Genetic diversity and population structure of<i>Escherichia coli</i>isolated from freshwater beaches

Walk, Seth T.; Alm, Elizabeth Wheeler; Calhoun, Lisa M.; Mladonicky, Janice M.; Whittam, Thomas S.

doi:10.1111/j.1462-2920.2007.01341.x

Cited by 219 publications

(262 citation statements)

References 84 publications

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“…Moreover, the latter predominate among E. coli strains with the ability to survive in the environment (Walk et al, 2007). By contrast, group B2 are more likely to be host-adapted, 'specialists' (Gordon & Cowling, 2003;Nowrouzian et al, 2005;White et al, 2011), and at least some B2 strains appear to be regular human commensals (Clermont et al, 2008;Carlos et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…enterohaemorrhagic, enteroinvasive and enterotoxigenic E. coli pathovars, belong to groups A, B1 or D (Chaudhuri & Henderson, 2012). Furthermore, the E. coli phylogroups also differ with regard to growth rate (Gordon & Cowling, 2003;Walk et al, 2007;Carlos et al, 2010), genome size (Bergthorsson & Ochman, 1998), metabolic networks (Vieira et al, 2011) and antibiotic resistance profiles (Bukh et al, 2009). Therefore, we assumed the existence of a potential link between TAs and E. coli phylogeny, as these genetic elements are ubiquitous in E. coli genomes, and appear to be implicated in the cell physiology at various levels.…”

Section: Introductionmentioning

confidence: 99%

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Type II toxin–antitoxin systems are unevenly distributed among Escherichia coli phylogroups

et al. 2015

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Type II toxin-antitoxin systems (TAs) are bicistronic operons ubiquitous in prokaryotic genomes, displaying multilevel association with cell physiology. Various possible functions have been assigned to TAs, ranging from beneficial for their hosts, such as a stress response, dormancy and protection against genomic parasites, to detrimental or useless functions, such as selfish alleles. As there is a link between several Escherichia coli features (e.g. virulence, lifestyle) and the phylogeny of this species, we hypothesized a similar association with TAs. Using PCR we studied the distribution of 15 chromosomal and plasmidic type II TA loci in 84 clinical E. coli isolates in relation to their main phylogenetic groups (A, B1, B2 and D). In addition, we performed in silico searching of these TA loci in 60 completely sequenced E. coli genomes deposited in GenBank. The highest number of TA loci per strain was observed in group A (mean 8.2, range 5-12) and the lowest in group B2 (mean 4.2, range 2-8). Moreover, significant differences in the prevalence of nine chromosomal TAs among E. coli phylogroups were noted. In conclusion, the presence of some chromosomal TAs in E. coli is phylogroup-related rather than a universal feature of the species. In addition, their limited collection in group B2 clearly distinguish it from the other E. coli phylogroups.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Type II toxin–antitoxin systems are unevenly distributed among Escherichia coli phylogroups

et al. 2015

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“…It is a ubiquitous commensal in the intestine of mammals and birds, but certain types are also known to persist in the environment (Walk et al, 2007). Although usually harmless, E. coli also encompasses several important pathogenic lineages.…”

Section: Commensals (Including Opportunistic Pathogens)mentioning

confidence: 99%

“…Although usually harmless, E. coli also encompasses several important pathogenic lineages. Strains belonging to well-defined clade ET-1 are prevalent in freshwater environments (Walk et al, 2007) and have low HRR. The intestinal g-proteobacterium Salmonella enterica on the other hand was found to have very high HRR.…”

Section: Commensals (Including Opportunistic Pathogens)mentioning

confidence: 99%

A comparison of homologous recombination rates in bacteria and archaea

2008

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It is a standard practice to test for the signature of homologous recombination in studies examining the genetic diversity of bacterial populations. Although it has emerged that homologous recombination rates can vary widely between species, comparing the results from different studies is made difficult by the diversity of estimation methods used. Here, Multi Locus Sequence Typing (MLST) datasets from a wide variety of bacteria and archaea are analyzed using the ClonalFrame method. This enables a direct comparison between species and allows for a first exploration of the question whether phylogeny or ecology is the primary determinant of homologous recombination rate.

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“…Stepwise multiple regression results and coefficients using parameters described in Table 2 better in secondary habitats. Confirmation of this hypothesis would require that E. coli in the more pristine water samples be found to be distinct from those in the more heavily contaminated, using for example Multilocus Sequence Typing or Repetitive Extragenic Palindromic PCR (Ishii et al, 2006;Walk et al, 2007). A second possibility is that the E. coli concentrations in the range examined here did not saturate prey density with respect to (for example) planktonic grazing or viral lysis.…”

Section: Discussionmentioning

confidence: 89%

Variation of an indicator ofEscherichia colipersistence from surface waters of mixed-use watersheds, and relationship with environmental factors

Lyautey

Wilkes

Miller

et al. 2010

Ann. Limnol. - Int. J. Lim.

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-Escherichia coli is an indicator of fecal pollution used to mandate recreational and drinking water quality. Concentrations of culturable E. coli following contamination of surface water are determined by three factors: dilution; cell attachment to particulate material and settling or resuspension in the water column; and the net rate of change in viability. This study evaluated the variability in the latter parameter, and how predictive variation in death rate was of culturable population densities at the time of sampling. Water samples (N = 232) with varying levels of E. coli contamination were collected from 46 discrete locations in four watersheds across Canada over a three-month period and enumerated for culturable E. coli by membrane filtration plate counting (T0 EC ). Water samples were again enumerated following a laboratory 24 h holding period at 30 xC in the dark, and the difference considered the death rate (D EC ). Relationships of T0 EC and D EC with environmental and water chemistry factors were explored using step-wise multiple regression. The model predicting T0 EC indicated that stream order, total rainfall seven days in advance of sampling day, total phosphorus, and D EC were the most significant contributors. The model predicting D EC indicated that turbidity and NH 3 + NH 4 were the most important contributors. A model suggests that the persistence factor is less important than dilution (i.e. stream order) in describing E. coli densities, followed by factors that influence the loading of E. coli into watersheds.

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Genetic diversity and population structure ofEscherichia coliisolated from freshwater beaches

Cited by 219 publications

References 84 publications

Type II toxin–antitoxin systems are unevenly distributed among Escherichia coli phylogroups

Type II toxin–antitoxin systems are unevenly distributed among Escherichia coli phylogroups

A comparison of homologous recombination rates in bacteria and archaea

Variation of an indicator ofEscherichia colipersistence from surface waters of mixed-use watersheds, and relationship with environmental factors

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