; p__GN02; c__IIB17; o__; f__; g__; s__ 620479 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Alcaligenaceae; g__; s__ 211848 k__Bacteria; p__Bacteroidetes; c__Sphingobacteriia; o__Sphingobacteriales; f__; g__; s__ 302639 k__Bacteria; p__FCPU426; c__; o__; f__; g__; s__ 2012210 k__Bacteria; p__Fibrobacteres; c__TG3; o__TG3-1; f__; g__; s__ 809180 k__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__FS117-23B-02; f__; g__; s__ 4351087 k__Bacteria; p__Firmicutes; c__Clostridia; o__Thermoanaerobacterales; f__Thermoanaerobacterales Family III. Incertae Sedis; g__; s__ 4294447 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfosporosinus; s__meridiei 2610087 k__Bacteria; p__OP3; c__koll11; o__GIF10; f__kpj58rc; g__; s__ 132390 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__; g__; s__ 813052 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__; s__ 340817 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 742444 k__Bacteria; p__OP1; c__KB1; o__; f__; g__; s__ 4354577 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptostreptococcaceae; g__; s__ 316765 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Streptococcaceae; g__Streptococcus; s__ 185940 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 550349 k__Bacteria; p__GN02; c__3BR-5F; o__; f__; g__; s__ 1564759 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__; s__ 1143228 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Paenibacillaceae; g__Saccharibacillus; s__kuerlensis 4423358 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__Xanthomonadaceae; g__Stenotrophomonas; s__maltophilia 4351085 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__; s__ 576962 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 181986 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 651369 k__Bacteria; p__OP8; c__OP8_1; o__; f__; g__; s__ 822562 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__; f__; g__; s__ 182893 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 349441 k__Bacteria; p__Fusobacteria; c__Fusobacteriia; o__Fusobacteriales; f__; g__; s__ 3329938 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__[Cerasicoccales]; f__[Cerasicoccaceae]; g__; s__ 4432429 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__Puniceicoccales; f__Puniceicoccaceae; g__; s__ 113368 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 227130 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__SHA-43; f__; g__; s__ 237144 k__Bacteria; p__OD1; c__Mb-NB09; o__; f__; g__; s__ 4316632 k__Bacteria; p__Acidobacteria; c__EC1113; o__; f__; g__; s__ 232590 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bacteriovoracaceae; g__; s__ 645717 k__Bacteria; p__[Thermi]; c__Deinococci; o__Deinococcales; f__Deinococcaceae; g__CM44; s__ 536761 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Gemmatales; f__Gemmataceae; g__; s__ 141010 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 4374051 k__Bacteria; p__Acidobacteria; c__S035; o__; f__; g__; s__ 304089 k__Bacteria; p__Actinobacteria; c__Thermoleophilia; o__Solirubrobacterales; f__Patulibacteraceae; g__; s__ 624542 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__Bulleidia; s__ 3040339 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Spirochaeta; s__ 3431066 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__; s__ 160813 k__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__[Thermodesulfovibrionaceae]; g__BD2-6; s__ 238585 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodobacterales; f__Hyphomonadaceae; g__; s__ 546278 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 158266 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfobacterales; f__Desulfobulbaceae; g__; s__ 308972 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__Prevotella; s__ 164784 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__; g__; s__ 4415339 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfomicrobiaceae; g__; s__ 515151 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__; s__ 4344032 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__WCHD3-30; f__; g__; s__ 406361 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Pseudomonadaceae; g__Pseudomonas; s__ 257898 k__Bacteria; p__Elusimicrobia; c__; o__; f__; g__; s__ 4470595 k__Bacteria; p__[Thermi]; c__Deinococci; o__Deinococcales; f__Trueperaceae; g__; s__ 290285 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__p-75-a5; s__ 2669164 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 242647 k__Bacteria; p__Aquificae; c__Aquificae; o__Aquificales; f__Hydrogenothermaceae; g__; s__ 518530 k__Bacteria; p__Verrucomicrobia; c__[Methylacidiphilae]; o__Methylacidiphilales; f__; g__; s__ 2336905 k__Bacteria; p__Spirochaetes; c__GN05; o__LH041; f__; g__; s__ 346062 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__C111; g__; s__ 4437875 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 613161 k__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__; g__; s__ 261254 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Aeromonadales; f__Succinivibrionaceae; g__; s__ 207662 k__Bacteria; p__Chloroflexi; c__; o__; f__; g__; s__ 592376 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 99204 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Halomonadaceae; g__Candidatus Portiera; s__aleyrodidarum 4312690 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 1718272 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Tremblayales; f__Tremblayaceae; g__; s__ 148047 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__Rickettsiaceae; g__; s__ 150483 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 4415819 k__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__[Thermodesulfovibrionaceae]; g__; s__ 142268 k__Bacteria; p__OP11; c__; o__; f__; g__; s__ 262657 k__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__[Balneolaceae]; g__Balneola; s__ 426860 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 4345542 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 1141209 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__; f__; g__; s__ 545371 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Lactobacillaceae; g__Lactobacillus; s__ 4470457 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__bromii 328866 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 615581 k__Archaea; p__Euryarchaeota; c__Methanomicrobia; o__Methanosarcinales; f__ANME-2c; g__; s__ 273071 k__Bacteria; p__Kazan-3B-28; c__; o__; f__; g__; s__ 322376 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 4443068 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Enterobacteriales; f__Enterobacteriaceae; g__; s__ 203101 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Endozoicimonaceae; g__; s__ 198577 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__[Ruminococcus]; s__ 303114 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Planococcaceae; g__Solibacillus; s__ 1122791 k__Archaea; p__Euryarchaeota; c__Methanomicrobia; o__; f__; g__; s__ 244224 k__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__Elusimicrobiales; f__; g__; s__ 4251079 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Lardizabala; s__biternata 4298209 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Rhodocyclales; f__Rhodocyclaceae; g__; s__ 563037 k__Bacteria; p__SAR406; c__AB16; o__SSW63Au; f__; g__; s__ 2107103 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Pavlova; s__lutheri 4385854 k__Bacteria; p__OP8; c__OP8_1; o__HMMVPog-54; f__; g__; s__ 225404 k__Bacteria; p__OP11; c__OP11-3; o__; f__; g__; s__ 815435 k__Archaea; p__Euryarchaeota; c__DSEG; o__104A5; f__; g__; s__ 180430 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Barnesiellaceae]; g__; s__ 696036 k__Bacteria; p__Tenericutes; c__Mollicutes; o__Anaeroplasmatales; f__Anaeroplasmataceae; g__Asteroleplasma; s__ 3759992 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 2954930 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 1972691 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__; f__; g__; s__ 3738841 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__SHUX583; f__; g__; s__ 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g__; s__ 4447857 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 211821 k__Bacteria; p__Verrucomicrobia; c__[Pedosphaerae]; o__[Pedosphaerales]; f__; g__; s__ 305384 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__Streptomycetaceae; g__Streptomyces; s__ 340778 k__Bacteria; p__EM3; c__; o__; f__; g__; s__ 4299768 k__Bacteria; p__GN02; c__BD1-5; o__; f__; g__; s__ 142736 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__; s__ 292203 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Leuconostocaceae; g__; s__ 50 k__Archaea; p__Euryarchaeota; c__Thermoplasmata; o__E2; f__DHVEG-1; g__; s__ 269674 k__Bacteria; p__Verrucomicrobia; c__Verruco-5; o__WCHB1-41; f__RFP12; g__; s__ 527437 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__[Prevotella]; s__ 227321 k__Bacteria; p__Fibrobacteres; c__TG3; o__TG3-2; f__M2PB4-14; g__; s__ 4178757 k__Bacteria; p__Planctomycetes; 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k__Bacteria; p__Planctomycetes; c__028H05-P-BN-P5; o__; f__; g__; s__ 727781 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Thiotrichales; f__Thiotrichaceae; g__Thiothrix; s__ 4361225 k__Archaea; p__Crenarchaeota; c__MCG; o__; f__; g__; s__ 323706 k__Bacteria; p__Proteobacteria; c__; o__; f__; g__; s__ 153593 k__Bacteria; p__OP8; c__; o__; f__; g__; s__ 246403 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 578447 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 558742 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 543286 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 4374514 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__Phycisphaerales; f__; g__; s__ 3027156 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 1134440 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 159805 k__Archaea; p__Crenarchaeota; 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o__Flavobacteriales; f__; g__; s__ 293434 k__Bacteria; p__LD1; c__; o__; f__; g__; s__ 2269127 k__Bacteria; p__OP11; c__OP11-4; o__; f__; g__; s__ 260039 k__Bacteria; p__BHI80-139; c__; o__; f__; g__; s__ 527288 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__; s__ 559231 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__; f__; g__; s__ 2468659 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 645781 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Sva0853; f__JTB36; g__; s__ 749636 k__Bacteria; p__MVP-21; c__; o__; f__; g__; s__ 239138 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 103462 k__Bacteria; p__OP11; c__WCHB1-64; o__; f__; g__; s__ 170145 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SHA-20; f__; g__; s__ 139337 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 297503 k__Bacteria; p__Firmicutes; c__Clostridia; 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179300 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Moraxellaceae; g__; s__ 144625 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Halomonadaceae; g__Haererehalobacter; s__salaria 122032 k__Archaea; p__Crenarchaeota; c__MCG; o__; f__; g__; s__ 834174 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__Cystobacterineae; g__; s__ 701912 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 3664333 k__Bacteria; p__BHI80-139; c__; o__; f__; g__; s__ 2581885 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__[Entotheonellales]; f__[Entotheonellaceae]; g__Candidatus Entotheonella; s__ 92430 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 226411 k__Bacteria; p__Tenericutes; c__Mollicutes; o__Anaeroplasmatales; f__Anaeroplasmataceae; g__Asteroleplasma; s__ 268598 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; 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c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 2990833 k__Bacteria; p__OP11; c__OP11-1; o__BB36; f__; g__; s__ 4372598 k__Bacteria; p__OP9; c__JS1; o__SB-45; f__; g__; s__ 4421533 k__Bacteria; p__OP11; c__OP11-1; o__BB36; f__; g__; s__ 4442864 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Phyllobacteriaceae; g__; s__ 214695 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Planctomycetales; f__Planctomycetaceae; g__Planctomyces; s__ 4306292 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 922912 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__Hymenobacter; s__ 32849 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__Candidatus Azobacteroides; s__ 1140127 k__Bacteria; p__LCP-89; c__SAW1_B44; o__; f__; g__; s__ 1979817 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__AKAU3564; f__; g__; s__ 301109 k__Bacteria; p__Tenericutes; c__Mollicutes; 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k__Archaea; p__Euryarchaeota; c__DSEG; o__ArcA07; f__; g__; s__ 4474675 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__B97; f__; g__; s__ 160720 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 526963 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 4409929 k__Bacteria; p__Tenericutes; c__Mollicutes; o__Mycoplasmatales; f__Mycoplasmataceae; g__Mycoplasma; s__ 1030652 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Odoribacteraceae]; g__Odoribacter; s__ 2033050 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Glaucocystis; s__nostochinearum 312237 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Eubacteriaceae; g__Pseudoramibacter_Eubacterium; s__ 257626 k__Bacteria; p__Firmicutes; c__Clostridia; o__Halanaerobiales; f__Halanaerobiaceae; g__Halanaerobium; s__ 251082 k__Bacteria; p__; c__; o__; f__; g__; s__ 4328851 k__Bacteria; p__; c__; 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k__Archaea; p__Euryarchaeota; c__Halobacteria; o__Halobacteriales; f__Halobacteriaceae; g__Halobacteriaceae; s__XD46 259309 k__Bacteria; p__WS2; c__SHA-109; o__; f__; g__; s__ 4436944 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Spirochaeta; s__thermophila 3843950 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__Streptomycetaceae; g__Streptomyces; s__ 12562 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__Actinomycetaceae; g__Actinomyces; s__europaeus 4453084 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Sphaerochaetales; f__Sphaerochaetaceae; g__Sphaerochaeta; s__ 4406302 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__Catonella; s__ 4323734 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Actinomycetales; f__Nocardiaceae; g__Nocardia; s__ 4219827 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 4343596 k__Bacteria; p__KSB3; c__; o__; f__; g__; s__ 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346388 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 4044058 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Chitinophagaceae; g__Flavisolibacter; s__ 276398 k__Bacteria; p__; c__; o__; f__; g__; s__ 22645 k__Bacteria; p__Proteobacteria; c__TA18; o__PHOS-HD29; f__; g__; s__ 1777944 k__Bacteria; p__Hyd24-12; c__; o__; f__; g__; s__ 264416 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Comamonadaceae; g__Brachymonas; s__denitrificans 51807 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 806767 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Aeromonadales; f__Succinivibrionaceae; g__; s__ 353812 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__; s__ 2996647 k__Bacteria; p__Chloroflexi; c__SHA-26; o__; f__; g__; s__ 679616 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Moraxellaceae; g__Acinetobacter; s__ 4335619 k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ 4439267 k__Bacteria; p__WS3; c__PRR-12; o__; f__; g__; s__ 110224 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 786223 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__[Borreliales]; f__[Borreliaceae]; g__Borrelia; s__ 295986 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__; s__ 308163 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Spirobacillales; f__; g__; s__ 354795 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 252920 k__Archaea; p__Crenarchaeota; c__MCG; o__; f__; g__; s__ 1883794 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodobacterales; f__Rhodobacteraceae; g__; s__ 106627 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Comamonadaceae; g__Acidovorax; s__delafieldii 238704 k__Bacteria; p__Planctomycetes; c__OM190; 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c__OPB50; o__; f__; g__; s__ 932989 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__Finegoldia; s__ 270609 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 63956 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Tremblayales; f__Tremblayaceae; g__Candidatus Tremblaya; s__ 583967 k__Bacteria; p__Armatimonadetes; c__[Fimbriimonadia]; o__[Fimbriimonadales]; f__; g__; s__ 4320935 k__Bacteria; p__OP11; c__OP11-4; o__; f__; g__; s__ 4459893 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Flavobacteriaceae; g__Polaribacter; s__irgensii 199875 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 3269889 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Streptococcaceae; g__Streptococcus; s__ 