LI, Dmitriy, Ethan R WYRSCH, Elankumaran PAARTHIPHAN, Monika DOLEJSKÁ, Marc S MARENDA, Glenn F BROWNING, Rhys N BUSHELL, Jessica MCKINNON, Piklu Roy CHOWDHURY, Nola HITCHICK, Natalie MILLER, Erica DONNER, Barbara DRIGO, Dave BAKER, Ian G CHARLES, Timothy KUDINHA, Veronica M JAROCKI and Stephen Philip DJORDJEVIC. Genomic comparisons of Escherichia coli ST131 from Australia. London, 2021, vol. 7, No 12, p. 1-16. ISSN 2057-5858. Available from: https://dx.doi.org/10.1099/mgen.0.000721.
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Basic information
Original name Genomic comparisons of Escherichia coli ST131 from Australia
Authors LI, Dmitriy, Ethan R WYRSCH, Elankumaran PAARTHIPHAN, Monika DOLEJSKÁ, Marc S MARENDA, Glenn F BROWNING, Rhys N BUSHELL, Jessica MCKINNON, Piklu Roy CHOWDHURY, Nola HITCHICK, Natalie MILLER, Erica DONNER, Barbara DRIGO, Dave BAKER, Ian G CHARLES, Timothy KUDINHA, Veronica M JAROCKI and Stephen Philip DJORDJEVIC.
Edition London, 2021, 2057-5858.
Other information
Original language English
Type of outcome Article in a journal
Field of Study 10606 Microbiology
Country of publisher United Kingdom of Great Britain and Northern Ireland
Confidentiality degree is not subject to a state or trade secret
WWW text článku
Impact factor Impact factor: 4.868
Organization unit Faculty of Medicine
Doi http://dx.doi.org/10.1099/mgen.0.000721
Keywords in English H41; ST131; blaCTX-M-27; class 1 integrons; extraintestinal pathogenic Escherichia coli (ExPEC); one health; urinary tract infection (UTI).
Changed by Changed by: Mgr. Tereza Miškechová, učo 341652. Changed: 26/4/2022 13:44.
Abstract
Escherichia coli ST131 is a globally dispersed extraintestinal pathogenic E. coli lineage contributing significantly to hospital and community acquired urinary tract and bloodstream infections. Here we describe a detailed phylogenetic analysis of the whole genome sequences of 284 Australian ST131 E. coli isolates from diverse sources, including clinical, food and companion animals, wildlife and the environment. Our phylogeny and the results of single nucleotide polymorphism (SNP) analysis show the typical ST131 clade distribution with clades A, B and C clearly displayed, but no niche associations were observed. Indeed, interspecies relatedness was a feature of this study. Thirty-five isolates (29 of human and six of wild bird origin) from clade A (32 fimH41, 2 fimH89, 1 fimH141) were observed to differ by an average of 76 SNPs. Forty-five isolates from clade C1 from four sources formed a cluster with an average of 46 SNPs. Within this cluster, human sourced isolates differed by approximately 37 SNPs from isolates sourced from canines, approximately 50 SNPs from isolates from wild birds, and approximately 52 SNPs from isolates from wastewater. Many ST131 carried resistance genes to multiple antibiotic classes and while 41 (14 %) contained the complete class one integron–integrase intI1, 128 (45 %) isolates harboured a truncated intI1 (462–1014 bp), highlighting the ongoing evolution of this element. The module intI1–dfrA17–aadA5–qacEΔ1–sul1–ORF–chrA–padR–IS1600–mphR–mrx–mphA, conferring resistance to trimethoprim, aminoglycosides, quaternary ammonium compounds, sulphonamides, chromate and macrolides, was the most common structure. Most (73 %) Australian ST131 isolates carry at least one extended spectrum β-lactamase gene, typically blaCTX-M-15 and blaCTX-M-27. Notably, dual parC-1aAB and gyrA-1AB fluoroquinolone resistant mutations, a unique feature of clade C ST131 isolates, were identified in some clade A isolates. The results of this study indicate that the the ST131 population in Australia carries diverse antimicrobial resistance genes and plasmid replicons and indicate cross-species movement of ST131 strains across diverse reservoirs.
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