Improved bacteria population structure analysis on thousands of genomes using unsupervised methods

Genotypic and Phenotypic Traits That Distinguish Neonatal Meningitis-Associated Escherichia coli from Fecal E. coli Isolates of Healthy Human Hosts

Applied and Environmental Microbiology ◽

10.1128/aem.07869-11 ◽

2012 ◽

Vol 78 (16) ◽

pp. 5824-5830 ◽

Cited By ~ 35

Author(s):

Catherine M. Logue ◽

Curt Doetkott ◽

Paul Mangiamele ◽

Yvonne M. Wannemuehler ◽

Timothy J. Johnson ◽

...

Keyword(s):

Escherichia Coli ◽

Phylogenetic Group ◽

Neonatal Meningitis ◽

Phenotypic Traits ◽

Healthy Human ◽

Content Type ◽

Plasmid Content ◽

E Coli ◽

Healthy Humans ◽

Definition Of

ABSTRACTNeonatal meningitisEscherichia coli(NMEC) is one of the top causes of neonatal meningitis worldwide. Here, 85 NMEC and 204 fecalE. coliisolates from healthy humans (HFEC) were compared for possession of traits related to virulence, antimicrobial resistance, and plasmid content. This comparison was done to identify traits that typify NMEC and distinguish it from commensal strains to refine the definition of the NMEC subpathotype, identify traits that might contribute to NMEC pathogenesis, and facilitate choices of NMEC strains for future study. A large number ofE. colistrains from both groups were untypeable, with the most common serogroups occurring among NMEC being O18, followed by O83, O7, O12, and O1. NMEC strains were more likely than HFEC strains to be assigned to the B2 phylogenetic group. Few NMEC or HFEC strains were resistant to antimicrobials. Genes that best discriminated between NMEC and HFEC strains and that were present in more than 50% of NMEC isolates were mainly from extraintestinal pathogenicE. coligenomic and plasmid pathogenicity islands. Several of these defining traits had not previously been associated with NMEC pathogenesis, are of unknown function, and are plasmid located. Several genes that had been previously associated with NMEC virulence did not dominate among the NMEC isolates. These data suggest that there is much about NMEC virulence that is unknown and that there are pitfalls to studying single NMEC isolates to represent the entire subpathotype.

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Escherichia coli Strains Isolated from Retail Meat Products: Evaluation of Biofilm Formation Ability, Antibiotic Resistance, and Phylogenetic Group Analysis

Journal of Food Protection ◽

10.4315/0362-028x.jfp-19-330 ◽

2020 ◽

Vol 83 (2) ◽

pp. 233-240

Author(s):

ELENA BARILLI ◽

ALICE VISMARRA ◽

VIVIANA FRASCOLLA ◽

MARTINA REGA ◽

CRISTINA BACCI

Keyword(s):

Escherichia Coli ◽

Antibiotic Resistance ◽

Multidrug Resistance ◽

Health Risk ◽

Phylogenetic Group ◽

Animal Origin ◽

Potential Health ◽

Potential Health Risk ◽

E Coli ◽

Retail Meat

ABSTRACT Escherichia coli is a ubiquitous organism capable of forming a biofilm. This is an important virulence factor and is critical in certain diseases and in the development of antibiotic resistance, which is increased by biofilm synthesis. In the present study, the potential health risk associated with handling and consumption of foods of animal origin contaminated with E. coli–producing biofilm was evaluated. We analyzed the ability of 182 E. coli strains isolated from pork, poultry, and beef, purchased in three different supermarkets in the area of the “Italian Food Valley” (Parma, northern Italy), to form biofilms. Positive strains were also tested for the presence of 12 biofilm-associated genes. Moreover, the 182 E. coli were characterized for antibiotic resistance, presence of multidrug resistance, extended-spectrum β-lactamase strains, and phylogenetic diversity through PCR. Twenty-five percent of the isolates produced biofilm. The majority showed weak adherence, five were moderate, and three were strong producers. E. coli with a strong adherence capability (three of three) harbored eight biofilm-associated genes, while weak and moderate producers harbored only five (frequencies ranging from 80 to 100%). Multidrug resistance was observed in 20 biofilm-producing E. coli, and 15 of these belonged to phylogenetic group D. Among nonbiofilm producers, the percentage of strains belonging to phylogenetic groups B2 and D was approximately 40%, highlighting a potential health risk for consumers and people handling contaminated products. The present study underlines the importance of monitoring the prevalence and characteristics of E. coli contaminating retail meat in relation to the potential virulence highlighted here. HIGHLIGHTS

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Prominence of an O75 Clonal Group (Clonal Complex 14) among Non-ST131 Fluoroquinolone-Resistant Escherichia coli Causing Extraintestinal Infections in Humans and Dogs in Australia

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.06120-11 ◽

2012 ◽

Vol 56 (7) ◽

pp. 3898-3904 ◽

Cited By ~ 32

Author(s):

Joanne L. Platell ◽

Darren J. Trott ◽

James R. Johnson ◽

Peter Heisig ◽

Anke Heisig ◽

...