4408885 k__Bacteria; p__Proteobacteria; c__; o__; f__; g__; s__ 114305 k__Bacteria; p__Chlorobi; c__; o__; f__; g__; s__ 191849 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; 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s__ 300223 k__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__Dethiosulfovibrionaceae; g__TG5; s__ 130408 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__C111; g__; s__ 2528188 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__; s__ 4444251 k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ 586584 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Caldilineales; f__Caldilineaceae; g__; s__ 278566 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 4469487 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Cryomorphaceae; g__; s__ 738462 k__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__Elev-1554; f__; g__; s__ 544773 k__Bacteria; p__Gemmatimonadetes; c__Gemmatimonadetes; o__Gemmatimonadales; f__Gemmatimonadaceae; g__Gemmatimonas; s__ 320356 k__Bacteria; p__OP3; c__PBS-25; o__; f__; g__; s__ 161623 k__Bacteria; p__AD3; c__JG37-AG-4; o__; f__; 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p__Chloroflexi; c__Anaerolineae; o__DRC31; f__; g__; s__ 2313300 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Silene; s__noctiflora 716196 k__Bacteria; p__WPS-2; c__; o__; f__; g__; s__ 951205 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__; s__ 4453550 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__RFN20; s__ 4389302 k__Bacteria; p__MVP-21; c__; o__; f__; g__; s__ 4392443 k__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__TK10; f__; g__; s__ 4445426 k__Bacteria; p__Armatimonadetes; c__[Fimbriimonadia]; o__[Fimbriimonadales]; f__; g__; s__ 4021998 k__Bacteria; p__Spirochaetes; c__GN05; o__LH041; f__; g__; s__ 575820 k__Bacteria; p__; c__; o__; f__; g__; s__ 199983 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 1146405 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__; g__; s__ 103210 k__Bacteria; p__Chlorobi; c__OPB56; o__; f__; g__; s__ 4416466 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__SBYG_4172; g__; s__ 2007845 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 88848 k__Bacteria; p__; c__; o__; f__; g__; s__ 125020 k__Archaea; p__Nanoarchaeota; c__[Nanoarchaeoti]; o__[Nanoarchaeotales]; f__[Nanoarchaeotaceae]; g__Nanoarchaeum; s__equitans Kin4-M 298161 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__; s__ 1106515 k__Bacteria; p__Proteobacteria; c__Zetaproteobacteria; o__Mariprofundales; f__Mariprofundaceae; g__Mariprofundus; s__ 340909 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophaceae; g__; s__ 293289 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 817183 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 564341 k__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__[Balneolaceae]; g__KSA1; s__ 128358 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__; g__; s__ 625141 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Sphingomonadales; f__Erythrobacteraceae; g__; s__ 3181260 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 4294568 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__ 311764 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 213210 k__Bacteria; p__Acidobacteria; c__S035; o__; f__; g__; s__ 160664 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__[Pelagicoccales]; f__[Pelagicoccaceae]; g__Pelagicoccus; s__ 4472482 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__Prevotella; s__ 238646 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__MOB121; f__; g__; s__ 235800 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__Dialister; s__ 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f__; g__; s__ 217293 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__MND1; f__; g__; s__ 4416557 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 1787840 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Pirellulales; f__Pirellulaceae; g__; s__ 149095 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 27500 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__ 4413256 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfovibrionales; f__Desulfovibrionaceae; g__Desulfovibrio; s__ 318282 k__Bacteria; p__Verrucomicrobia; c__Verruco-5; o__WCHB1-41; f__RFP12; g__; s__ 4377556 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 700579 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__; g__; s__ 201979 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Alcaligenaceae; 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s__ 1135847 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__WD2101; f__; g__; s__ 620617 k__Bacteria; p__OP3; c__koll11; o__; f__; g__; s__ 594063 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__; g__; s__ 136285 k__Bacteria; p__LD1; c__; o__; f__; g__; s__ 197460 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 309693 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Odoribacteraceae]; g__Odoribacter; s__ 141661 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 3420280 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__Blvii28; s__ 836968 k__Bacteria; p__Armatimonadetes; c__SHA-37; o__; f__; g__; s__ 519270 k__Bacteria; p__Caldithrix; c__Caldithrixae; o__Caldithrixales; f__; g__; s__ 228671 k__Bacteria; p__Cyanobacteria; c__Synechococcophycideae; o__Synechococcales; f__Synechococcaceae; g__Prochlorococcus; s__ 3123102 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 592682 k__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__RB41; f__Ellin6075; g__; s__ 4372755 k__Bacteria; p__Tenericutes; c__Mollicutes; o__; f__; g__; s__ 218894 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__EB1017; g__; s__ 1711236 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 2076900 k__Bacteria; p__BRC1; c__NPL-UPA2; o__; f__; g__; s__ 2219321 k__Bacteria; p__Chlorobi; c__BSV26; o__; f__; g__; s__ 840905 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__Sharpea; s__ 47692 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__Treponema; s__ 217684 k__Bacteria; p__Chloroflexi; c__TK10; o__AKYG885; f__5B-12; g__; s__ 4431212 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 827864 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__; g__; s__ 310505 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 627043 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 4363563 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__; s__ 4453356 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Cryomorphaceae; g__; s__ 221999 k__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__Thermogemmatisporales; f__Thermogemmatisporaceae; g__; s__ 4396361 k__Bacteria; p__Actinobacteria; c__Thermoleophilia; o__Gaiellales; f__AK1AB1_02E; g__; s__ 222095 k__Bacteria; p__AD3; c__ABS-6; o__; f__; g__; s__ 564591 k__Bacteria; p__GN02; c__; o__; f__; g__; s__ 1136479 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__Rickettsiaceae; g__; s__ 352328 k__Bacteria; p__Verrucomicrobia; c__Verruco-5; o__WCHB1-41; f__RFP12; g__; s__ 227522 k__Bacteria; p__Acidobacteria; c__Holophagae; o__Holophagales; f__Holophagaceae; g__; s__ 332182 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Moraxellaceae; g__Acinetobacter; s__ 4426850 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Christensenellaceae; g__; s__ 661453 k__Bacteria; p__Chloroflexi; c__Gitt-GS-136; o__; f__; g__; s__ 202836 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 3265975 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Spirochaetales; f__Spirochaetaceae; g__; s__ 841337 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 4458421 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 4456478 k__Bacteria; p__Firmicutes; c__Clostridia; o__; f__; g__; s__ 340990 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 775673 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__Azospirillum; s__ 4440511 k__Bacteria; p__Cyanobacteria; c__; o__; f__; g__; s__ 4440395 k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ 674402 k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ 562348 k__Bacteria; p__; c__; o__; f__; g__; s__ 259375 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Methylophilales; f__; g__; s__ 734689 k__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__RB41; f__; g__; s__ 4466255 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__Bdellovibrio; s__ 2003850 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__S0208; f__; g__; s__ 4392535 k__Bacteria; p__Tenericutes; c__Mollicutes; o__Mycoplasmatales; f__Mycoplasmataceae; g__; s__ 4404086 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__; s__ 236830 k__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__Elusimicrobiales; f__; g__; s__ 151535 k__Bacteria; p__SAR406; c__AB16; o__noFP_H7; f__; g__; s__ 93199 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__Xanthomonadaceae; g__Stenotrophomonas; s__maltophilia 4447207 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Geobacteraceae; g__Geobacter; s__ 2224376 k__Bacteria; p__OP11; c__; o__; f__; g__; s__ 574510 k__Bacteria; p__Chlorobi; c__OPB56; o__; f__; g__; s__ 1125422 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophobacteraceae; g__; s__ 4298922 k__Bacteria; p__Chloroflexi; c__Chloroflexi; o__[Roseiflexales]; f__[Kouleothrixaceae]; g__; s__ 2518895 k__Bacteria; p__Thermotogae; c__Thermotogae; o__Thermotogales; f__Thermotogaceae; g__SC103; s__ 1133502 k__Bacteria; p__Gemmatimonadetes; c__Gemmatimonadetes; o__; f__; g__; s__ 330451 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 3426090 k__Bacteria; p__Verrucomicrobia; c__Verrucomicrobiae; o__Verrucomicrobiales; f__Verrucomicrobiaceae; g__; s__ 556165 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Sphaerochaetales; f__Sphaerochaetaceae; g__Sphaerochaeta; s__ 687345 k__Bacteria; p__OD1; c__Mb-NB09; o__; f__; g__; s__ 250592 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 200519 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__ 174018 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 4044215 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__; f__; g__; s__ 755973 k__Archaea; p__Euryarchaeota; c__Thermoplasmata; o__E2; f__[Methanomassiliicoccaceae]; g__; s__ 564111 k__Archaea; p__Euryarchaeota; c__Thermococci; o__Thermococcales; f__Thermococcaceae; g__; s__ 641796 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Planococcaceae; g__Lysinibacillus; s__boronitolerans 86589 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 4430037 k__Bacteria; p__Firmicutes; c__Clostridia; o__Halanaerobiales; f__; g__; s__ 1117498 k__Bacteria; p__WS2; c__SHA-109; o__; f__; g__; s__ 687956 k__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__Elusimicrobiales; f__; g__; s__ 4436545 k__Bacteria; p__Proteobacteria; c__; o__; f__; g__; s__ 2957822 k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ 4431350 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 4399236 k__Bacteria; p__Chloroflexi; c__P2-11E; o__; f__; g__; s__ 260957 k__Bacteria; p__Planctomycetes; c__BD7-11; o__; f__; g__; s__ 351458 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Cardiobacteriales; f__; g__; s__ 1106540 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 717584 k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Helicobacteraceae; g__; s__ 4367622 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Paenibacillaceae; g__Brevibacillus; s__ 583617 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Hyphomicrobiaceae; g__Parvibaculum; s__ 4474268 k__Bacteria; p__Chloroflexi; c__P2-11E; o__; f__; g__; s__ 4436426 k__Bacteria; p__Cyanobacteria; c__Oscillatoriophycideae; o__Oscillatoriales; f__Phormidiaceae; g__; s__ 111520 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 349931 k__Bacteria; p__WS3; c__PRR-12; o__GN03; f__; g__; s__ 45967 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Streptophyta; f__; g__; s__ 4369491 k__Bacteria; p__Verrucomicrobia; c__Verruco-5; o__WCHB1-41; f__; g__; s__ 1133369 k__Bacteria; p__SR1; c__; o__; f__; g__; s__ 200455 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__[Thermicanaceae]; g__Bacillus; s__schlegelii 4282479 k__Bacteria; p__OP11; c__WCHB1-64; o__; f__; g__; s__ 181782 k__Archaea; p__Crenarchaeota; c__Thermoprotei; o__; f__; g__; s__ 735032 k__Bacteria; p__Tenericutes; c__Mollicutes; o__Acholeplasmatales; f__Acholeplasmataceae; g__Acholeplasma; s__ 4418129 k__Bacteria; p__; c__; o__; f__; g__; s__ 609168 k__Bacteria; p__Armatimonadetes; c__OS-L; o__; f__; g__; s__ 1116547 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__; g__; s__ 511200 k__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__JG30-KF-AS9; f__; g__; s__ 4392463 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 4313085 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 2361381 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__CAB-I; f__; g__; s__ 559629 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__H39; f__; g__; s__ 4401777 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 4409593 k__Archaea; p__[Parvarchaeota]; c__[Parvarchaea]; o__YLA114; f__; g__; s__ 225943 k__Bacteria; p__TM7; c__MJK10; o__; f__; g__; s__ 2286116 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Plantago; s__media 832503 k__Bacteria; p__Planctomycetes; c__Pla4; o__; f__; g__; s__ 634007 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__; f__; g__; s__ 270349 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__ 3967445 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__; f__; g__; s__ 801573 k__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__; f__; g__; s__ 200466 k__Bacteria; p__Acidobacteria; c__Acidobacteriia; o__Acidobacteriales; f__Acidobacteriaceae; g__; s__ 4147840 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__Phycisphaerales; f__Phycisphaeraceae; g__; s__ 4419449 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Xanthomonadales; f__Xanthomonadaceae; g__Xylella; s__ 246387 k__Bacteria; p__Actinobacteria; c__Thermoleophilia; o__Gaiellales; f__Gaiellaceae; g__; s__ 297438 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 184661 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 829433 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 3726191 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 4466873 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Niigata-25; s__ 32172 k__Bacteria; p__TM6; c__SBRH58; o__; f__; g__; s__ 2088685 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Bifidobacteriales; f__Bifidobacteriaceae; g__Bifidobacterium; s__longum 1922098 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 817095 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Kiloniellales; f__; g__; s__ 112892 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 1143619 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Hyphomicrobiaceae; g__Rhodoplanes; s__ 4150879 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Stramenopiles; f__; g__; s__ 524633 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__; s__ 144777 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__; g__; s__ 4339110 k__Bacteria; p__Cyanobacteria; c__; o__; f__; g__; s__ 3927137 k__Bacteria; p__GN02; c__; o__; f__; g__; s__ 811968 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__Bdellovibrio; s__ 782932 k__Archaea; p__Euryarchaeota; c__Thermoplasmata; o__E2; f__; g__; s__ 201801 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Rhodospirillaceae; g__Roseospira; s__ 177898 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 532985 k__Bacteria; p__; c__; o__; f__; g__; s__ 4469652 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__OM27; g__; s__ 578414 k__Bacteria; p__Elusimicrobia; c__; o__; f__; g__; s__ 89662 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 4340420 k__Bacteria; p__Elusimicrobia; c__; o__; f__; g__; s__ 660248 k__Archaea; p__Euryarchaeota; c__Methanobacteria; o__Methanobacteriales; f__WSA2; g__; s__ 260036 k__Bacteria; p__; c__; o__; f__; g__; s__ 657046 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Burkholderiaceae; g__Salinispora; s__tropica 630496 k__Bacteria; p__SAR406; c__AB16; o__noFP_H7; f__; g__; s__ 769637 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 353707 k__Bacteria; p__Spirochaetes; c__MVP-15; o__PL-11B10; f__; g__; s__ 195674 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 3258903 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 4365249 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfotomaculum; s__ 4313000 k__Bacteria; p__KSB3; c__; o__; f__; g__; s__ 824639 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Bdellovibrionales; f__Bdellovibrionaceae; g__Bdellovibrio; s__ 2986651 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Porphyromonadaceae; g__; s__ 4333248 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 639502 k__Bacteria; p__Actinobacteria; c__Acidimicrobiia; o__Acidimicrobiales; f__OCS155; g__; s__ 1114572 k__Bacteria; p__TM7; c__TM7-1; o__; f__; g__; s__ 818401 