Last data update: May 06, 2024. (Total: 46732 publications since 2009)
Records 1-2 (of 2 Records) |
Query Trace: Smith PA[original query] |
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Rapid identification of enteric bacteria from whole genome sequences using average nucleotide identity metrics
Lindsey RL , Gladney LM , Huang AD , Griswold T , Katz LS , Dinsmore BA , Im MS , Kucerova Z , Smith PA , Lane C , Carleton HA . Front Microbiol 2023 14 1225207 Identification of enteric bacteria species by whole genome sequence (WGS) analysis requires a rapid and an easily standardized approach. We leveraged the principles of average nucleotide identity using MUMmer (ANIm) software, which calculates the percent bases aligned between two bacterial genomes and their corresponding ANI values, to set threshold values for determining species consistent with the conventional identification methods of known species. The performance of species identification was evaluated using two datasets: the Reference Genome Dataset v2 (RGDv2), consisting of 43 enteric genome assemblies representing 32 species, and the Test Genome Dataset (TGDv1), comprising 454 genome assemblies which is designed to represent all species needed to query for identification, as well as rare and closely related species. The RGDv2 contains six Campylobacter spp., three Escherichia/Shigella spp., one Grimontia hollisae, six Listeria spp., one Photobacterium damselae, two Salmonella spp., and thirteen Vibrio spp., while the TGDv1 contains 454 enteric bacterial genomes representing 42 different species. The analysis showed that, when a standard minimum of 70% genome bases alignment existed, the ANI threshold values determined for these species were ≥95 for Escherichia/Shigella and Vibrio species, ≥93% for Salmonella species, and ≥92% for Campylobacter and Listeria species. Using these metrics, the RGDv2 accurately classified all validation strains in TGDv1 at the species level, which is consistent with the classification based on previous gold standard methods. |
Reoccurring Escherichia coli O157:H7 strain linked to leafy greens-associated outbreaks, 2016-2019
Chen JC , Patel K , Smith PA , Vidyaprakash E , Snyder C , Tagg KA , Webb HE , Schroeder MN , Katz LS , Rowe LA , Howard D , Griswold T , Lindsey RL , Carleton HA . Emerg Infect Dis 2023 29 (9) 1895-1899 Genomic characterization of an Escherichia coli O157:H7 strain linked to leafy greens-associated outbreaks dates its emergence to late 2015. One clade has notable accessory genomic content and a previously described mutation putatively associated with increased arsenic tolerance. This strain is a reoccurring, emerging, or persistent strain causing illness over an extended period. |
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