Comparative Whole-Genome Phylogeny of Animal, Environmental, and Human Strains Confirms the Genogroup Organization and Diversity of the Stenotrophomonas maltophilia Complex

Mercier-Darty Melanie; Royer Guilhem; Lamy BrigitteCharron ChadlyLemenand OlivierGomart CamilleFourreau FredericMadec Jean-YvesJumas-Bilak EstelleDecousser Jean-Winoc

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Comparative Whole-Genome Phylogeny of Animal, Environmental, and Human Strains Confirms the Genogroup Organization and Diversity of the Stenotrophomonas maltophilia Complex

机译：Comparative Whole-Genome Phylogeny of Animal, Environmental, and Human Strains Confirms the Genogroup Organization and Diversity of the Stenotrophomonas maltophilia Complex

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The Stenotrophomonas maltophilia complex (Smc) comprises opportunistic environmental Gram-negative bacilli responsible for a variety of infections in both humans and animals. Beyond its large genetic diversity, its genetic organization in genogroups was recently confirmed through the whole-genome sequencing of human and environmental strains. As they are poorly represented in these analyses, we sequenced the whole genomes of 93 animal strains to determine their genetic background and characteristics. Combining these data with 81 newly sequenced human strains and the genomes available from RefSeq, we performed a genomic analysis that included 375 nonduplicated genomes with various origins (animal, 104; human, 226; environment, 30; unknown, 15). Phylogenetic analysis and clustering based on genome-wide average nucleotide identity confirmed and specified the genetic organization of Smc in at least 20 genogroups. Two new genogroups were identified, and two previously described groups were further divided into two subgroups each. Comparing the strains isolated from different host types and their genogroup affiliation, we observed a clear disequilibrium in certain groups. Surprisingly, some antimicrobial resistance genes, integrons, and/or clusters of attC sites lacking integron-integrase (CALIN) sequences targeting antimicrobial compounds extensively used in animals were mainly identified in animal strains. We also identified genes commonly found in animal strains coding for efflux systems. The result of a large whole-genome analysis performed by us supports the hypothesis of the putative contribution of animals as a reservoir of Stenotrophomonas maltophilia complex strains and/or resistance genes for strains in humans.

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《Applied and Environmental Microbiology》 |2020年第10期|共12页
作者
Mercier-Darty Melanie; Royer Guilhem; Lamy BrigitteCharron ChadlyLemenand OlivierGomart CamilleFourreau FredericMadec Jean-YvesJumas-Bilak EstelleDecousser Jean-Winoc;
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Univ Hosp Henri Mondor, Assistance Publ Hop Paris, Lab Bacteriol & Infect Control, Dept Microbiol, Creteil, France;

ANSES, Unite Antibioresistance & Virulence Bacteriennes, Lyon, France;

Montpellier Univ Hosp, Infect Control Dept, Montpellier, FranceUniv Hosp Henri Mondor, Assistance Publ Hop Paris, Next Generat Sequencing Platform, Creteil, FranceNice Acad Hosp, Archet 2 Hosp, Dept Bacteriol, Nice, FranceSt Nazaire Hosp, Lab Bacteriol, St Nazaire, France;

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正文语种英语
中图分类应用微生物学;环境科学基础理论;
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Stenotrophomonas maltophilia complex; animal; human; environmental; Genogroup; whole-genome sequencing;

Comparative Whole-Genome Phylogeny of Animal, Environmental, and Human Strains Confirms the Genogroup Organization and Diversity of the Stenotrophomonas maltophilia Complex

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