k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Campylobacteraceae; g__Sulfurospirillum; s__ 3559874 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Odoribacteraceae]; g__Butyricimonas; s__ 716473 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Saprospiraceae; g__; s__ 4437560 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__pLW-97; f__; g__; s__ 225697 k__Bacteria; p__TM6; c__SJA-4; o__; f__; g__; s__ 353691 k__Bacteria; p__Firmicutes; c__Erysipelotrichi; o__Erysipelotrichales; f__Erysipelotrichaceae; g__; s__ 611320 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Coxiellaceae; g__; s__ 3721617 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Aerococcaceae; g__; s__ 179806 k__Bacteria; 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k__Bacteria; p__OP9; c__OPB46; o__OPB72; f__; g__; s__ 650505 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 149907 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Coxiellaceae; g__Coxiella; s__ 4427763 k__Bacteria; p__Spirochaetes; c__[Leptospirae]; o__[Leptospirales]; f__; g__; s__ 4434944 k__Bacteria; p__Chloroflexi; c__Chloroflexi; o__Chloroflexales; f__[Chlorothrixaceae]; g__; s__ 561781 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 2555060 k__Bacteria; p__Spirochaetes; c__[Brachyspirae]; o__[Brachyspirales]; f__Brachyspiraceae; g__; s__ 1104783 k__Bacteria; p__[Thermi]; c__Deinococci; o__Thermales; f__Thermaceae; g__Thermus; s__ 1143648 k__Bacteria; p__Acidobacteria; c__[Chloracidobacteria]; o__11-24; f__; g__; s__ 3726475 k__Bacteria; p__WS3; c__PRR-12; o__GN03; f__KSB4; g__; s__ 2743706 k__Bacteria; p__Verrucomicrobia; c__[Pedosphaerae]; o__; f__; g__; s__ 176499 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Ruminococcus; s__ 236283 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Acidaminobacteraceae]; g__Guggenheimella; s__ 300026 k__Bacteria; p__Spirochaetes; c__Spirochaetes; o__Sphaerochaetales; f__Sphaerochaetaceae; g__Sphaerochaeta; s__ 673631 k__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__4-29; g__; s__ 292511 k__Archaea; p__Euryarchaeota; c__ANME-1; o__; f__; g__; s__ 301880 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__[Cerasicoccales]; f__[Cerasicoccaceae]; g__; s__ 252759 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__[Tissierellaceae]; g__Tissierella_Soehngenia; s__ 4354363 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Acidithiobacillales; f__; g__; s__ 4340429 k__Bacteria; p__OP11; c__OP11-2; o__; f__; g__; s__ 239255 k__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__TK10; f__; g__; s__ 514926 k__Bacteria; p__Actinobacteria; c__Actinobacteria; o__Bifidobacteriales; f__Bifidobacteriaceae; 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k__Bacteria; p__Bacteroidetes; c__[Rhodothermi]; o__[Rhodothermales]; f__[Balneolaceae]; g__; s__ 4405486 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Planctomycetales; f__Planctomycetaceae; g__Planctomyces; s__ 32511 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__pLW-97; f__; g__; s__ 2745645 k__Bacteria; p__Cyanobacteria; c__4C0d-2; o__SM2F09; f__; g__; s__ 298963 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__p-2534-18B5; g__; s__ 4433934 k__Bacteria; p__Acidobacteria; c__; o__; f__; g__; s__ 229076 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfobacterales; f__Desulfobulbaceae; g__; s__ 4312504 k__Bacteria; p__GN02; c__; o__; f__; g__; s__ 1125988 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SHA-20; f__; g__; s__ 4475689 k__Bacteria; p__OP8; c__; o__; f__; g__; s__ 234298 k__Bacteria; p__Verrucomicrobia; c__Verrucomicrobiae; o__Verrucomicrobiales; f__Verrucomicrobiaceae; g__Akkermansia; s__muciniphila 1108926 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__[Entotheonellales]; f__; g__; s__ 109057 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__0319-6G20; g__; s__ 556603 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Pirellulales; f__Pirellulaceae; g__; s__ 179663 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 529506 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 287366 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 6010 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 4317419 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__Desulfotomaculum; s__ 247060 k__Bacteria; p__Actinobacteria; c__MB-A2-108; o__0319-7L14; f__; g__; s__ 4372395 k__Archaea; p__Euryarchaeota; c__Halobacteria; o__Halobacteriales; f__MSP41; g__; s__ 304308 k__Bacteria; p__Actinobacteria; c__Coriobacteriia; 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k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__Bacillus; s__ 269615 k__Bacteria; p__; c__; o__; f__; g__; s__ 182420 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__Oscillospira; s__ 178045 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 4423155 k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ 4378109 k__Bacteria; p__Tenericutes; c__CK-1C4-19; o__; f__; g__; s__ 4364952 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__HA64; f__; g__; s__ 145326 k__Archaea; p__Crenarchaeota; c__Thermoprotei; o__Desulfurococcales; f__Desulfurococcaceae; g__Caldisphaera; s__ 7260 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Burkholderiales; f__Burkholderiaceae; g__Thiomonas; s__cuprina 221219 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 143380 k__Archaea; p__Crenarchaeota; c__Korarchaeota; o__Korarchaeotales; f__Korarchaeotaceae; g__; s__ 722695 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__Chlamydomonadaceae; g__; s__ 323290 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Alteromonadales; f__HTCC2188; g__HTCC; s__ 696948 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Alcanivoracaceae; g__Alcanivorax; s__dieselolei 2347454 k__Bacteria; p__Planctomycetes; c__vadinHA49; o__DH61; f__; g__; s__ 58625 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Flammeovirgaceae; g__Flexibacter; s__ 337993 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 188243 k__Bacteria; p__Proteobacteria; c__Epsilonproteobacteria; o__Campylobacterales; f__Helicobacteraceae; g__Sulfurimonas; s__ 322383 k__Bacteria; p__; c__; o__; f__; g__; s__ 4373802 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Bacteroidaceae; g__Bacteroides; s__ 926588 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Sphingomonadales; f__Sphingomonadaceae; g__Sphingomonas; s__ 140674 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Alteromonadales; f__Alteromonadaceae; g__Marinobacter; s__ 4314518 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Desulfuromonadales; f__Geobacteraceae; g__; s__ 815912 k__Archaea; p__Euryarchaeota; c__DSEG; o__104A5; f__; g__; s__ 760848 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 517210 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__S24-7; g__; s__ 571185 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__[Prevotella]; s__ 3985283 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__Phycisphaerales; f__Phycisphaeraceae; g__; s__ 50807 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__Pelagibacteraceae; g__; s__ 553287 k__Archaea; p__Euryarchaeota; c__DSEG; o__HydGC-84-221A; f__; g__; s__ 640998 k__Bacteria; p__Firmicutes; c__Clostridia; 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g__; s__ 815952 k__Archaea; p__Euryarchaeota; c__Thermoplasmata; o__Thermoplasmatales; f__BSLdp215; g__; s__ 717955 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__Anoxybacillus; s__kestanbolensis 3156587 k__Bacteria; p__SR1; c__; o__; f__; g__; s__ 243614 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 508877 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 143037 k__Bacteria; p__Chloroflexi; c__Dehalococcoidetes; o__Dehalococcoidales; f__; g__; s__ 786063 k__Bacteria; p__Chloroflexi; c__SAR202; o__; f__; g__; s__ 4346740 k__Archaea; p__Euryarchaeota; c__DSEG; o__; f__; g__; s__ 19806 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Cytophagaceae; g__; s__ 1107877 k__Bacteria; p__Tenericutes; c__Mollicutes; o__; f__; g__; s__ 186763 k__Bacteria; p__TM7; c__TM7-1; o__; f__; g__; s__ 4344031 k__Archaea; p__[Parvarchaeota]; c__[Micrarchaea]; o__[Micrarchaeles]; f__; g__; s__ 201382 k__Bacteria; p__OP11; c__OP11-4; 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k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__MBMPE71; f__; g__; s__ 116221 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Halomonadaceae; g__Candidatus Portiera; s__ 4342494 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 592303 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Enterobacteriales; f__Enterobacteriaceae; g__Providencia; s__ 820732 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__Nannocystaceae; g__Nannocystis; s__ 209414 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 628982 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Clostridium; s__butyricum 1106779 k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ 553810 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Pseudomonadaceae; g__Pseudomonas; s__aeruginosa 2843097 k__Bacteria; p__OD1; c__SM2F11; o__; f__; g__; s__ 2903258 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Pelargonium; s__alchemilloides 1818901 k__Bacteria; p__Bacteroidetes; c__; o__; f__; g__; s__ 240136 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ 16195 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Candidatus Arthromitus; s__ 208265 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 199942 k__Bacteria; p__OP11; c__OP11-4; o__; f__; g__; s__ 1120398 k__Bacteria; p__Deferribacteres; c__Deferribacteres; o__Deferribacterales; f__Deferribacteraceae; g__Deferribacter; s__ 4463838 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__; g__; s__ 159172 k__Bacteria; p__Firmicutes; c__Clostridia; o__Halanaerobiales; f__; g__; s__ 150441 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__; g__; s__ 1115206 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__WD2101; 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p__Gemmatimonadetes; c__Gemm-3; o__; f__; g__; s__ 565526 k__Bacteria; p__Verrucomicrobia; c__[Spartobacteria]; o__[Chthoniobacterales]; f__[Chthoniobacteraceae]; g__OR-59; s__ 246357 k__Bacteria; p__SC4; c__; o__; f__; g__; s__ 318416 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pseudomonadales; f__Moraxellaceae; g__Acinetobacter; s__ 1829647 k__Bacteria; p__Planctomycetes; c__ODP123; o__; f__; g__; s__ 4362988 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__Flammeovirgaceae; g__; s__ 945326 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Aerococcaceae; g__; s__ 831195 k__Bacteria; p__Tenericutes; c__; o__; f__; g__; s__ 4307887 k__Bacteria; p__Proteobacteria; c__Betaproteobacteria; o__Neisseriales; f__Neisseriaceae; g__; s__ 141281 k__Archaea; p__Euryarchaeota; c__ANME-1; o__; f__; g__; s__ 2462433 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 2371893 k__Bacteria; p__BRC1; c__PRR-11; o__; f__; g__; s__ 220160 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Phyllobacteriaceae; g__; s__ 55020 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Halomonadaceae; g__Candidatus Portiera; s__ 4016383 k__Bacteria; p__Proteobacteria; c__; o__; f__; g__; s__ 1522124 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 57455 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Peptococcaceae; g__; s__ 254787 k__Bacteria; p__OD1; c__ZB2; o__; f__; g__; s__ 1118984 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Paenibacillaceae; g__Brevibacillus; s__reuszeri 549805 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__; g__; s__ 4479774 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Acanthamoeba; s__culbertsoni 4303796 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Rhizobiaceae; g__Agrobacterium; s__ 545079 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__MSBL9; f__; g__; s__ 545782 k__Bacteria; p__Planctomycetes; c__Planctomycetia; o__Gemmatales; f__Gemmataceae; g__Gemmata; s__ 118018 k__Bacteria; p__SAR406; c__AB16; o__Arctic96B-7; f__A714017; g__SargSea-WGS; s__ 828017 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__; f__; g__; s__ 151902 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__Clostridium; s__ 817032 k__Bacteria; p__LD1; c__; o__; f__; g__; s__ 332770 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 2051943 k__Bacteria; p__Firmicutes; c__Bacilli; o__Bacillales; f__Bacillaceae; g__Bacillus; s__ 268518 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__Coxiellaceae; g__; s__ 1065387 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__[Paraprevotellaceae]; g__[Prevotella]; s__ 278503 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SHA-20; f__; g__; s__ 4478993 k__Bacteria; 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k__Archaea; p__Crenarchaeota; c__MBGB; o__; f__; g__; s__ 4316226 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__Anaerolineales; f__Anaerolinaceae; g__SHD-231; s__ 2679841 k__Bacteria; p__WS3; c__PRR-12; o__Sediment-1; f__; g__; s__ 333372 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__Prevotella; s__ 79553 k__Bacteria; p__Armatimonadetes; c__SHA-37; o__; f__; g__; s__ 822483 k__Bacteria; p__AC1; c__; o__; f__; g__; s__ 254279 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__AF420338; f__; g__; s__ 275100 k__Bacteria; p__Bacteroidetes; c__Cytophagia; o__Cytophagales; f__; g__; s__ 1114050 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__; g__; s__ 4395819 k__Bacteria; p__OP11; c__WCHB1-64; o__d153; f__; g__; s__ 157054 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__; g__; s__ 195496 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 828151 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__OM27; g__; s__ 4416995 k__Bacteria; p__Chloroflexi; c__SHA-26; o__; f__; g__; s__ 242162 k__Bacteria; p__Acidobacteria; c__; o__; f__; g__; s__ 1147263 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhizobiales; f__Hyphomicrobiaceae; g__; s__ 709318 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 586288 k__Bacteria; p__OP3; c__koll11; o__GIF10; f__; g__; s__ 708925 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Pasteurellales; f__Pasteurellaceae; g__Gallibacterium; s__ 509776 k__Bacteria; p__Gemmatimonadetes; c__Gemm-3; o__; f__; g__; s__ 261165 k__Bacteria; p__Elusimicrobia; c__Elusimicrobia; o__MD2894-B20; f__; g__; s__ 4123679 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Christensenellaceae; g__; s__ 4353811 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__Prevotella; s__ 4370766 k__Bacteria; p__OP3; c__koll11; 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p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__; g__; s__ 584392 k__Bacteria; p__OP3; c__koll11; o__; f__; g__; s__ 1118172 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__; f__; g__; s__ 523033 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Prevotellaceae; g__Prevotella; s__stercorea 661024 k__Bacteria; p__OP3; c__PBS-25; o__; f__; g__; s__ 4427916 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Clostridiaceae; g__; s__ 224379 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Christensenellaceae; g__; s__ 551866 k__Bacteria; p__Cyanobacteria; c__ML635J-21; o__; f__; g__; s__ 232888 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__Rikenellaceae; g__Rikenella; s__ 207920 k__Bacteria; p__Chloroflexi; c__Ktedonobacteria; o__Elev-1554; f__; g__; s__ 1126413 k__Bacteria; p__Planctomycetes; c__; o__; f__; g__; s__ 299259 k__Bacteria; p__Verrucomicrobia; c__Opitutae; o__[Cerasicoccales]; 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k__Bacteria; p__Chlorobi; c__BSV26; o__C20; f__; g__; s__ 772 k__Archaea; p__Crenarchaeota; c__; o__; f__; g__; s__ 574028 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Syntrophobacterales; f__Syntrophaceae; g__; s__ 227867 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Chlorophyta; f__; g__; s__ 2784823 k__Bacteria; p__GN04; c__MSB-5A5; o__; f__; g__; s__ 336509 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__RF16; g__; s__ 732033 k__Bacteria; p__OD1; c__; o__; f__; g__; s__ 4373917 k__Archaea; p__Euryarchaeota; c__DSEG; o__ArcA07; f__; g__; s__ 763875 k__Bacteria; p__Elusimicrobia; c__; o__; f__; g__; s__ 4091454 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__Selenomonas; s__ 330159 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Sva0853; f__S25_1238; g__; s__ 200188 k__Bacteria; p__OP11; c__OP11-1; o__; f__; g__; s__ 2317382 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rickettsiales; f__mitochondria; g__Chattonella; s__marina 4014251 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Legionellales; f__; g__; s__ 712579 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__; f__; g__; s__ 577510 k__Bacteria; p__Verrucomicrobia; c__[Pedosphaerae]; o__[Pedosphaerales]; f__; g__; s__ 563149 k__Bacteria; p__; c__; o__; f__; g__; s__ 3936461 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__Cryomorphaceae; g__Cryomorpha; s__ 4380419 k__Bacteria; p__Proteobacteria; c__TA18; o__PHOS-HD29; f__; g__; s__ 4377428 