The EnteroBase user's guide, with case studies on Salmonella transmissions, Yersinia pestis phylogeny, and Escherichia core genomic diversity
Identifieur interne : 000581 ( Hal/Corpus ); précédent : 000580; suivant : 000582The EnteroBase user's guide, with case studies on Salmonella transmissions, Yersinia pestis phylogeny, and Escherichia core genomic diversity
Auteurs : Zhemin Zhou ; Nabil-Fareed Alikhan ; Khaled Mohamed ; Yulei Fan ; Agama Study Group ; Mark AchtmanSource :
- Genome Research [ 1088-9051 ] ; 2020-01.
Abstract
EnteroBase is an integrated software environment that supports the identification of global population structures within several bacterial genera that include pathogens. Here, we provide an overview of how EnteroBase works, what it can do, and its future prospects. EnteroBase has currently assembled more than 300,000 genomes from Illumina short reads from Salmonella, Escherichia, Yersinia, Clostridioides, Helicobacter, Vibrio, and Moraxella and genotyped those assemblies by core ge-nome multilocus sequence typing (cgMLST). Hierarchical clustering of cgMLST sequence types allows mapping a new bacterial strain to predefined population structures at multiple levels of resolution within a few hours after uploading its short reads. Case Study 1 illustrates this process for local transmissions of Salmonella enterica serovar Agama between neighboring social groups of badgers and humans. EnteroBase also supports single nucleotide polymorphism (SNP) calls from both ge-nomic assemblies and after extraction from metagenomic sequences, as illustrated by Case Study 2 which summarizes the microevolution of Yersinia pestis over the last 5000 years of pandemic plague. EnteroBase can also provide a global overview of the genomic diversity within an entire genus, as illustrated by Case Study 3, which presents a novel, global overview of the population structure of all of the species, subspecies, and clades within Escherichia.
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DOI: 10.1101/gr.251678.119
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Here, we provide an overview of how EnteroBase works, what it can do, and its future prospects. EnteroBase has currently assembled more than 300,000 genomes from Illumina short reads from Salmonella, Escherichia, Yersinia, Clostridioides, Helicobacter, Vibrio, and Moraxella and genotyped those assemblies by core ge-nome multilocus sequence typing (cgMLST). Hierarchical clustering of cgMLST sequence types allows mapping a new bacterial strain to predefined population structures at multiple levels of resolution within a few hours after uploading its short reads. Case Study 1 illustrates this process for local transmissions of Salmonella enterica serovar Agama between neighboring social groups of badgers and humans. EnteroBase also supports single nucleotide polymorphism (SNP) calls from both ge-nomic assemblies and after extraction from metagenomic sequences, as illustrated by Case Study 2 which summarizes the microevolution of Yersinia pestis over the last 5000 years of pandemic plague. EnteroBase can also provide a global overview of the genomic diversity within an entire genus, as illustrated by Case Study 3, which presents a novel, global overview of the population structure of all of the species, subspecies, and clades within Escherichia.</p> </div></front></TEI><hal api="V3"> <titleStmt> <title xml:lang="en">The EnteroBase user's guide, with case studies on Salmonella transmissions, Yersinia pestis phylogeny, and Escherichia core genomic diversity</title> <author role="aut"> <persName> <forename type="first">Zhemin</forename> <surname>Zhou</surname> </persName> <idno type="halauthorid">827483</idno> <affiliation ref="#struct-302824"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Nabil-Fareed</forename> <surname>Alikhan</surname> </persName> <idno type="halauthorid">11395396</idno> <affiliation ref="#struct-302824"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Khaled</forename> <surname>Mohamed</surname> </persName> <idno type="halauthorid">1344196</idno> <affiliation ref="#struct-302824"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Yulei</forename> <surname>Fan</surname> </persName> <idno type="halauthorid">11758400</idno> <affiliation ref="#struct-302824"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Agama</forename> <surname>Study Group</surname> </persName> <idno type="halauthorid">11758401</idno> <affiliation ref="#struct-169661"></affiliation> </author> <author role="crp"> <persName> <forename type="first">Mark</forename> <surname>Achtman</surname> </persName> <email type="md5">af235e1bb617d94536e0b66eb8162d29</email> <email type="domain">warwick.ac.uk</email> <idno type="halauthorid">11395790</idno> <affiliation ref="#struct-302824"></affiliation> </author> <editor role="depositor"> <persName> <forename>François-Xavier</forename> <surname>WEILL</surname> </persName> <email type="md5">a2859c8df9e67fb84be510cf50e5cf6a</email> <email type="domain">pasteur.fr</email> </editor> <funder>EnteroBase development was funded by the Biotechnology and Biological Sciences Research Council (BB/L020319/1) and the Wellcome Trust (202792/Z/16/Z).