combination of PhP typing and β-d-glucuronidase gene sequence variation analysis for differentiation of Escherichia coli from humans and animals

We investigated the usefulness of the β-d-glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for comparison of sequences from a prescreened set of host-specific isolates using a high-resolution PhP typing method. A total of 65 common biochemic...

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Published in	Canadian journal of microbiology Vol. 61; no. 6; pp. 409 - 416
Main Authors	Masters, N, Christie, M, Katouli, M, Stratton, H
Format	Journal Article
Language	English
Published	Canada NRC Research Press 01.06.2015
Subjects	algorithms analyse numérique Animals Animals, Domestic - microbiology Animals, Wild - microbiology Bacterial Typing Techniques - methods beta-glucuronidase Cattle Chickens Dogs E. coli Escherichia coli Escherichia coli - classification Escherichia coli - enzymology Escherichia coli - genetics Escherichia coli - isolation & purification Escherichia coli Infections - microbiology Escherichia coli Infections - veterinary Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Feces - microbiology genes genetic markers Genetic Variation glucuronidase Glucuronidase - genetics Glucuronidase - metabolism glucuronidase gene gène de la β Horses host specificity hosts Humans loci Molecular Sequence Data nucleotide sequences numerical analysis phenotype PhP typing Phylogeny pollution Sequence Analysis, DNA Swine typage PhP variance wild animals β-d-glucuronidase gene gène de la β-d-glucuronidase analyse numérique numerical analysis PhP typing E. coli typage PhP
Online Access	Get full text
ISSN	1480-3275 0008-4166 1480-3275
DOI	10.1139/cjm-2015-0048