k__Bacteria; p__OP11; c__WCHB1-64; o__d153; f__; g__; s__ 551892 k__Bacteria; p__Spirochaetes; c__[Brevinematae]; o__; f__; g__; s__ 4344832 k__Bacteria; p__Firmicutes; c__Bacilli; o__Lactobacillales; f__Carnobacteriaceae; g__Granulicatella; s__ 513094 k__Bacteria; p__Acidobacteria; c__; o__; f__; g__; s__ 517154 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__Coprococcus; s__ 1110893 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Saprospiraceae; g__; s__ 4413467 k__Bacteria; p__Chloroflexi; c__Thermomicrobia; o__; f__; g__; s__ 771867 k__Archaea; p__Euryarchaeota; c__DSEG; o__ArcA07; f__; g__; s__ 4315232 k__Bacteria; p__Bacteroidetes; c__BME43; o__; f__; g__; s__ 221562 k__Bacteria; p__Synergistetes; c__Synergistia; o__Synergistales; f__Dethiosulfovibrionaceae; g__; s__ 260503 k__Bacteria; p__Elusimicrobia; c__OP2; o__; f__; g__; s__ 230258 k__Bacteria; p__Bacteroidetes; c__[Saprospirae]; o__[Saprospirales]; f__Saprospiraceae; g__; s__ 805706 k__Bacteria; p__Nitrospirae; c__Nitrospira; o__Nitrospirales; f__0319-6A21; g__; s__ 688883 k__Bacteria; p__Tenericutes; c__Mollicutes; o__RF39; f__; g__; s__ 4387751 k__Bacteria; p__OP11; c__WCHB1-64; o__; f__; g__; s__ 132657 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Ruminococcaceae; g__; s__ 4481596 k__Bacteria; p__Actinobacteria; c__MB-A2-108; o__; f__; g__; s__ 1839271 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__Epulopiscium; s__ 4307082 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Vibrionales; f__Vibrionaceae; g__; s__ 4483258 k__Archaea; p__Crenarchaeota; c__Thermoprotei; o__Thermoproteales; f__Thermoproteaceae; g__; s__ 123788 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__; f__; g__; s__ 540502 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Alteromonadales; f__OM60; g__; s__ 144458 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__GCA004; f__; g__; s__ 606667 k__Archaea; p__Euryarchaeota; c__DSEG; o__DHVE3; f__; g__; s__ 135798 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__GCA004; f__; g__; s__ 2601842 k__Bacteria; p__Acidobacteria; c__Acidobacteria-6; o__iii1-15; f__; g__; s__ 209766 k__Bacteria; p__Chlorobi; c__BSV26; o__A89; f__; g__; s__ 4468758 k__Bacteria; p__Chlorobi; c__BSV26; o__; f__; g__; s__ 4477563 k__Bacteria; p__Planctomycetes; c__Phycisphaerae; o__Phycisphaerales; f__Phycisphaeraceae; g__; s__ 355868 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Veillonellaceae; g__; s__ 142373 k__Archaea; p__Crenarchaeota; c__Thaumarchaeota; o__Nitrososphaerales; f__Nitrososphaeraceae; g__Candidatus Nitrososphaera; s__SCA1170 4454339 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__OPB11; f__; g__; s__ 2963552 k__Archaea; p__Crenarchaeota; c__MHVG; o__; f__; g__; s__ 4086932 k__Bacteria; p__Proteobacteria; c__Deltaproteobacteria; o__Myxococcales; f__; g__; s__ 247164 k__Bacteria; p__BHI80-139; c__; o__; f__; g__; s__ 566513 k__Bacteria; p__WPS-2; c__; o__; f__; g__; s__ 585674 k__Bacteria; p__Bacteroidetes; c__Flavobacteriia; o__Flavobacteriales; f__; g__; s__ 4473559 k__Bacteria; p__Cyanobacteria; c__Chloroplast; o__Stramenopiles; f__; g__; s__ 241089 k__Bacteria; p__Bacteroidetes; c__Bacteroidia; o__Bacteroidales; f__; g__; s__ 215025 k__Bacteria; p__Planctomycetes; c__vadinHA49; o__p04_C01; f__; g__; s__ 839212 k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; o__Oceanospirillales; f__Halomonadaceae; g__Candidatus Portiera; s__ 619141 k__Bacteria; p__Proteobacteria; c__Alphaproteobacteria; o__Rhodospirillales; f__Acetobacteraceae; g__Acetobacter; s__ 220884 k__Bacteria; p__OD1; c__ABY1; o__; f__; g__; s__ 568309 k__Bacteria; p__Firmicutes; c__Clostridia; o__Clostridiales; f__Lachnospiraceae; g__; s__ 185950 k__Bacteria; p__Chloroflexi; c__Anaerolineae; o__SBR1031; f__A4b; g__; s__ q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/test_classifier.py000066400000000000000000000245571411645176200272250ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import json import os from qiime2.sdk import Artifact from q2_types.feature_data import DNAIterator from qiime2.plugins import feature_classifier import pandas as pd import skbio import biom from q2_feature_classifier._skl import _specific_fitters from q2_feature_classifier.classifier import spec_from_pipeline, \ pipeline_from_spec, populate_class_weight, _autotune_reads_per_batch from . import FeatureClassifierTestPluginBase class ClassifierTests(FeatureClassifierTestPluginBase): package = 'q2_feature_classifier.tests' def setUp(self): super().setUp() self.taxonomy = Artifact.import_data( 'FeatureData[Taxonomy]', self.get_data_path('taxonomy.tsv')) self.seq_path = self.get_data_path('se-dna-sequences.fasta') reads = Artifact.import_data('FeatureData[Sequence]', self.seq_path) fitter_name = _specific_fitters[0][0] fitter = getattr(feature_classifier.methods, 'fit_classifier_' + fitter_name) self.classifier = fitter(reads, self.taxonomy).classifier def test_fit_classifier(self): # fit_classifier should generate a working taxonomic_classifier reads = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('se-dna-sequences.fasta')) classify = feature_classifier.methods.classify_sklearn result = classify(reads, self.classifier) ref = self.taxonomy.view(pd.Series).to_dict() classified = result.classification.view(pd.Series).to_dict() right = 0. for taxon in classified: right += ref[taxon].startswith(classified[taxon]) self.assertGreater(right/len(classified), 0.95) def test_populate_class_weight(self): # should populate the class weight of a pipeline weights = Artifact.import_data( 'FeatureTable[RelativeFrequency]', self.get_data_path('class_weight.biom')) table = weights.view(biom.Table) svc_spec = [['feat_ext', {'__type__': 'feature_extraction.text.HashingVectorizer', 'analyzer': 'char_wb', 'n_features': 8192, 'ngram_range': [8, 8], 'alternate_sign': False}], ['classify', {'__type__': 'naive_bayes.GaussianNB'}]] pipeline1 = pipeline_from_spec(svc_spec) populate_class_weight(pipeline1, table) classes = table.ids('observation') class_weights = [] for wts in table.iter_data(): class_weights.append(zip(classes, wts)) svc_spec[1][1]['priors'] = list(zip(*sorted(class_weights[0])))[1] pipeline2 = pipeline_from_spec(svc_spec) for a, b in zip(pipeline1.get_params()['classify__priors'], pipeline2.get_params()['classify__priors']): self.assertAlmostEqual(a, b) def test_class_weight(self): # we should be able to input class_weight to fit_classifier weights = Artifact.import_data( 'FeatureTable[RelativeFrequency]', self.get_data_path('class_weight.biom')) reads = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('se-dna-sequences.fasta')) fitter = feature_classifier.methods.fit_classifier_naive_bayes classifier1 = fitter(reads, self.taxonomy, class_weight=weights) classifier1 = classifier1.classifier class_weight = weights.view(biom.Table) classes = class_weight.ids('observation') class_weights = [] for wts in class_weight.iter_data(): class_weights.append(zip(classes, wts)) priors = json.dumps(list(zip(*sorted(class_weights[0])))[1]) classifier2 = fitter(reads, self.taxonomy, classify__class_prior=priors).classifier classify = feature_classifier.methods.classify_sklearn result1 = classify(reads, classifier1) result1 = result1.classification.view(pd.Series).to_dict() result2 = classify(reads, classifier2) result2 = result2.classification.view(pd.Series).to_dict() self.assertEqual(result1, result2) svc_spec = [['feat_ext', {'__type__': 'feature_extraction.text.HashingVectorizer', 'analyzer': 'char_wb', 'n_features': 8192, 'ngram_range': [8, 8], 'alternate_sign': False}], ['classify', {'__type__': 'linear_model.LogisticRegression'}]] classifier_spec = json.dumps(svc_spec) gen_fitter = feature_classifier.methods.fit_classifier_sklearn classifier1 = gen_fitter(reads, self.taxonomy, classifier_spec, class_weight=weights).classifier svc_spec[1][1]['class_weight'] = dict(class_weights[0]) classifier_spec = json.dumps(svc_spec) gen_fitter = feature_classifier.methods.fit_classifier_sklearn classifier2 = gen_fitter(reads, self.taxonomy, classifier_spec ).classifier result1 = classify(reads, classifier1) result1 = result1.classification.view(pd.Series).to_dict() result2 = classify(reads, classifier2) result2 = result2.classification.view(pd.Series).to_dict() self.assertEqual(set(result1.keys()), set(result2.keys())) for k in result1: self.assertEqual(result1[k], result2[k]) def test_fit_specific_classifiers(self): # specific and general classifiers should produce the same results gen_fitter = feature_classifier.methods.fit_classifier_sklearn classify = feature_classifier.methods.classify_sklearn reads = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('se-dna-sequences.fasta')) for name, spec in _specific_fitters: classifier_spec = json.dumps(spec) result = gen_fitter(reads, self.taxonomy, classifier_spec) result = classify(reads, result.classifier) gc = result.classification.view(pd.Series).to_dict() spec_fitter = getattr(feature_classifier.methods, 'fit_classifier_' + name) result = spec_fitter(reads, self.taxonomy) result = classify(reads, result.classifier) sc = result.classification.view(pd.Series).to_dict() for taxon in gc: self.assertEqual(gc[taxon], sc[taxon]) def test_pipeline_serialisation(self): # pipeline inflation and deflation should be inverse operations for name, spec in _specific_fitters: pipeline = pipeline_from_spec(spec) spec_one = spec_from_pipeline(pipeline) pipeline = pipeline_from_spec(spec_one) spec_two = spec_from_pipeline(pipeline) self.assertEqual(spec_one, spec_two) def test_classify(self): # test read direction detection and parallel classification classify = feature_classifier.methods.classify_sklearn seq_path = self.get_data_path('se-dna-sequences.fasta') reads = Artifact.import_data('FeatureData[Sequence]', seq_path) raw_reads = skbio.io.read( seq_path, format='fasta', constructor=skbio.DNA) rev_path = os.path.join(self.temp_dir.name, 'rev-dna-sequences.fasta') skbio.io.write((s.reverse_complement() for s in raw_reads), 'fasta', rev_path) rev_reads = Artifact.import_data('FeatureData[Sequence]', rev_path) result = classify(reads, self.classifier) fc = result.classification.view(pd.Series).to_dict() result = classify(rev_reads, self.classifier) rc = result.classification.view(pd.Series).to_dict() for taxon in fc: self.assertEqual(fc[taxon], rc[taxon]) result = classify(reads, self.classifier, read_orientation='same') fc = result.classification.view(pd.Series).to_dict() result = classify(rev_reads, self.classifier, read_orientation='reverse-complement') rc = result.classification.view(pd.Series).to_dict() for taxon in fc: self.assertEqual(fc[taxon], rc[taxon]) result = classify(reads, self.classifier, reads_per_batch=100, n_jobs=2) cc = result.classification.view(pd.Series).to_dict() for taxon in fc: self.assertEqual(fc[taxon], cc[taxon]) def test_unassigned_taxa(self): # classifications that don't meet the threshold should be "Unassigned" classify = feature_classifier.methods.classify_sklearn seq_path = self.get_data_path('se-dna-sequences.fasta') reads = Artifact.import_data('FeatureData[Sequence]', seq_path) result = classify(reads, self.classifier, confidence=1.) ref = self.taxonomy.view(pd.Series).to_dict() classified = result.classification.view(pd.Series).to_dict() assert 'Unassigned' in classified.values() for seq in reads.view(DNAIterator): id_ = seq.metadata['id'] assert ref[id_].startswith(classified[id_]) or \ classified[id_] == 'Unassigned' def test_autotune_reads_per_batch(self): self.assertEqual( _autotune_reads_per_batch(self.seq_path, n_jobs=4), 276) def test_autotune_reads_per_batch_disable_if_single_job(self): self.assertEqual( _autotune_reads_per_batch(self.seq_path, n_jobs=1), 20000) def test_autotune_reads_per_batch_zero_jobs(self): with self.assertRaisesRegex( ValueError, "Value other than zero must be specified"): _autotune_reads_per_batch(self.seq_path, n_jobs=0) def test_autotune_reads_per_batch_ceil(self): self.assertEqual( _autotune_reads_per_batch(self.seq_path, n_jobs=5), 221) def test_autotune_reads_per_batch_more_jobs_than_reads(self): self.assertEqual( _autotune_reads_per_batch(self.seq_path, n_jobs=1105), 1) q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/test_consensus_assignment.py000066400000000000000000000345501411645176200313430ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import pandas as pd from qiime2.sdk import Artifact from qiime2.plugins import feature_classifier from q2_feature_classifier._skl import _specific_fitters from q2_feature_classifier._blast import classify_consensus_blast from q2_feature_classifier._vsearch import classify_consensus_vsearch from q2_feature_classifier._consensus_assignment import ( _compute_consensus_annotation, _compute_consensus_annotations, _import_blast_format_assignments, _output_no_hits) from q2_types.feature_data import DNAFASTAFormat from . import FeatureClassifierTestPluginBase class ConsensusAssignmentsTests(FeatureClassifierTestPluginBase): package = 'q2_feature_classifier.tests' def setUp(self): super().setUp() taxonomy = Artifact.import_data( 'FeatureData[Taxonomy]', self.get_data_path('taxonomy.tsv')) self.taxonomy = taxonomy.view(pd.Series) # TODO: use `Artifact.import_data` here once we have a transformer # for DNASequencesDirectoryFormat -> DNAFASTAFormat self.reads_fp = self.get_data_path('se-dna-sequences.fasta') self.reads = DNAFASTAFormat(self.reads_fp, mode='r') # Make sure blast and vsearch produce expected outputs # but there is no "right" taxonomy assignment. def test_blast(self): result = classify_consensus_blast(self.reads, self.reads, self.taxonomy) res = result.Taxon.to_dict() tax = self.taxonomy.to_dict() right = 0. for taxon in res: right += tax[taxon].startswith(res[taxon]) self.assertGreater(right/len(res), 0.5) def test_vsearch(self): result = classify_consensus_vsearch(self.reads, self.reads, self.taxonomy) res = result.Taxon.to_dict() tax = self.taxonomy.to_dict() right = 0. for taxon in res: right += tax[taxon].startswith(res[taxon]) self.assertGreater(right/len(res), 0.5) def test_vsearch_search_exact(self): result = classify_consensus_vsearch(self.reads, self.reads, self.taxonomy, search_exact=True) res = result.Taxon.to_dict() tax = self.taxonomy.to_dict() right = 0. for taxon in res: right += tax[taxon].startswith(res[taxon]) self.assertGreater(right/len(res), 0.5) def test_vsearch_top_hits_only(self): result = classify_consensus_vsearch(self.reads, self.reads, self.taxonomy, top_hits_only=True) res = result.Taxon.to_dict() tax = self.taxonomy.to_dict() right = 0. for taxon in res: right += tax[taxon].startswith(res[taxon]) self.assertGreater(right/len(res), 0.5) # make sure weak_id and other parameters do not conflict with each other. # This test just makes sure the command runs okay with all options. # We are not in the business of debugging VSEARCH, but want to have this # test as a canary in the coal mine. def test_vsearch_the_works(self): result = classify_consensus_vsearch(self.reads, self.reads, self.taxonomy, top_hits_only=True, maxhits=1, maxrejects=10, weak_id=0.8, perc_identity=0.99, output_no_hits=False) res = result.Taxon.to_dict() tax = self.taxonomy.to_dict() right = 0. for taxon in res: right += tax[taxon].startswith(res[taxon]) self.assertGreater(right/len(res), 0.5) class HybridClassiferTests(FeatureClassifierTestPluginBase): package = 'q2_feature_classifier.tests' def setUp(self): super().setUp() taxonomy = Artifact.import_data( 'FeatureData[Taxonomy]', self.get_data_path('taxonomy.tsv')) self.taxonomy = taxonomy.view(pd.Series) self.taxartifact = taxonomy # TODO: use `Artifact.import_data` here once we have a transformer # for DNASequencesDirectoryFormat -> DNAFASTAFormat reads_fp = self.get_data_path('se-dna-sequences.fasta') reads = DNAFASTAFormat(reads_fp, mode='r') self.reads = Artifact.import_data('FeatureData[Sequence]', reads) fitter = getattr(feature_classifier.methods, 'fit_classifier_' + _specific_fitters[0][0]) self.classifier = fitter(self.reads, self.taxartifact).classifier self.query = Artifact.import_data('FeatureData[Sequence]', pd.Series( {'A': 'GCCTAACACATGCAAGTCGAACGGCAGCGGGGGAAAGCTTGCTTTCCTGCCGGCGA', 'B': 'TAACACATGCAAGTCAACGATGCTTATGTAGCAATATGTAAGTAGAGTGGCGCACG', 'C': 'ATACATGCAAGTCGTACGGTATTCCGGTTTCGGCCGGGAGAGAGTGGCGGATGGGT', 'D': 'GACGAACGCTGGCGACGTGCTTAACACATGCAAGTCGTGCGAGGACGGGCGGTGCT' 'TGCACTGCTCGAGCCGAGCGGCGGACGGGTGAGTAACACGTGAGCAACCTATCTCC' 'GTGCGGGGGACAACCCGGGGAAACCCGGGCTAATACCG'})) def test_classify_hybrid_vsearch_sklearn_all_exact_match(self): result, = feature_classifier.actions.classify_hybrid_vsearch_sklearn( query=self.reads, reference_reads=self.reads, reference_taxonomy=self.taxartifact, classifier=self.classifier, prefilter=False) result, = feature_classifier.actions.classify_hybrid_vsearch_sklearn( query=self.reads, reference_reads=self.reads, reference_taxonomy=self.taxartifact, classifier=self.classifier) result = result.view(pd.DataFrame) res = result.Taxon.to_dict() tax = self.taxonomy.to_dict() right = 0. for taxon in res: right += tax[taxon].startswith(res[taxon]) self.assertGreater(right/len(res), 