</funder> </titleStmt> <editionStmt> <edition n="v1" type="current"> <date type="whenSubmitted">2020-02-17 16:47:11</date> <date type="whenModified">2020-02-28 15:09:05</date> <date type="whenReleased">2020-02-28 15:09:05</date> <date type="whenProduced">2020-01</date> <date type="whenEndEmbargoed">2020-02-28</date> <ref type="file" target="https://hal-pasteur.archives-ouvertes.fr/pasteur-02481845/document"> <date notBefore="2020-02-28"></date> </ref> <ref type="file" subtype="publisherPaid" n="1" 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2020, 30 (1), pp.138-152. ⟨10.1101/gr.251678.119⟩</idno> <idno type="halRef">Genome Research, Cold Spring Harbor Laboratory Press, 2020, 30 (1), pp.138-152. ⟨10.1101/gr.251678.119⟩</idno> <availability status="restricted"> <licence target="http://creativecommons.org/licenses/by/">Attribution</licence> </availability> </publicationStmt> <seriesStmt> <idno type="stamp" n="PASTEUR">Institut Pasteur</idno> </seriesStmt> <notesStmt> <note type="audience" n="2">International</note> <note type="popular" n="0">No</note> <note type="peer" n="1">Yes</note> </notesStmt> <sourceDesc> <biblStruct> <analytic> <title xml:lang="en">The EnteroBase user's guide, with case studies on Salmonella transmissions, Yersinia pestis phylogeny, and Escherichia core genomic diversity</title> <author role="aut"> <persName> <forename type="first">Zhemin</forename> <surname>Zhou</surname> </persName> <idno type="halauthorid">827483</idno> <affiliation ref="#struct-302824"></affiliation> </author> <author role="aut"> 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<email type="domain">warwick.ac.uk</email> <idno type="halauthorid">11395790</idno> <affiliation ref="#struct-302824"></affiliation> </author> </analytic> <monogr> <idno type="halJournalId" status="VALID">4985</idno> <idno type="issn">1088-9051</idno> <idno type="eissn">1549-5469</idno> <title level="j">Genome Research</title> <imprint> <publisher>Cold Spring Harbor Laboratory Press</publisher> <biblScope unit="volume">30</biblScope> <biblScope unit="issue">1</biblScope> <biblScope unit="pp">138-152</biblScope> <date type="datePub">2020-01</date> <date type="dateEpub">2019-12-06</date> </imprint> </monogr> <idno type="doi">10.1101/gr.251678.119</idno> <idno type="pubmed">31809257</idno> <idno type="pubmedcentral">PMC6961584</idno> </biblStruct> </sourceDesc> <profileDesc> <langUsage> <language ident="en">English</language> </langUsage> <textClass> <classCode scheme="halDomain" n="sdv.mp.bac">Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology</classCode> <classCode scheme="halTypology" n="ART">Journal articles</classCode> </textClass> <abstract xml:lang="en"> <p>EnteroBase is an integrated software environment that supports the identification of global population structures within several bacterial genera that include pathogens. Here, we provide an overview of how EnteroBase works, what it can do, and its future prospects. EnteroBase has currently assembled more than 300,000 genomes from Illumina short reads from Salmonella, Escherichia, Yersinia, Clostridioides, Helicobacter, Vibrio, and Moraxella and genotyped those assemblies by core ge-nome multilocus sequence typing (cgMLST). Hierarchical clustering of cgMLST sequence types allows mapping a new bacterial strain to predefined population structures at multiple levels of resolution within a few hours after uploading its short reads. Case Study 1 illustrates this process for local transmissions of Salmonella enterica serovar Agama between neighboring social groups of badgers and humans. EnteroBase also supports single nucleotide polymorphism (SNP) calls from both ge-nomic assemblies and after extraction from metagenomic sequences, as illustrated by Case Study 2 which summarizes the microevolution of Yersinia pestis over the last 5000 years of pandemic plague. EnteroBase can also provide a global overview of the genomic diversity within an entire genus, as illustrated by Case Study 3, which presents a novel, global overview of the population structure of all of the species, subspecies, and clades within Escherichia.</p> </abstract> <particDesc> <org type="consortium">Derek Brown, Marie Chattaway, Tim Dallman, Richard Delahay, Christian Kornschober, Ariane Pietzka, Burkhard Malorny, Liljana Petrovska, Rob Davies, Andy Robertson, William Tyne, François-Xavier Weill ( François-Xavier C Weill IdHAL : francois-xavier-weill (Centre National de Référence des Escherichia coli, Shigella et Salmonella - Bactéries pathogènes entériques), Marie Accou-Demartin, Nicola Williams</org> </particDesc> </profileDesc> </hal></record>Pour manipuler ce document sous Unix (Dilib)
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