Keyword(s):

Escherichia Coli ◽

Clonal Complex ◽

Resistance Mechanism ◽

Multidrug Resistant ◽

Phylogenetic Group ◽

Mechanism Analysis ◽

Content Type ◽

Clonal Group ◽

E Coli ◽

Animal Medicine

ABSTRACTFluoroquinolone (FQ)-resistant extraintestinal pathogenicEscherichia coli(FQrExPEC) strains from phylogenetic group B2 are undergoing epidemic spread. Isolates belonging to phylogenetic group B2 are generally more virulent than otherE. coliisolates; therefore, resistance to FQs among group B2 isolates is concerning. Although clonal expansion of sequence type 131 (ST131) is a major factor, the contribution of additional clonal groups has not been quantified. Group B2 FQrExPEC isolates from humans (n= 250) and dogs (n= 12) in Australia were screened for ST131, a recently recognized and rapidly emerging multidrug-resistant and virulent clonal group that is important in both human and companion animal medicine. Non-ST131 isolates underwent virulence genotyping, PCR-based O typing, partial multilocus sequence typing (MLST), pulsed-field gel electrophoresis (PFGE), and FQ resistance mechanism analysis. Of 49 non-ST131 isolates (45 human, 4 canine), 49% (24 human, 2 canine) represented O-type O75 and exhibited conserved virulence genotypes (F10papAallele,iha,fimH,sat,vat,fyuA,iutA,kpsMII,usp,ompT,malX, K1/K5 capsule) and MLST allele profiles corresponding with clonal complex CC14. Two clusters, each containing canine and human isolates, were identified by PFGE (differentiated by K1 and K5 capsules). Australian FQrO75 isolates exhibited commonality with an historical FQ-susceptible O75 urosepsis isolate (also CC14). The isolation from humans and dogs of highly similar FQrderivatives of the classic O75:K1/K5 (CC14) ExPEC lineage suggests recent acquisition of FQ resistance and potential cross-host-species transfer. This lineage should be targeted with ST131 in future epidemiological investigations of FQrExPEC.

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Complete Nucleotide Sequence of Plasmid pTN48, Encoding the CTX-M-14 Extended-Spectrum β-Lactamase from anEscherichia coliO102-ST405 Strain

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.01108-10 ◽

2010 ◽

Vol 55 (3) ◽

pp. 1270-1273 ◽

Cited By ~ 16

Author(s):

Typhaine Billard-Pomares ◽

Olivier Tenaillon ◽

Hervé Le Nagard ◽

Zoé Rouy ◽

Stéphane Cruveiller ◽

...

Keyword(s):

Escherichia Coli ◽

Antibiotic Resistance ◽

Nucleotide Sequence ◽

Complete Nucleotide Sequence ◽

Phylogenetic Group ◽

E Coli ◽

Extended Spectrum ◽

Group D ◽

Replicon Type ◽

M 14

ABSTRACTThe sequence of pTN48, a plasmid of the FII-FIB replicon type that encodes a CTX-M-14 enzyme in anEscherichia colistrain of the phylogenetic group D2O102-ST405 clone, was determined. pTN48 is, for the most part, a mosaic of virulence, antibiotic resistance, and addiction system modules found in various other plasmids. The presence of multiple addiction systems indicates that the plasmid should be stably maintained in theE. coliclone, favoring dissemination of the CTX-M-14 enzyme.

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Activation of Prophage eib Genes for Immunoglobulin-Binding Proteins by Genes from the IbrAB Genetic Island of Escherichia coli ECOR-9

Journal of Bacteriology ◽

10.1128/jb.184.13.3640-3648.2002 ◽

2002 ◽

Vol 184 (13) ◽

pp. 3640-3648 ◽

Cited By ~ 22

Author(s):

Carol H. Sandt ◽

James E. Hopper ◽

Charles W. Hill

Keyword(s):