0.5) def test_classify_hybrid_vsearch_sklearn_mixed_query(self): result, = feature_classifier.actions.classify_hybrid_vsearch_sklearn( query=self.query, reference_reads=self.reads, reference_taxonomy=self.taxartifact, classifier=self.classifier, prefilter=True, read_orientation='same', randseed=1001) result = result.view(pd.DataFrame) obs = result.Taxon.to_dict() exp = {'A': 'k__Bacteria; p__Proteobacteria; c__Gammaproteobacteria; ' 'o__Legionellales; f__; g__; s__', 'B': 'k__Bacteria; p__Chlorobi; c__; o__; f__; g__; s__', 'C': 'k__Bacteria; p__Bacteroidetes; c__Cytophagia; ' 'o__Cytophagales; f__Cyclobacteriaceae; g__; s__', 'D': 'k__Bacteria; p__Gemmatimonadetes; c__Gemm-5; o__; f__; ' 'g__; s__'} self.assertDictEqual(obs, exp) class ImportBlastAssignmentTests(FeatureClassifierTestPluginBase): def test_import_blast_format_assignments(self): in_ = ['# This is a blast comment line', 's1\t111\t100.000\t1428\t0\t0\t1\t1428\t1\t1428\t0.0\t2638', 's1\t112\t100.000\t1479\t0\t0\t1\t1479\t1\t1479\t0.0\t2732', 's2\t113\t100.000\t1336\t0\t0\t1\t1336\t1\t1336\t0.0\t2468', 's2\t114\t100.000\t1402\t0\t0\t1\t1402\t1\t1402\t0.0\t2582'] ref = {'111': 'Aa;Bb;Cc', '112': 'Aa;Bb;Cc', '113': 'Aa;Dd;Ee', '114': 'Aa;Dd;Ff'} ref = pd.Series(ref) obs = _import_blast_format_assignments(in_, ref) exp = {'s1': [['Aa', 'Bb', 'Cc'], ['Aa', 'Bb', 'Cc']], 's2': [['Aa', 'Dd', 'Ee'], ['Aa', 'Dd', 'Ff']]} self.assertEqual(obs, exp) # This code has been ported from QIIME 1.9.1 with permission from @gregcaporaso class ConsensusAnnotationTests(FeatureClassifierTestPluginBase): def test_varied_min_fraction(self): in_ = [['Ab', 'Bc', 'De'], ['Ab', 'Bc', 'Fg', 'Hi'], ['Ab', 'Bc', 'Fg', 'Jk']] actual = _compute_consensus_annotation(in_, 0.51, "Unassigned") expected = (['Ab', 'Bc', 'Fg'], 2. / 3.) self.assertEqual(actual, expected) # increased min_consensus_fraction yields decreased specificity in_ = [['Ab', 'Bc', 'De'], ['Ab', 'Bc', 'Fg', 'Hi'], ['Ab', 'Bc', 'Fg', 'Jk']] actual = _compute_consensus_annotation(in_, 0.99, "Unassigned") expected = (['Ab', 'Bc'], 1.0) self.assertEqual(actual, expected) def test_single_annotation(self): in_ = [['Ab', 'Bc', 'De']] actual = _compute_consensus_annotation(in_, 1.0, "Unassigned") expected = (['Ab', 'Bc', 'De'], 1.0) self.assertEqual(actual, expected) actual = _compute_consensus_annotation(in_, 0.501, "Unassigned") expected = (['Ab', 'Bc', 'De'], 1.0) self.assertEqual(actual, expected) def test_no_consensus(self): in_ = [['Ab', 'Bc', 'De'], ['Cd', 'Bc', 'Fg', 'Hi'], ['Ef', 'Bc', 'Fg', 'Jk']] actual = _compute_consensus_annotation(in_, 0.51, "Unassigned") expected = (['Unassigned'], 1.) self.assertEqual(actual, expected) actual = _compute_consensus_annotation( in_, 0.51, unassignable_label="Hello world!") expected = (['Hello world!'], 1.) self.assertEqual(actual, expected) def test_invalid_min_consensus_fraction(self): in_ = [['Ab', 'Bc', 'De'], ['Ab', 'Bc', 'Fg', 'Hi'], ['Ab', 'Bc', 'Fg', 'Jk']] self.assertRaises(ValueError, _compute_consensus_annotation, in_, 0.50, "Unassigned") self.assertRaises(ValueError, _compute_consensus_annotation, in_, 0.00, "Unassigned") self.assertRaises(ValueError, _compute_consensus_annotation, in_, -0.1, "Unassigned") def test_overlapping_names(self): # here the 3rd level is different, but the 4th level is the same # across the three assignments. this can happen in practice if # three different genera are assigned, and under each there is # an unnamed species # (e.g., f__x;g__A;s__, f__x;g__B;s__, f__x;g__B;s__) # in this case, the assignment should be f__x. in_ = [['Ab', 'Bc', 'De', 'Jk'], ['Ab', 'Bc', 'Fg', 'Jk'], ['Ab', 'Bc', 'Hi', 'Jk']] actual = _compute_consensus_annotation(in_, 0.51, "Unassigned") expected = (['Ab', 'Bc'], 1.) self.assertEqual(actual, expected) # here the third level is the same in 4/5 of the # assignments, but one of them (z, y, c) refers to a # different taxa since the higher levels are different. # the consensus value should be 3/5, not 4/5, to # reflect that. in_ = [['a', 'b', 'c'], ['a', 'd', 'e'], ['a', 'b', 'c'], ['a', 'b', 'c'], ['z', 'y', 'c']] actual = _compute_consensus_annotation(in_, 0.51, "Unassigned") expected = (['a', 'b', 'c'], 0.6) self.assertEqual(actual, expected) def test_adjusts_resolution(self): # max result depth is that of shallowest assignment in_ = [['Ab', 'Bc', 'Fg'], ['Ab', 'Bc', 'Fg', 'Hi'], ['Ab', 'Bc', 'Fg', 'Hi'], ['Ab', 'Bc', 'Fg', 'Hi'], ['Ab', 'Bc', 'Fg', 'Hi', 'Jk']] actual = _compute_consensus_annotation(in_, 0.51, "Unassigned") expected = (['Ab', 'Bc', 'Fg'], 1.0) self.assertEqual(actual, expected) in_ = [['Ab', 'Bc', 'Fg'], ['Ab', 'Bc', 'Fg', 'Hi', 'Jk'], ['Ab', 'Bc', 'Fg', 'Hi', 'Jk'], ['Ab', 'Bc', 'Fg', 'Hi', 'Jk'], ['Ab', 'Bc', 'Fg', 'Hi', 'Jk']] actual = _compute_consensus_annotation(in_, 0.51, "Unassigned") expected = (['Ab', 'Bc', 'Fg'], 1.0) self.assertEqual(actual, expected) # This code has been ported from QIIME 1.9.1 with permission from @gregcaporaso class ConsensusAnnotationsTests(FeatureClassifierTestPluginBase): def test_varied_fraction(self): in_ = {'q1': [['A', 'B', 'C', 'D'], ['A', 'B', 'C', 'E']], 'q2': [['A', 'H', 'I', 'J'], ['A', 'H', 'K', 'L', 'M'], ['A', 'H', 'I', 'J']], 'q3': [[]], 'q4': [[]], 'q5': [[]]} expected = {'q1': ('A;B;C', 1.0), 'q2': ('A;H;I;J', 2. / 3.), 'q3': ('Unassigned', 1.0), 'q4': ('Unassigned', 1.0), 'q5': ('Unassigned', 1.0)} actual = _compute_consensus_annotations(in_, 0.51) self.assertEqual(actual, expected) expected = {'q1': ('A;B;C', 1.0), 'q2': ('A;H', 1.0), 'q3': ('Unassigned', 1.0), 'q4': ('Unassigned', 1.0), 'q5': ('Unassigned', 1.0)} actual = _compute_consensus_annotations(in_, 0.99) self.assertEqual(actual, expected) def test_varied_label(self): in_ = {'q1': [['A', 'B', 'C', 'D'], ['A', 'B', 'C', 'E']], 'q2': [['A', 'H', 'I', 'J'], ['A', 'H', 'K', 'L', 'M'], ['A', 'H', 'I', 'J']], 'q3': [[]], 'q4': [[]], 'q5': [[]]} expected = {'q1': ('A;B;C', 1.0), 'q2': ('A;H;I;J', 2. / 3.), 'q3': ('x', 1.0), 'q4': ('x', 1.0), 'q5': ('x', 1.0)} actual = _compute_consensus_annotations(in_, 0.51, "x") self.assertEqual(actual, expected) class OutputNoHitsTests(FeatureClassifierTestPluginBase): def test_output_no_hits(self): exp = ['>A111', 'ACGTGTGATCGA', '>A112', 'ACTGTCATGTGA', '>A113', 'ACTGTGTCGTGA'] obs = {'A111': ('A;B;C;D', 1.0)} res = {'A111': ('A;B;C;D', 1.0), 'A112': ('Unassigned', 0.0), 'A113': ('Unassigned', 0.0)} consensus = _output_no_hits(obs, exp) self.assertEqual(consensus, res) q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/test_custom.py000066400000000000000000000060701411645176200264010ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import json from qiime2.sdk import Artifact from qiime2.plugins import feature_classifier from q2_types.feature_data import DNAIterator from q2_feature_classifier.custom import ChunkedHashingVectorizer from q2_feature_classifier._skl import _extract_reads from sklearn.feature_extraction.text import HashingVectorizer import pandas as pd from . import FeatureClassifierTestPluginBase class CustomTests(FeatureClassifierTestPluginBase): package = 'q2_feature_classifier.tests' def setUp(self): super().setUp() self.taxonomy = Artifact.import_data( 'FeatureData[Taxonomy]', self.get_data_path('taxonomy.tsv')) def test_low_memory_multinomial_nb(self): # results should not depend on chunk size fitter = feature_classifier.methods.fit_classifier_sklearn classify = feature_classifier.methods.classify_sklearn reads = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('se-dna-sequences.fasta')) spec = [['feat_ext', {'__type__': 'feature_extraction.text.HashingVectorizer', 'analyzer': 'char', 'n_features': 8192, 'ngram_range': [8, 8], 'alternate_sign': False}], ['classify', {'__type__': 'custom.LowMemoryMultinomialNB', 'alpha': 0.01, 'chunk_size': 20000}]] classifier_spec = json.dumps(spec) result = fitter(reads, self.taxonomy, classifier_spec) result = classify(reads, result.classifier) gc = result.classification.view(pd.Series).to_dict() spec[1][1]['chunk_size'] = 20 classifier_spec = json.dumps(spec) result = fitter(reads, self.taxonomy, classifier_spec) result = classify(reads, result.classifier) sc = result.classification.view(pd.Series).to_dict() for taxon in gc: self.assertEqual(gc[taxon], sc[taxon]) def test_chunked_hashing_vectorizer(self): # results should not depend on chunk size _, X = _extract_reads(Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('se-dna-sequences.fasta')).view(DNAIterator)) params = {'analyzer': 'char', 'n_features': 8192, 'ngram_range': [8, 8], 'alternate_sign': False} hv = HashingVectorizer(**params) unchunked = hv.fit_transform(X) for chunk_size in (-1, 3, 13): chv = ChunkedHashingVectorizer(chunk_size=chunk_size, **params) chunked = chv.fit_transform(X) for x1, x2 in zip(chunked, unchunked): self.assertTrue((x1.todense() == x2.todense()).all()) q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/test_cutter.py000066400000000000000000000132671411645176200264030ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import skbio from qiime2.sdk import Artifact from qiime2.plugins.feature_classifier.actions import extract_reads from q2_types.feature_data._format import DNAFASTAFormat from . import FeatureClassifierTestPluginBase class CutterTests(FeatureClassifierTestPluginBase): package = 'q2_feature_classifier.tests' def setUp(self): super().setUp() self.sequences = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('dna-sequences.fasta')) self.mixed_sequences = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('dna-sequences-mixed.fasta')) self.f_primer = 'AGAGA' self.r_primer = 'GCTGC' self.amplicons = ['ACGT', 'AAGT', 'ACCT', 'ACGG', 'ACTT'] def _test_results(self, results): for i, result in enumerate( skbio.io.read(str(results.reads.view(DNAFASTAFormat)), format='fasta')): self.assertEqual(str(result), self.amplicons[i]) def test_extract_reads_expected(self): results = extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4) self._test_results(results) def test_extract_reads_expected_forward(self): results = extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4, read_orientation='forward') self._test_results(results) def test_extract_mixed(self): results = extract_reads( self.mixed_sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4) self._test_results(results) def test_extract_reads_expected_reverse(self): reverse_sequences = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('dna-sequences-reverse.fasta')) results = extract_reads( reverse_sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4, read_orientation='reverse') self._test_results(results) def test_extract_reads_manual_batch_size(self): results = extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4, batch_size=10) self._test_results(results) def test_extract_reads_two_jobs(self): results = extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4, n_jobs=2) self._test_results(results) def test_extract_reads_expected_degenerate_primers(self): degenerate_f_primer = 'WWWWW' degenerate_r_primer = 'SSSSS' degenerate_sequences = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('dna-sequences-degenerate-primers.fasta')) results = extract_reads( degenerate_sequences, f_primer=degenerate_f_primer, r_primer=degenerate_r_primer, min_length=4) self._test_results(results) def test_extract_reads_expected_trim_right(self): """Tests expected behavior of trim_right option""" results = extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=3, trim_right=1) for i, result in enumerate( skbio.io.read(str(results.reads.view(DNAFASTAFormat)), format='fasta')): self.assertEqual(str(result), self.amplicons[i][:-1]) def test_extract_reads_fail_identity(self): with self.assertRaisesRegex(RuntimeError, "No matches found"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=4, identity=1) def test_extract_reads_fail_min_length(self): with self.assertRaisesRegex(RuntimeError, "No matches found"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, min_length=5) def test_extract_reads_fail_max_length(self): with self.assertRaisesRegex(RuntimeError, "No matches found"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, max_length=1) def test_extract_reads_fail_trim_left_entire_read(self): with self.assertRaisesRegex(RuntimeError, "No matches found"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, trim_left=4) def test_extract_reads_fail_trim_right_entire_read(self): with self.assertRaisesRegex(RuntimeError, "No matches found"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, trim_right=4) def test_extract_reads_fail_trim_both_entire_read(self): with self.assertRaisesRegex(RuntimeError, "No matches found"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, trim_left=2, trim_right=2) def test_extract_reads_fail_min_len_greater_than_trunc_len(self): with self.assertRaisesRegex(ValueError, "minimum length setting"): extract_reads( self.sequences, f_primer=self.f_primer, r_primer=self.r_primer, trunc_len=1) q2-feature-classifier-2021.8.0/q2_feature_classifier/tests/test_taxonomic_classifier.py000066400000000000000000000111021411645176200312640ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- import unittest import json import tempfile import tarfile import os import shutil import sklearn import joblib from sklearn.pipeline import Pipeline from qiime2.sdk import Artifact from qiime2.plugins.feature_classifier.methods import \ fit_classifier_naive_bayes from .._taxonomic_classifier import ( TaxonomicClassifierDirFmt, TaxonomicClassifier, TaxonomicClassiferTemporaryPickleDirFmt, PickleFormat) from . import FeatureClassifierTestPluginBase class TaxonomicClassifierTestBase(FeatureClassifierTestPluginBase): package = 'q2_feature_classifier.tests' def setUp(self): super().setUp() reads = Artifact.import_data( 'FeatureData[Sequence]', self.get_data_path('se-dna-sequences.fasta')) taxonomy = Artifact.import_data( 'FeatureData[Taxonomy]', self.get_data_path('taxonomy.tsv')) classifier = fit_classifier_naive_bayes(reads, taxonomy) pipeline = classifier.classifier.view(Pipeline) transformer = self.get_transformer( Pipeline, TaxonomicClassiferTemporaryPickleDirFmt) self._sklp = transformer(pipeline) sklearn_pipeline = self._sklp.sklearn_pipeline.view(PickleFormat) self.sklearn_pipeline = str(sklearn_pipeline) def _custom_setup(self, version): with open(os.path.join(self.temp_dir.name, 'sklearn_version.json'), 'w') as fh: fh.write(json.dumps({'sklearn-version': version})) shutil.copy(self.sklearn_pipeline, self.temp_dir.name) return TaxonomicClassiferTemporaryPickleDirFmt( self.temp_dir.name, mode='r') class TestTypes(FeatureClassifierTestPluginBase): def test_taxonomic_classifier_semantic_type_registration(self): self.assertRegisteredSemanticType(TaxonomicClassifier) def test_taxonomic_classifier_semantic_type_to_format_registration(self): self.assertSemanticTypeRegisteredToFormat( TaxonomicClassifier, TaxonomicClassiferTemporaryPickleDirFmt) class TestFormats(TaxonomicClassifierTestBase): def test_taxonomic_classifier_dir_fmt(self): format = self._custom_setup(sklearn.__version__) # Should not error format.validate() class TestTransformers(TaxonomicClassifierTestBase): def test_old_sklearn_version(self): transformer = self.get_transformer( TaxonomicClassiferTemporaryPickleDirFmt, Pipeline) input = self._custom_setup('a very old version') with self.assertRaises(ValueError): transformer(input) def test_old_dirfmt(self): transformer = self.get_transformer(TaxonomicClassifierDirFmt, Pipeline) with open(os.path.join(self.temp_dir.name, 'preprocess_params.json'), 'w') as fh: fh.write(json.dumps([])) shutil.copy(self.sklearn_pipeline, self.temp_dir.name) input = TaxonomicClassifierDirFmt( self.temp_dir.name, mode='r') with self.assertRaises(ValueError): transformer(input) def test_taxo_class_dir_fmt_to_taxo_class_result(self): input = self._custom_setup(sklearn.