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Abstract	We investigated the usefulness of the β-d-glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for comparison of sequences from a prescreened set of host-specific isolates using a high-resolution PhP typing method. A total of 65 common biochemical phenotypes belonging to 318 E. coli strains isolated from humans and domestic and wild animals were analysed for nucleotide variations at 10 loci along a 518 bp fragment of the 1812 bp β-d-glucuronidase gene. Neighbour-joining analysis of loci variations revealed 86 (76.8%) human isolates and 91.2% of animal isolates were correctly identified. Pairwise hierarchical clustering improved assignment; where 92 (82.1%) human and 204 (99%) animal strains were assigned to their respective cluster. Our data show that initial typing of isolates and selection of common types from different hosts prior to analysis of the β-d-glucuronidase gene sequence improves source identification. We also concluded that numerical profiling of the nucleotide variations can be used as a valuable approach to differentiate human from animal E. coli. This study signifies the usefulness of the β-d-glucuronidase gene as a marker for differentiating human faecal pollution from animal sources.
AbstractList	We investigated the usefulness of the β- d -glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for comparison of sequences from a prescreened set of host-specific isolates using a high-resolution PhP typing method. A total of 65 common biochemical phenotypes belonging to 318 E. coli strains isolated from humans and domestic and wild animals were analysed for nucleotide variations at 10 loci along a 518 bp fragment of the 1812 bp β- d -glucuronidase gene. Neighbour-joining analysis of loci variations revealed 86 (76.8%) human isolates and 91.2% of animal isolates were correctly identified. Pairwise hierarchical clustering improved assignment; where 92 (82.1%) human and 204 (99%) animal strains were assigned to their respective cluster. Our data show that initial typing of isolates and selection of common types from different hosts prior to analysis of the β- d -glucuronidase gene sequence improves source identification. We also concluded that numerical profiling of the nucleotide variations can be used as a valuable approach to differentiate human from animal E. coli. This study signifies the usefulness of the β- d -glucuronidase gene as a marker for differentiating human faecal pollution from animal sources. We investigated the usefulness of the β-d-glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for comparison of sequences from a prescreened set of host-specific isolates using a high-resolution PhP typing method. A total of 65 common biochemical phenotypes belonging to 318 E. coli strains isolated from humans and domestic and wild animals were analysed for nucleotide variations at 10 loci along a 518 bp fragment of the 1812 bp β-d-glucuronidase gene. Neighbour-joining analysis of loci variations revealed 86 (76.8%) human isolates and 91.2% of animal isolates were correctly identified. Pairwise hierarchical clustering improved assignment; where 92 (82.1%) human and 204 (99%) animal strains were assigned to their respective cluster. Our data show that initial typing of isolates and selection of common types from different hosts prior to analysis of the β-d-glucuronidase gene sequence improves source identification. We also concluded that numerical profiling of the nucleotide variations can be used as a valuable approach to differentiate human from animal E. coli. This study signifies the usefulness of the β-d-glucuronidase gene as a marker for differentiating human faecal pollution from animal sources. We investigated the usefulness of the beta -d-glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for comparison of sequences from a prescreened set of host-specific isolates using a high-resolution PhP typing method. A total of 65 common biochemical phenotypes belonging to 318 E. coli strains isolated from humans and domestic and wild animals were analysed for nucleotide variations at 10 loci along a 518 bp fragment of the 1812 bp beta -d-glucuronidase gene. Neighbour-joining analysis of loci variations revealed 86 (76.8%) human isolates and 91.2% of animal isolates were correctly identified. Pairwise hierarchical clustering improved assignment; where 92 (82.1%) human and 204 (99%) animal strains were assigned to their respective cluster. Our data show that initial typing of isolates and selection of common types from different hosts prior to analysis of the beta -d-glucuronidase gene sequence improves source identification. We also concluded that numerical profiling of the nucleotide variations can be used as a valuable approach to differentiate human from animal E. coli. This study signifies the usefulness of the beta -d-glucuronidase gene as a marker for differentiating human faecal pollution from animal sources.Original Abstract: Nous avons examine l'utilite de la variation genetique du gene de la beta -d-glucuronidase chez Escherichia coli a titre d'outil de depistage des sources de pollution microbienne, en employant un nouvel algorithme pour comparer les sequences provenant d'un ensemble d'isolats specifiques a l'hote preselectionnes a l'aide d'une methode de typage PhP a haute resolution. Au total, on a isole 65 phenotypes biochimiques communs appartenant a 318 souches d'E. coli isolees d'humains et d'animaux sauvages ou domestiques et on a analyse leurs variations nucleotidiques a 10 locus le long d'un fragment de 518 pb du gene de la beta -d-glucuronidase s'etendant sur 1812 pb. Une analyse du plus proche voisin des variations des locus a permis d'identifier correctement 86 (76,8 %) des isolats d'humains et 91,2 % des isolats d'animaux. Un regroupement hierarchique en paires a permis de perfectionner la classification; on a ainsi su repartir 92 (82,1 %) et 204 (99 %) des souches humaines et animales dans leurs regroupements respectifs. Nos donnees demontrent qu'un typage initial d'isolats et une selection de types communs issus de divers hotes, prealablement a l'analyse de la sequence du gene de la beta -d-glucuronidase, viennent ameliorer l'identification de la source de pollution. De meme, nous avancons que le profilage numerique des variations nucleotidiques representerait une approche valable pour differencier les E. coli d'origine humaine de ceux d'origine animale. La presente etude etaye l'utilite du gene de la beta -d-glucuronidase a titre de marqueur distinguant la pollution fecale humaine des sources animales. [Traduit par la Redaction]
Abstract_FL	Nous avons examiné l’utilité de la variation génétique du gène de la β- d -glucuronidase chez Escherichia coli à titre d’outil de dépistage des sources de pollution microbienne, en employant un nouvel algorithme pour comparer les séquences provenant d’un ensemble d’isolats spécifiques à l’hôte présélectionnés à l’aide d’une méthode de typage PhP à haute résolution. Au total, on a isolé 65 phénotypes biochimiques communs appartenant à 318 souches d’E. coli isolées d’humains et d’animaux sauvages ou domestiques et on a analysé leurs variations nucléotidiques à 10 locus le long d’un fragment de 518 pb du gène de la β- d -glucuronidase s’étendant sur 1812 pb. Une analyse du plus proche voisin des variations des locus a permis d’identifier correctement 86 (76,8 %) des isolats d’humains et 91,2 % des isolats d’animaux. Un regroupement hiérarchique en paires a permis de perfectionner la classification; on a ainsi su répartir 92 (82,1 %) et 204 (99 %) des souches humaines et animales dans leurs regroupements respectifs. Nos données démontrent qu’un typage initial d’isolats et une sélection de types communs issus de divers hôtes, préalablement à l’analyse de la séquence du gène de la β- d -glucuronidase, viennent améliorer l’identification de la source de pollution. De même, nous avançons que le profilage numérique des variations nucléotidiques représenterait une approche valable pour différencier les E. coli d’origine humaine de ceux d’origine animale. La présente étude étaye l’utilité du gène de la β- d -glucuronidase à titre de marqueur distinguant la pollution fécale humaine des sources animales. [Traduit par la Rédaction]
Author	Stratton, H Masters, N Christie, M Katouli, M
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Snippet	We investigated the usefulness of the β-d-glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for... We investigated the usefulness of the β- d -glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for... We investigated the usefulness of the beta -d-glucuronidase gene variance in Escherichia coli as a microbial source tracking tool using a novel algorithm for...
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SubjectTerms	algorithms analyse numérique Animals Animals, Domestic - microbiology Animals, Wild - microbiology Bacterial Typing Techniques - methods beta-glucuronidase Cattle Chickens Dogs E. coli Escherichia coli Escherichia coli - classification Escherichia coli - enzymology Escherichia coli - genetics Escherichia coli - isolation & purification Escherichia coli Infections - microbiology Escherichia coli Infections - veterinary Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Feces - microbiology genes genetic markers Genetic Variation glucuronidase Glucuronidase - genetics Glucuronidase - metabolism glucuronidase gene gène de la β Horses host specificity hosts Humans loci Molecular Sequence Data nucleotide sequences numerical analysis phenotype PhP typing Phylogeny pollution Sequence Analysis, DNA Swine typage PhP variance wild animals
Title	combination of PhP typing and β-d-glucuronidase gene sequence variation analysis for differentiation of Escherichia coli from humans and animals
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