__version__) transformer = self.get_transformer( TaxonomicClassiferTemporaryPickleDirFmt, Pipeline) obs = transformer(input) self.assertTrue(obs) def test_taxo_class_result_to_taxo_class_dir_fmt(self): def read_pipeline(pipeline_filepath): with tarfile.open(pipeline_filepath) as tar: dirname = tempfile.mkdtemp() tar.extractall(dirname) pipeline = joblib.load(os.path.join(dirname, 'sklearn_pipeline.pkl')) for fn in tar.getnames(): os.unlink(os.path.join(dirname, fn)) os.rmdir(dirname) return pipeline exp = read_pipeline(self.sklearn_pipeline) transformer = self.get_transformer( Pipeline, TaxonomicClassiferTemporaryPickleDirFmt) obs = transformer(exp) sklearn_pipeline = obs.sklearn_pipeline.view(PickleFormat) obs_pipeline = read_pipeline(str(sklearn_pipeline)) obs = obs_pipeline self.assertTrue(obs) if __name__ == "__main__": unittest.main() q2-feature-classifier-2021.8.0/setup.cfg000066400000000000000000000003121411645176200176650ustar00rootroot00000000000000[versioneer] VCS = git style = pep440 versionfile_source = q2_feature_classifier/_version.py versionfile_build = q2_feature_classifier/_version.py tag_prefix = parentdir_prefix = q2-feature-classifier- q2-feature-classifier-2021.8.0/setup.py000066400000000000000000000020011411645176200175530ustar00rootroot00000000000000# ---------------------------------------------------------------------------- # Copyright (c) 2016-2021, QIIME 2 development team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file LICENSE, distributed with this software. # ---------------------------------------------------------------------------- from setuptools import setup, find_packages import versioneer setup( name="q2-feature-classifier", version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), packages=find_packages(), author="Ben Kaehler", author_email="kaehler@gmail.com", description="Functionality for taxonomic classification", license='BSD-3-Clause', url="https://qiime2.org", entry_points={ 'qiime2.plugins': ['q2-feature-classifier=q2_feature_classifier.plugin_setup:plugin'] }, package_data={ 'q2_feature_classifier': ['citations.bib'], 'q2_feature_classifier.tests': ['data/*'], }, zip_safe=False, ) q2-feature-classifier-2021.8.0/versioneer.py000066400000000000000000002060221411645176200206050ustar00rootroot00000000000000 # Version: 0.18 # flake8: noqa """The Versioneer - like a rocketeer, but for versions. The Versioneer ============== * like a rocketeer, but for versions! * https://github.com/warner/python-versioneer * Brian Warner * License: Public Domain * Compatible With: python2.6, 2.7, 3.2, 3.3, 3.4, 3.5, 3.6, and pypy * [![Latest Version] (https://pypip.in/version/versioneer/badge.svg?style=flat) ](https://pypi.python.org/pypi/versioneer/) * [![Build Status] (https://travis-ci.org/warner/python-versioneer.png?branch=master) ](https://travis-ci.org/warner/python-versioneer) This is a tool for managing a recorded version number in distutils-based python projects. The goal is to remove the tedious and error-prone "update the embedded version string" step from your release process. Making a new release should be as easy as recording a new tag in your version-control system, and maybe making new tarballs. ## Quick Install * `pip install versioneer` to somewhere to your $PATH * add a `[versioneer]` section to your setup.cfg (see below) * run `versioneer install` in your source tree, commit the results ## Version Identifiers Source trees come from a variety of places: * a version-control system checkout (mostly used by developers) * a nightly tarball, produced by build automation * a snapshot tarball, produced by a web-based VCS browser, like github's "tarball from tag" feature * a release tarball, produced by "setup.py sdist", distributed through PyPI Within each source tree, the version identifier (either a string or a number, this tool is format-agnostic) can come from a variety of places: * ask the VCS tool itself, e.g. "git describe" (for checkouts), which knows about recent "tags" and an absolute revision-id * the name of the directory into which the tarball was unpacked * an expanded VCS keyword ($Id$, etc) * a `_version.py` created by some earlier build step For released software, the version identifier is closely related to a VCS tag. Some projects use tag names that include more than just the version string (e.g. "myproject-1.2" instead of just "1.2"), in which case the tool needs to strip the tag prefix to extract the version identifier. For unreleased software (between tags), the version identifier should provide enough information to help developers recreate the same tree, while also giving them an idea of roughly how old the tree is (after version 1.2, before version 1.3). Many VCS systems can report a description that captures this, for example `git describe --tags --dirty --always` reports things like "0.7-1-g574ab98-dirty" to indicate that the checkout is one revision past the 0.7 tag, has a unique revision id of "574ab98", and is "dirty" (it has uncommitted changes. The version identifier is used for multiple purposes: * to allow the module to self-identify its version: `myproject.__version__` * to choose a name and prefix for a 'setup.py sdist' tarball ## Theory of Operation Versioneer works by adding a special `_version.py` file into your source tree, where your `__init__.py` can import it. This `_version.py` knows how to dynamically ask the VCS tool for version information at import time. `_version.py` also contains `$Revision$` markers, and the installation process marks `_version.py` to have this marker rewritten with a tag name during the `git archive` command. As a result, generated tarballs will contain enough information to get the proper version. To allow `setup.py` to compute a version too, a `versioneer.py` is added to the top level of your source tree, next to `setup.py` and the `setup.cfg` that configures it. This overrides several distutils/setuptools commands to compute the version when invoked, and changes `setup.py build` and `setup.py sdist` to replace `_version.py` with a small static file that contains just the generated version data. ## Installation See [INSTALL.md](./INSTALL.md) for detailed installation instructions. ## Version-String Flavors Code which uses Versioneer can learn about its version string at runtime by importing `_version` from your main `__init__.py` file and running the `get_versions()` function. From the "outside" (e.g. in `setup.py`), you can import the top-level `versioneer.py` and run `get_versions()`. Both functions return a dictionary with different flavors of version information: * `['version']`: A condensed version string, rendered using the selected style. This is the most commonly used value for the project's version string. The default "pep440" style yields strings like `0.11`, `0.11+2.g1076c97`, or `0.11+2.g1076c97.dirty`. See the "Styles" section below for alternative styles. * `['full-revisionid']`: detailed revision identifier. For Git, this is the full SHA1 commit id, e.g. "1076c978a8d3cfc70f408fe5974aa6c092c949ac". * `['date']`: Date and time of the latest `HEAD` commit. For Git, it is the commit date in ISO 8601 format. This will be None if the date is not available. * `['dirty']`: a boolean, True if the tree has uncommitted changes. Note that this is only accurate if run in a VCS checkout, otherwise it is likely to be False or None * `['error']`: if the version string could not be computed, this will be set to a string describing the problem, otherwise it will be None. It may be useful to throw an exception in setup.py if this is set, to avoid e.g. creating tarballs with a version string of "unknown". Some variants are more useful than others. Including `full-revisionid` in a bug report should allow developers to reconstruct the exact code being tested (or indicate the presence of local changes that should be shared with the developers). `version` is suitable for display in an "about" box or a CLI `--version` output: it can be easily compared against release notes and lists of bugs fixed in various releases. The installer adds the following text to your `__init__.py` to place a basic version in `YOURPROJECT.__version__`: from ._version import get_versions __version__ = get_versions()['version'] del get_versions ## Styles The setup.cfg `style=` configuration controls how the VCS information is rendered into a version string. The default style, "pep440", produces a PEP440-compliant string, equal to the un-prefixed tag name for actual releases, and containing an additional "local version" section with more detail for in-between builds. For Git, this is TAG[+DISTANCE.gHEX[.dirty]] , using information from `git describe --tags --dirty --always`. For example "0.11+2.g1076c97.dirty" indicates that the tree is like the "1076c97" commit but has uncommitted changes (".dirty"), and that this commit is two revisions ("+2") beyond the "0.11" tag. For released software (exactly equal to a known tag), the identifier will only contain the stripped tag, e.g. "0.11". Other styles are available. See [details.md](details.md) in the Versioneer source tree for descriptions. ## Debugging Versioneer tries to avoid fatal errors: if something goes wrong, it will tend to return a version of "0+unknown". To investigate the problem, run `setup.py version`, which will run the version-lookup code in a verbose mode, and will display the full contents of `get_versions()` (including the `error` string, which may help identify what went wrong). ## Known Limitations Some situations are known to cause problems for Versioneer. This details the most significant ones. More can be found on Github [issues page](https://github.com/warner/python-versioneer/issues). ### Subprojects Versioneer has limited support for source trees in which `setup.py` is not in the root directory (e.g. `setup.py` and `.git/` are *not* siblings). The are two common reasons why `setup.py` might not be in the root: * Source trees which contain multiple subprojects, such as [Buildbot](https://github.com/buildbot/buildbot), which contains both "master" and "slave" subprojects, each with their own `setup.py`, `setup.cfg`, and `tox.ini`. Projects like these produce multiple PyPI distributions (and upload multiple independently-installable tarballs). * Source trees whose main purpose is to contain a C library, but which also provide bindings to Python (and perhaps other langauges) in subdirectories. Versioneer will look for `.git` in parent directories, and most operations should get the right version string. However `pip` and `setuptools` have bugs and implementation details which frequently cause `pip install .` from a subproject directory to fail to find a correct version string (so it usually defaults to `0+unknown`). `pip install --editable .` should work correctly. `setup.py install` might work too. Pip-8.1.1 is known to have this problem, but hopefully it will get fixed in some later version. [Bug #38](https://github.com/warner/python-versioneer/issues/38) is tracking this issue. The discussion in [PR #61](https://github.com/warner/python-versioneer/pull/61) describes the issue from the Versioneer side in more detail. [pip PR#3176](https://github.com/pypa/pip/pull/3176) and [pip PR#3615](https://github.com/pypa/pip/pull/3615) contain work to improve pip to let Versioneer work correctly. Versioneer-0.16 and earlier only looked for a `.git` directory next to the `setup.cfg`, so subprojects were completely unsupported with those releases. ### Editable installs with setuptools <= 18.5 `setup.py develop` and `pip install --editable .` allow you to install a project into a virtualenv once, then continue editing the source code (and test) without re-installing after every change. "Entry-point scripts" (`setup(entry_points={"console_scripts": ..})`) are a convenient way to specify executable scripts that should be installed along with the python package. These both work as expected when using modern setuptools. When using setuptools-18.5 or earlier, however, certain operations will cause `pkg_resources.DistributionNotFound` errors when running the entrypoint script, which must be resolved by re-installing the package. This happens when the install happens with one version, then the egg_info data is regenerated while a different version is checked out. Many setup.py commands cause egg_info to be rebuilt (including `sdist`, `wheel`, and installing into a different virtualenv), so this can be surprising. [Bug #83](https://github.com/warner/python-versioneer/issues/83) describes this one, but upgrading to a newer version of setuptools should probably resolve it. ### Unicode version strings While Versioneer works (and is continually tested) with both Python 2 and Python 3, it is not entirely consistent with bytes-vs-unicode distinctions. Newer releases probably generate unicode version strings on py2. It's not clear that this is wrong, but it may be surprising for applications when then write these strings to a network connection or include them in bytes-oriented APIs like cryptographic checksums. [Bug #71](https://github.com/warner/python-versioneer/issues/71) investigates this question. ## Updating Versioneer To upgrade your project to a new release of Versioneer, do the following: * install the new Versioneer (`pip install -U versioneer` or equivalent) * edit `setup.cfg`, if necessary, to include any new configuration settings indicated by the release notes. See [UPGRADING](./UPGRADING.md) for details. * re-run `versioneer install` in your source tree, to replace `SRC/_version.py` * commit any changed files ## Future Directions This tool is designed to make it easily extended to other version-control systems: all VCS-specific components are in separate directories like src/git/ . The top-level `versioneer.py` script is assembled from these components by running make-versioneer.py . In the future, make-versioneer.py will take a VCS name as an argument, and will construct a version of `versioneer.py` that is specific to the given VCS. It might also take the configuration arguments that are currently provided manually during installation by editing setup.py . Alternatively, it might go the other direction and include code from all supported VCS systems, reducing the number of intermediate scripts. ## License To make Versioneer easier to embed, all its code is dedicated to the public domain. The `_version.py` that it creates is also in the public domain. Specifically, both are released under the Creative Commons "Public Domain Dedication" license (CC0-1.0), as described in https://creativecommons.org/publicdomain/zero/1.0/ . """ from __future__ import print_function try: import configparser except ImportError: import ConfigParser as configparser import errno import json import os import re import subprocess import sys class VersioneerConfig: """Container for Versioneer configuration parameters.""" def get_root(): """Get the project root directory. We require that all commands are run from the project root, i.e. the directory that contains setup.py, setup.cfg, and versioneer.py . """ root = os.path.realpath(os.path.abspath(os.getcwd())) setup_py = os.path.join(root, "setup.py") versioneer_py = os.path.join(root, "versioneer.py") if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)): # allow 'python path/to/setup.py COMMAND' root = os.path.dirname(os.path.realpath(os.path.abspath(sys.argv[0]))) setup_py = os.path.join(root, "setup.py") versioneer_py = os.path.join(root, "versioneer.py") if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)): err = ("Versioneer was unable to run the project root directory. " "Versioneer requires setup.py to be executed from " "its immediate directory (like 'python setup.py COMMAND'), " "or in a way that lets it use sys.argv[0] to find the root " "(like 'python path/to/setup.py COMMAND').") raise VersioneerBadRootError(err) try: # Certain runtime workflows (setup.py install/develop in a setuptools # tree) execute all dependencies in a single python process, so # "versioneer" may be imported multiple times, and python's shared # module-import table will cache the first one. So we can't use # os.path.dirname(__file__), as that will find whichever # versioneer.py was first imported, even in later projects. me = os.path.realpath(os.path.abspath(__file__)) me_dir = os.path.normcase(os.path.splitext(me)[0]) vsr_dir = os.path.normcase(os.path.splitext(versioneer_py)[0]) if me_dir != vsr_dir: print("Warning: build in %s is using versioneer.py from %s" % (os.path.dirname(me), versioneer_py)) except NameError: pass return root def get_config_from_root(root): """Read the project setup.cfg file to determine Versioneer config.""" # This might raise EnvironmentError (if setup.cfg is missing), or # configparser.NoSectionError (if it lacks a [versioneer] section), or # configparser.NoOptionError (if it lacks "VCS="). See the docstring at # the top of versioneer.py for instructions on writing your setup.cfg . setup_cfg = os.path.join(root, "setup.cfg") parser = configparser.SafeConfigParser() with open(setup_cfg, "r") as f: parser.readfp(f) VCS = parser.get("versioneer", "VCS") # mandatory def get(parser, name): if parser.has_option("versioneer", name): return parser.get("versioneer", name) return None cfg = VersioneerConfig() cfg.VCS = VCS cfg.style = get(parser, "style") or "" cfg.versionfile_source = get(parser, "versionfile_source") cfg.versionfile_build = get(parser, "versionfile_build") cfg.tag_prefix = get(parser, "tag_prefix") if cfg.tag_prefix in ("''", '""'): cfg.tag_prefix = "" cfg.parentdir_prefix = get(parser, "parentdir_prefix") cfg.verbose = get(parser, "verbose") return cfg class NotThisMethod(Exception): """Exception raised if a method is not valid for the current scenario.""" # these dictionaries contain VCS-specific tools LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator """Decorator to mark a method as the handler for a particular VCS.""" def decorate(f): """Store f in HANDLERS[vcs][method].""" if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None): """Call the given command(s).""" assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, env=env, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %s" % dispcmd) print(e) return None, None else: if verbose: print("unable to find command, tried %s" % (commands,)) return None, None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %s (error)" % dispcmd) print("stdout was %s" % stdout) return None, p.returncode return stdout, p.returncode LONG_VERSION_PY['git'] = ''' # This file helps to compute a version number in source trees obtained from # git-archive tarball (such as those provided by githubs download-from-tag # feature). Distribution tarballs (built by setup.py sdist) and build # directories (produced by setup.py build) will contain a much shorter file # that just contains the computed version number. # This file is released into the public domain. Generated by # versioneer-0.18 (https://github.com/warner/python-versioneer) """Git implementation of _version.py.""" import errno import os import re import subprocess import sys def get_keywords(): """Get the keywords needed to look up the version information.""" # these strings will be replaced by git during git-archive. # setup.py/versioneer.py will grep for the variable names, so they must # each be defined on a line of their own. _version.py will just call # get_keywords(). git_refnames = "%(DOLLAR)sFormat:%%d%(DOLLAR)s" git_full = "%(DOLLAR)sFormat:%%H%(DOLLAR)s" git_date = "%(DOLLAR)sFormat:%%ci%(DOLLAR)s" keywords = {"refnames": git_refnames, "full": git_full, "date": git_date} return keywords class VersioneerConfig: """Container for Versioneer configuration parameters.""" def get_config(): """Create, populate and return the VersioneerConfig() object.""" # these strings are filled in when 'setup.py versioneer' creates # _version.py cfg = VersioneerConfig() cfg.VCS = "git" cfg.style = "%(STYLE)s" cfg.tag_prefix = "%(TAG_PREFIX)s" cfg.parentdir_prefix = "%(PARENTDIR_PREFIX)s" cfg.versionfile_source = "%(VERSIONFILE_SOURCE)s" cfg.verbose = False return cfg class NotThisMethod(Exception): """Exception raised if a method is not valid for the current scenario.""" LONG_VERSION_PY = {} HANDLERS = {} def register_vcs_handler(vcs, method): # decorator """Decorator to mark a method as the handler for a particular VCS.""" def decorate(f): """Store f in HANDLERS[vcs][method].""" if vcs not in HANDLERS: HANDLERS[vcs] = {} HANDLERS[vcs][method] = f return f return decorate def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None): """Call the given command(s).""" assert isinstance(commands, list) p = None for c in commands: try: dispcmd = str([c] + args) # remember shell=False, so use git.cmd on windows, not just git p = subprocess.Popen([c] + args, cwd=cwd, env=env, stdout=subprocess.PIPE, stderr=(subprocess.PIPE if hide_stderr else None)) break except EnvironmentError: e = sys.exc_info()[1] if e.errno == errno.ENOENT: continue if verbose: print("unable to run %%s" %% dispcmd) print(e) return None, None else: if verbose: print("unable to find command, tried %%s" %% (commands,)) return None, None stdout = p.communicate()[0].strip() if sys.version_info[0] >= 3: stdout = stdout.decode() if p.returncode != 0: if verbose: print("unable to run %%s (error)" %% dispcmd) print("stdout was %%s" %% stdout) return None, p.returncode return stdout, p.returncode def versions_from_parentdir(parentdir_prefix, root, verbose): """Try to determine the version from the parent directory name. Source tarballs conventionally unpack into a directory that includes both the project name and a version string. We will also support searching up two directory levels for an appropriately named parent directory """ rootdirs = [] for i in range(3): dirname = os.path.basename(root) if dirname.startswith(parentdir_prefix): return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None, "date": None} else: rootdirs.append(root) root = os.path.dirname(root) # up a level if verbose: print("Tried directories %%s but none started with prefix %%s" %% (str(rootdirs), parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): """Extract version information from the given file.""" # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) if line.strip().startswith("git_date ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["date"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): """Get version information from git keywords.""" if not keywords: raise NotThisMethod("no keywords at all, weird") date = keywords.get("date") if date is not None: # git-2.2.0 added "%%cI", which expands to an ISO-8601 -compliant # datestamp. However we prefer "%%ci" (which expands to an "ISO-8601 # -like" string, which we must then edit to make compliant), because # it's been around since git-1.5.3, and it's too difficult to # discover which version we're using, or to work around using an # older one. date = date.strip().replace(" ", "T", 1).replace(" ", "", 1) refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %%d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%%s', no digits" %% ",".join(refs - tags)) if verbose: print("likely tags: %%s" %% ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %%s" %% r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None, "date": date} # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags", "date": None} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): """Get version from 'git describe' in the root of the source tree. This only gets called if the git-archive 'subst' keywords were *not* expanded, and _version.py hasn't already been rewritten with a short version string, meaning we're inside a checked out source tree. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] out, rc = run_command(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True) if rc != 0: if verbose: print("Directory %%s not under git control" %% root) raise NotThisMethod("'git rev-parse --git-dir' returned error") # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty] # if there isn't one, this yields HEX[-dirty] (no NUM) describe_out, rc = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long", "--match", "%%s*" %% tag_prefix], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out, rc = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%%s'" %% describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%%s' doesn't start with prefix '%%s'" print(fmt %% (full_tag, tag_prefix)) pieces["error"] = ("tag '%%s' doesn't start with prefix '%%s'" %% (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out, rc = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits # commit date: see ISO-8601 comment in git_versions_from_keywords() date = run_command(GITS, ["show", "-s", "--format=%%ci", "HEAD"], cwd=root)[0].strip() pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1) return pieces def plus_or_dot(pieces): """Return a + if we don't already have one, else return a .""" if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): """Build up version string, with post-release "local version identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty Exceptions: 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%%d.g%%s" %% (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%%d.g%%s" %% (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): """TAG[.post.devDISTANCE] -- No -dirty. Exceptions: 1: no tags. 0.post.devDISTANCE """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%%d" %% pieces["distance"] else: # exception #1 rendered = "0.post.dev%%d" %% pieces["distance"] return rendered def render_pep440_post(pieces): """TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that .dev0 sorts backwards (a dirty tree will appear "older" than the corresponding clean one), but you shouldn't be releasing software with -dirty anyways. Exceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%%s" %% pieces["short"] else: # exception #1 rendered = "0.post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%%s" %% pieces["short"] return rendered def render_pep440_old(pieces): """TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. Eexceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%%d" %% pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): """TAG[-DISTANCE-gHEX][-dirty]. Like 'git describe --tags --dirty --always'. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): """TAG-DISTANCE-gHEX[-dirty]. Like 'git describe --tags --dirty --always -long'. The distance/hash is unconditional. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): """Render the given version pieces into the requested style.""" if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"], "date": None} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%%s'" %% style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None, "date": pieces.get("date")} def get_versions(): """Get version information or return default if unable to do so.""" # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have # __file__, we can work backwards from there to the root. Some # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which # case we can only use expanded keywords. cfg = get_config() verbose = cfg.verbose try: return git_versions_from_keywords(get_keywords(), cfg.tag_prefix, verbose) except NotThisMethod: pass try: root = os.path.realpath(__file__) # versionfile_source is the relative path from the top of the source # tree (where the .git directory might live) to this file. Invert # this to find the root from __file__. for i in cfg.versionfile_source.split('/'): root = os.path.dirname(root) except NameError: return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to find root of source tree", "date": None} try: pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose) return render(pieces, cfg.style) except NotThisMethod: pass try: if cfg.parentdir_prefix: return versions_from_parentdir(cfg.parentdir_prefix, root, verbose) except NotThisMethod: pass return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version", "date": None} ''' @register_vcs_handler("git", "get_keywords") def git_get_keywords(versionfile_abs): """Extract version information from the given file.""" # the code embedded in _version.py can just fetch the value of these # keywords. When used from setup.py, we don't want to import _version.py, # so we do it with a regexp instead. This function is not used from # _version.py. keywords = {} try: f = open(versionfile_abs, "r") for line in f.readlines(): if line.strip().startswith("git_refnames ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["refnames"] = mo.group(1) if line.strip().startswith("git_full ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["full"] = mo.group(1) if line.strip().startswith("git_date ="): mo = re.search(r'=\s*"(.*)"', line) if mo: keywords["date"] = mo.group(1) f.close() except EnvironmentError: pass return keywords @register_vcs_handler("git", "keywords") def git_versions_from_keywords(keywords, tag_prefix, verbose): """Get version information from git keywords.""" if not keywords: raise NotThisMethod("no keywords at all, weird") date = keywords.get("date") if date is not None: # git-2.2.0 added "%cI", which expands to an ISO-8601 -compliant # datestamp. However we prefer "%ci" (which expands to an "ISO-8601 # -like" string, which we must then edit to make compliant), because # it's been around since git-1.5.3, and it's too difficult to # discover which version we're using, or to work around using an # older one. date = date.strip().replace(" ", "T", 1).replace(" ", "", 1) refnames = keywords["refnames"].strip() if refnames.startswith("$Format"): if verbose: print("keywords are unexpanded, not using") raise NotThisMethod("unexpanded keywords, not a git-archive tarball") refs = set([r.strip() for r in refnames.strip("()").split(",")]) # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of # just "foo-1.0". If we see a "tag: " prefix, prefer those. TAG = "tag: " tags = set([r[len(TAG):] for r in refs if r.startswith(TAG)]) if not tags: # Either we're using git < 1.8.3, or there really are no tags. We use # a heuristic: assume all version tags have a digit. The old git %d # expansion behaves like git log --decorate=short and strips out the # refs/heads/ and refs/tags/ prefixes that would let us distinguish # between branches and tags. By ignoring refnames without digits, we # filter out many common branch names like "release" and # "stabilization", as well as "HEAD" and "master". tags = set([r for r in refs if re.search(r'\d', r)]) if verbose: print("discarding '%s', no digits" % ",".join(refs - tags)) if verbose: print("likely tags: %s" % ",".join(sorted(tags))) for ref in sorted(tags): # sorting will prefer e.g. "2.0" over "2.0rc1" if ref.startswith(tag_prefix): r = ref[len(tag_prefix):] if verbose: print("picking %s" % r) return {"version": r, "full-revisionid": keywords["full"].strip(), "dirty": False, "error": None, "date": date} # no suitable tags, so version is "0+unknown", but full hex is still there if verbose: print("no suitable tags, using unknown + full revision id") return {"version": "0+unknown", "full-revisionid": keywords["full"].strip(), "dirty": False, "error": "no suitable tags", "date": None} @register_vcs_handler("git", "pieces_from_vcs") def git_pieces_from_vcs(tag_prefix, root, verbose, run_command=run_command): """Get version from 'git describe' in the root of the source tree. This only gets called if the git-archive 'subst' keywords were *not* expanded, and _version.py hasn't already been rewritten with a short version string, meaning we're inside a checked out source tree. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] out, rc = run_command(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True) if rc != 0: if verbose: print("Directory %s not under git control" % root) raise NotThisMethod("'git rev-parse --git-dir' returned error") # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty] # if there isn't one, this yields HEX[-dirty] (no NUM) describe_out, rc = run_command(GITS, ["describe", "--tags", "--dirty", "--always", "--long", "--match", "%s*" % tag_prefix], cwd=root) # --long was added in git-1.5.5 if describe_out is None: raise NotThisMethod("'git describe' failed") describe_out = describe_out.strip() full_out, rc = run_command(GITS, ["rev-parse", "HEAD"], cwd=root) if full_out is None: raise NotThisMethod("'git rev-parse' failed") full_out = full_out.strip() pieces = {} pieces["long"] = full_out pieces["short"] = full_out[:7] # maybe improved later pieces["error"] = None # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty] # TAG might have hyphens. git_describe = describe_out # look for -dirty suffix dirty = git_describe.endswith("-dirty") pieces["dirty"] = dirty if dirty: git_describe = git_describe[:git_describe.rindex("-dirty")] # now we have TAG-NUM-gHEX or HEX if "-" in git_describe: # TAG-NUM-gHEX mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe) if not mo: # unparseable. Maybe git-describe is misbehaving? pieces["error"] = ("unable to parse git-describe output: '%s'" % describe_out) return pieces # tag full_tag = mo.group(1) if not full_tag.startswith(tag_prefix): if verbose: fmt = "tag '%s' doesn't start with prefix '%s'" print(fmt % (full_tag, tag_prefix)) pieces["error"] = ("tag '%s' doesn't start with prefix '%s'" % (full_tag, tag_prefix)) return pieces pieces["closest-tag"] = full_tag[len(tag_prefix):] # distance: number of commits since tag pieces["distance"] = int(mo.group(2)) # commit: short hex revision ID pieces["short"] = mo.group(3) else: # HEX: no tags pieces["closest-tag"] = None count_out, rc = run_command(GITS, ["rev-list", "HEAD", "--count"], cwd=root) pieces["distance"] = int(count_out) # total number of commits # commit date: see ISO-8601 comment in git_versions_from_keywords() date = run_command(GITS, ["show", "-s", "--format=%ci", "HEAD"], cwd=root)[0].strip() pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1) return pieces def do_vcs_install(manifest_in, versionfile_source, ipy): """Git-specific installation logic for Versioneer. For Git, this means creating/changing .gitattributes to mark _version.py for export-subst keyword substitution. """ GITS = ["git"] if sys.platform == "win32": GITS = ["git.cmd", "git.exe"] files = [manifest_in, versionfile_source] if ipy: files.append(ipy) try: me = __file__ if me.endswith(".pyc") or me.endswith(".pyo"): me = os.path.splitext(me)[0] + ".py" versioneer_file = os.path.relpath(me) except NameError: versioneer_file = "versioneer.py" files.append(versioneer_file) present = False try: f = open(".gitattributes", "r") for line in f.readlines(): if line.strip().startswith(versionfile_source): if "export-subst" in line.strip().split()[1:]: present = True f.close() except EnvironmentError: pass if not present: f = open(".gitattributes", "a+") f.write("%s export-subst\n" % versionfile_source) f.close() files.append(".gitattributes") run_command(GITS, ["add", "--"] + files) def versions_from_parentdir(parentdir_prefix, root, verbose): """Try to determine the version from the parent directory name. Source tarballs conventionally unpack into a directory that includes both the project name and a version string. We will also support searching up two directory levels for an appropriately named parent directory """ rootdirs = [] for i in range(3): dirname = os.path.basename(root) if dirname.startswith(parentdir_prefix): return {"version": dirname[len(parentdir_prefix):], "full-revisionid": None, "dirty": False, "error": None, "date": None} else: rootdirs.append(root) root = os.path.dirname(root) # up a level if verbose: print("Tried directories %s but none started with prefix %s" % (str(rootdirs), parentdir_prefix)) raise NotThisMethod("rootdir doesn't start with parentdir_prefix") SHORT_VERSION_PY = """ # This file was generated by 'versioneer.py' (0.18) from # revision-control system data, or from the parent directory name of an # unpacked source archive. Distribution tarballs contain a pre-generated copy # of this file. import json version_json = ''' %s ''' # END VERSION_JSON def get_versions(): return json.loads(version_json) """ def versions_from_file(filename): """Try to determine the version from _version.py if present.""" try: with open(filename) as f: contents = f.read() except EnvironmentError: raise NotThisMethod("unable to read _version.py") mo = re.search(r"version_json = '''\n(.*)''' # END VERSION_JSON", contents, re.M | re.S) if not mo: mo = re.search(r"version_json = '''\r\n(.*)''' # END VERSION_JSON", contents, re.M | re.S) if not mo: raise NotThisMethod("no version_json in _version.py") return json.loads(mo.group(1)) def write_to_version_file(filename, versions): """Write the given version number to the given _version.py file.""" os.unlink(filename) contents = json.dumps(versions, sort_keys=True, indent=1, separators=(",", ": ")) with open(filename, "w") as f: f.write(SHORT_VERSION_PY % contents) print("set %s to '%s'" % (filename, versions["version"])) def plus_or_dot(pieces): """Return a + if we don't already have one, else return a .""" if "+" in pieces.get("closest-tag", ""): return "." return "+" def render_pep440(pieces): """Build up version string, with post-release "local version identifier". Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty Exceptions: 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += plus_or_dot(pieces) rendered += "%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" else: # exception #1 rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"]) if pieces["dirty"]: rendered += ".dirty" return rendered def render_pep440_pre(pieces): """TAG[.post.devDISTANCE] -- No -dirty. Exceptions: 1: no tags. 0.post.devDISTANCE """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += ".post.dev%d" % pieces["distance"] else: # exception #1 rendered = "0.post.dev%d" % pieces["distance"] return rendered def render_pep440_post(pieces): """TAG[.postDISTANCE[.dev0]+gHEX] . The ".dev0" means dirty. Note that .dev0 sorts backwards (a dirty tree will appear "older" than the corresponding clean one), but you shouldn't be releasing software with -dirty anyways. Exceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += plus_or_dot(pieces) rendered += "g%s" % pieces["short"] else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" rendered += "+g%s" % pieces["short"] return rendered def render_pep440_old(pieces): """TAG[.postDISTANCE[.dev0]] . The ".dev0" means dirty. Eexceptions: 1: no tags. 0.postDISTANCE[.dev0] """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"] or pieces["dirty"]: rendered += ".post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" else: # exception #1 rendered = "0.post%d" % pieces["distance"] if pieces["dirty"]: rendered += ".dev0" return rendered def render_git_describe(pieces): """TAG[-DISTANCE-gHEX][-dirty]. Like 'git describe --tags --dirty --always'. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] if pieces["distance"]: rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render_git_describe_long(pieces): """TAG-DISTANCE-gHEX[-dirty]. Like 'git describe --tags --dirty --always -long'. The distance/hash is unconditional. Exceptions: 1: no tags. HEX[-dirty] (note: no 'g' prefix) """ if pieces["closest-tag"]: rendered = pieces["closest-tag"] rendered += "-%d-g%s" % (pieces["distance"], pieces["short"]) else: # exception #1 rendered = pieces["short"] if pieces["dirty"]: rendered += "-dirty" return rendered def render(pieces, style): """Render the given version pieces into the requested style.""" if pieces["error"]: return {"version": "unknown", "full-revisionid": pieces.get("long"), "dirty": None, "error": pieces["error"], "date": None} if not style or style == "default": style = "pep440" # the default if style == "pep440": rendered = render_pep440(pieces) elif style == "pep440-pre": rendered = render_pep440_pre(pieces) elif style == "pep440-post": rendered = render_pep440_post(pieces) elif style == "pep440-old": rendered = render_pep440_old(pieces) elif style == "git-describe": rendered = render_git_describe(pieces) elif style == "git-describe-long": rendered = render_git_describe_long(pieces) else: raise ValueError("unknown style '%s'" % style) return {"version": rendered, "full-revisionid": pieces["long"], "dirty": pieces["dirty"], "error": None, "date": pieces.get("date")} class VersioneerBadRootError(Exception): """The project root directory is unknown or missing key files.""" def get_versions(verbose=False): """Get the project version from whatever source is available. Returns dict with two keys: 'version' and 'full'. """ if "versioneer" in sys.modules: # see the discussion in cmdclass.py:get_cmdclass() del sys.modules["versioneer"] root = get_root() cfg = get_config_from_root(root) assert cfg.VCS is not None, "please set [versioneer]VCS= in setup.cfg" handlers = HANDLERS.get(cfg.VCS) assert handlers, "unrecognized VCS '%s'" % cfg.VCS verbose = verbose or cfg.verbose assert cfg.versionfile_source is not None, \ "please set versioneer.versionfile_source" assert cfg.tag_prefix is not None, "please set versioneer.tag_prefix" versionfile_abs = os.path.join(root, cfg.versionfile_source) # extract version from first of: _version.py, VCS command (e.g. 'git # describe'), parentdir. This is meant to work for developers using a # source checkout, for users of a tarball created by 'setup.py sdist', # and for users of a tarball/zipball created by 'git archive' or github's # download-from-tag feature or the equivalent in other VCSes. get_keywords_f = handlers.get("get_keywords") from_keywords_f = handlers.get("keywords") if get_keywords_f and from_keywords_f: try: keywords = get_keywords_f(versionfile_abs) ver = from_keywords_f(keywords, cfg.tag_prefix, verbose) if verbose: print("got version from expanded keyword %s" % ver) return ver except NotThisMethod: pass try: ver = versions_from_file(versionfile_abs) if verbose: print("got version from file %s %s" % (versionfile_abs, ver)) return ver except NotThisMethod: pass from_vcs_f = handlers.get("pieces_from_vcs") if from_vcs_f: try: pieces = from_vcs_f(cfg.tag_prefix, root, verbose) ver = render(pieces, cfg.style) if verbose: print("got version from VCS %s" % ver) return ver except NotThisMethod: pass try: if cfg.parentdir_prefix: ver = versions_from_parentdir(cfg.parentdir_prefix, root, verbose) if verbose: print("got version from parentdir %s" % ver) return ver except NotThisMethod: pass if verbose: print("unable to compute version") return {"version": "0+unknown", "full-revisionid": None, "dirty": None, "error": "unable to compute version", "date": None} def get_version(): """Get the short version string for this project.""" return get_versions()["version"] def get_cmdclass(): """Get the custom setuptools/distutils subclasses used by Versioneer.""" if "versioneer" in sys.modules: del sys.modules["versioneer"] # this fixes the "python setup.py develop" case (also 'install' and # 'easy_install .'), in which subdependencies of the main project are # built (using setup.py bdist_egg) in the same python process. Assume # a main project A and a dependency B, which use different versions # of Versioneer. A's setup.py imports A's Versioneer, leaving it in # sys.modules by the time B's setup.py is executed, causing B to run # with the wrong versioneer. Setuptools wraps the sub-dep builds in a # sandbox that restores sys.modules to it's pre-build state, so the # parent is protected against the child's "import versioneer". By # removing ourselves from sys.modules here, before the child build # happens, we protect the child from the parent's versioneer too. # Also see https://github.com/warner/python-versioneer/issues/52 cmds = {} # we add "version" to both distutils and setuptools from distutils.core import Command class cmd_version(Command): description = "report generated version string" user_options = [] boolean_options = [] def initialize_options(self): pass def finalize_options(self): pass def run(self): vers = get_versions(verbose=True) print("Version: %s" % vers["version"]) print(" full-revisionid: %s" % vers.get("full-revisionid")) print(" dirty: %s" % vers.get("dirty")) print(" date: %s" % vers.get("date")) if vers["error"]: print(" error: %s" % vers["error"]) cmds["version"] = cmd_version # we override "build_py" in both distutils and setuptools # # most invocation pathways end up running build_py: # distutils/build -> build_py # distutils/install -> distutils/build ->.. # setuptools/bdist_wheel -> distutils/install ->.. # setuptools/bdist_egg -> distutils/install_lib -> build_py # setuptools/install -> bdist_egg ->.. # setuptools/develop -> ? # pip install: # copies source tree to a tempdir before running egg_info/etc # if .git isn't copied too, 'git describe' will fail # then does setup.py bdist_wheel, or sometimes setup.py install # setup.py egg_info -> ? # we override different "build_py" commands for both environments if "setuptools" in sys.modules: from setuptools.command.build_py import build_py as _build_py else: from distutils.command.build_py import build_py as _build_py class cmd_build_py(_build_py): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() _build_py.run(self) # now locate _version.py in the new build/ directory and replace # it with an updated value if cfg.versionfile_build: target_versionfile = os.path.join(self.build_lib, cfg.versionfile_build) print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) cmds["build_py"] = cmd_build_py if "cx_Freeze" in sys.modules: # cx_freeze enabled? from cx_Freeze.dist import build_exe as _build_exe # nczeczulin reports that py2exe won't like the pep440-style string # as FILEVERSION, but it can be used for PRODUCTVERSION, e.g. # setup(console=[{ # "version": versioneer.get_version().split("+", 1)[0], # FILEVERSION # "product_version": versioneer.get_version(), # ... class cmd_build_exe(_build_exe): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() target_versionfile = cfg.versionfile_source print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) _build_exe.run(self) os.unlink(target_versionfile) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) cmds["build_exe"] = cmd_build_exe del cmds["build_py"] if 'py2exe' in sys.modules: # py2exe enabled? try: from py2exe.distutils_buildexe import py2exe as _py2exe # py3 except ImportError: from py2exe.build_exe import py2exe as _py2exe # py2 class cmd_py2exe(_py2exe): def run(self): root = get_root() cfg = get_config_from_root(root) versions = get_versions() target_versionfile = cfg.versionfile_source print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, versions) _py2exe.run(self) os.unlink(target_versionfile) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) cmds["py2exe"] = cmd_py2exe # we override different "sdist" commands for both environments if "setuptools" in sys.modules: from setuptools.command.sdist import sdist as _sdist else: from distutils.command.sdist import sdist as _sdist class cmd_sdist(_sdist): def run(self): versions = get_versions() self._versioneer_generated_versions = versions # unless we update this, the command will keep using the old # version self.distribution.metadata.version = versions["version"] return _sdist.run(self) def make_release_tree(self, base_dir, files): root = get_root() cfg = get_config_from_root(root) _sdist.make_release_tree(self, base_dir, files) # now locate _version.py in the new base_dir directory # (remembering that it may be a hardlink) and replace it with an # updated value target_versionfile = os.path.join(base_dir, cfg.versionfile_source) print("UPDATING %s" % target_versionfile) write_to_version_file(target_versionfile, self._versioneer_generated_versions) cmds["sdist"] = cmd_sdist return cmds CONFIG_ERROR = """ setup.cfg is missing the necessary Versioneer configuration. You need a section like: [versioneer] VCS = git style = pep440 versionfile_source = src/myproject/_version.py versionfile_build = myproject/_version.py tag_prefix = parentdir_prefix = myproject- You will also need to edit your setup.py to use the results: import versioneer setup(version=versioneer.get_version(), cmdclass=versioneer.get_cmdclass(), ...) Please read the docstring in ./versioneer.py for configuration instructions, edit setup.cfg, and re-run the installer or 'python versioneer.py setup'. """ SAMPLE_CONFIG = """ # See the docstring in versioneer.py for instructions. Note that you must # re-run 'versioneer.py setup' after changing this section, and commit the # resulting files. [versioneer] #VCS = git #style = pep440 #versionfile_source = #versionfile_build = #tag_prefix = #parentdir_prefix = """ INIT_PY_SNIPPET = """ from ._version import get_versions __version__ = get_versions()['version'] del get_versions """ def do_setup(): """Main VCS-independent setup function for installing Versioneer.""" root = get_root() try: cfg = get_config_from_root(root) except (EnvironmentError, configparser.NoSectionError, configparser.NoOptionError) as e: if isinstance(e, (EnvironmentError, configparser.NoSectionError)): print("Adding sample versioneer config to setup.cfg", file=sys.stderr) with open(os.path.join(root, "setup.cfg"), "a") as f: f.write(SAMPLE_CONFIG) print(CONFIG_ERROR, file=sys.stderr) return 1 print(" creating %s" % cfg.versionfile_source) with open(cfg.versionfile_source, "w") as f: LONG = LONG_VERSION_PY[cfg.VCS] f.write(LONG % {"DOLLAR": "$", "STYLE": cfg.style, "TAG_PREFIX": cfg.tag_prefix, "PARENTDIR_PREFIX": cfg.parentdir_prefix, "VERSIONFILE_SOURCE": cfg.versionfile_source, }) ipy = os.path.join(os.path.dirname(cfg.versionfile_source), "__init__.py") if os.path.exists(ipy): try: with open(ipy, "r") as f: old = f.read() except EnvironmentError: old = "" if INIT_PY_SNIPPET not in old: print(" appending to %s" % ipy) with open(ipy, "a") as f: f.write(INIT_PY_SNIPPET) else: print(" %s unmodified" % ipy) else: print(" %s doesn't exist, ok" % ipy) ipy = None # Make sure both the top-level "versioneer.py" and versionfile_source # (PKG/_version.py, used by runtime code) are in MANIFEST.in, so # they'll be copied into source distributions. Pip won't be able to # install the package without this. manifest_in = os.path.join(root, "MANIFEST.in") simple_includes = set() try: with open(manifest_in, "r") as f: for line in f: if line.startswith("include "): for include in line.split()[1:]: simple_includes.add(include) except EnvironmentError: pass # That doesn't cover everything MANIFEST.in can do # (http://docs.python.org/2/distutils/sourcedist.html#commands), so # it might give some false negatives. Appending redundant 'include' # lines is safe, though. if "versioneer.py" not in simple_includes: print(" appending 'versioneer.py' to MANIFEST.in") with open(manifest_in, "a") as f: f.write("include versioneer.py\n") else: print(" 'versioneer.py' already in MANIFEST.in") if cfg.versionfile_source not in simple_includes: print(" appending versionfile_source ('%s') to MANIFEST.in" % cfg.versionfile_source) with open(manifest_in, "a") as f: f.write("include %s\n" % cfg.versionfile_source) else: print(" versionfile_source already in MANIFEST.in") # Make VCS-specific changes. For git, this means creating/changing # .gitattributes to mark _version.py for export-subst keyword # substitution. do_vcs_install(manifest_in, cfg.versionfile_source, ipy) return 0 def scan_setup_py(): """Validate the contents of setup.py against Versioneer's expectations.""" found = set() setters = False errors = 0 with open("setup.py", "r") as f: for line in f.readlines(): if "import versioneer" in line: found.add("import") if "versioneer.get_cmdclass()" in line: found.add("cmdclass") if "versioneer.get_version()" in line: found.add("get_version") if "versioneer.VCS" in line: setters = True if "versioneer.versionfile_source" in line: setters = True if len(found) != 3: print("") print("Your setup.py appears to be missing some important items") print("(but I might be wrong). Please make sure it has something") print("roughly like the following:") print("") print(" import versioneer") print(" setup( version=versioneer.get_version(),") print(" cmdclass=versioneer.get_cmdclass(), ...)") print("") errors += 1 if setters: print("You should remove lines like 'versioneer.VCS = ' and") print("'versioneer.versionfile_source = ' . This configuration") print("now lives in setup.cfg, and should be removed from setup.py") print("") errors += 1 return errors if __name__ == "__main__": cmd = sys.argv[1] if cmd == "setup": errors = do_setup() errors += scan_setup_py() if errors: sys.exit(1)