Escherichia Coli ◽

Shiga Toxin ◽

Phylogenetic Group ◽

The Other ◽

Overlapping Genes ◽

Left Boundary ◽

E Coli ◽

Genome Homology ◽

K 12 ◽

Immunoglobulin Binding

ABSTRACT Four distinct Escherichia coli immunoglobulin-binding (eib) genes, each of which encodes a surface-exposed protein that binds immunoglobulins in a nonimmune manner, are carried by separate prophages in E. coli reference (ECOR) strain ECOR-9. Each eib gene was transferred to test E. coli strains, both in the form of multicopy recombinant plasmids and as lysogenized prophage. The derived lysogens express little or no Eib protein, in sharp contrast to the parental lysogen, suggesting that ECOR-9 has an expression-enhancing activity that the derived lysogens lack. Supporting this hypothesis, we cloned from ECOR-9 overlapping genes, ibrA and ibrB (designation is derived from “immunoglobulin-binding regulator”), which together activated eib expression in the derived lysogens. The proteins encoded by ibrA and ibrB are very similar to uncharacterized proteins encoded by genes of Salmonella enterica serovar Typhi and E. coli O157:H7 (in a prophage-like element of the Sakai strain and in two O islands of strain EDL933). The genomic segment containing ibrA and ibrB has been designated the IbrAB island. It contains regions of homology to the Shiga toxin-converting prophage, Stx2, as well as genes homologous to phage antirepressor genes. The left boundary between the IbrAB island and the chromosomal framework is located near min 35.8 of the E. coli K-12 genome. Homology to IbrAB was found in certain other ECOR strains, including the other five eib-positive strains and most strains of the phylogenetic group B2. Sequencing of a 1.1-kb portion of ibrAB revealed that the other eib-positive strains diverge by ≤0.1% from ECOR-9, whereas eib-negative ECOR-47 diverges by 16%.

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Phylogenetic groups and antimicrobial susceptibility patterns of uropathogenic Escherichia coli clinical isolates from patients at Mulago National Referral Hospital, Kampala, Uganda

F1000Research ◽

10.12688/f1000research.20930.1 ◽

2019 ◽

Vol 8 ◽

pp. 1828 ◽

Cited By ~ 1

Author(s):

Paul Katongole ◽

Daniel Bulwadda Kisawuzi ◽

Henry Kyobe Bbosa ◽

David Patrick Kateete ◽

Christine Florence Najjuka

Keyword(s):

Escherichia Coli ◽

Antimicrobial Susceptibility ◽

Phylogenetic Group ◽

Diffusion Method ◽

Clinical Microbiology Laboratory ◽

Phylogenetic Groups ◽

E Coli ◽

Pcr Method ◽

Tract Infections ◽

Susceptibility Patterns

Introduction: Uropathogenic Escherichia coli (UPEC) remains the most common cause of urinary tract infections (UTIs). They account for over 80-90% of all community-acquired and 30-50% of all hospital-acquired UTIs. E. coli strains have been found to belong to evolutionary origins known as phylogenetic groups. In 2013, Clermont classified E. coli strains into eight phylogenetic groups using the quadruplex PCR method. The aim of this study was to identify the phylogenetic groups of UPEC strains in Uganda using Clermont’s quadruplex PCR method and to assess their antibiotic susceptibility patterns in Uganda. Methods: In this cross-sectional study, 140 stored uropathogenic E. coli isolates from the Clinical Microbiology Laboratory, Department of Medical Microbiology, College of Health Sciences Makerere University were subjected to phylogenetic typing by a quadruplex PCR method. Antimicrobial susceptibility testing was performed by disk diffusion method according to Clinical & Laboratory Standards Institute (CLSI) guidelines. Phenotypic detection of extended-spectrum beta-lactamase, AmpC and carbapenemases was done according to CLSI guidelines and Laboratory SOPs. Results: Phylogenetic group B2 (40%) was the most predominant, followed by A (6.23%), clade I and II (5%), D and E (each 2.14%), B1 (1.43%) and F and C (each 0.71%). The most common resistant antibiotic was trimethoprim-sulphamethoxazole (90.71%) and the least was imipenem (1.43%). In total, 73.57% of isolates were multi-drug resistant (MDR). Antibiotic resistance was mainly detected in phylogenetic group B2 (54%). Conclusions: Our findings showed the high prevalence of MDR E. coli isolates, with the dominance of phylogenetic group B2. About 9% of E. coli isolates belonged to the newly described phylogroups C, E, F, and clade I and II.

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Detection of virulence genes, phylogenetic group and antibiotic resistance of uropathogenic Escherichia coli in Mongolia

The Journal of Infection in Developing Countries ◽

10.3855/jidc.7903 ◽

2017 ◽

Vol 11 (01) ◽

pp. 51-57 ◽

Cited By ~ 17

Author(s):

Yandag Munkhdelger ◽

Nyamaa Gunregjav ◽

Altantsetseg Dorjpurev ◽

Nishi Juniichiro ◽

Jav Sarantuya

Keyword(s):

Escherichia Coli ◽

Antibiotic Resistance ◽

Virulence Genes ◽

Wide Spectrum ◽

Iron Acquisition ◽

Uropathogenic Escherichia Coli ◽

Phylogenetic Group ◽

Diffusion Method ◽

Phylogenetic Groups ◽

E Coli

Introduction: The severity of urinary tract infection (UTI) produced by uropathogenic Escherichia coli (UPEC) is due to the expression of a wide spectrum of virulence genes. E. coli strains were divided into four phylogenetic groups (A, B1, B2 and D) based on their virulence genes. The present study aimed to assess the relationship between virulence genes, phylogenetic groups, and antibiotic resistance of UPEC. Methodology: A total of 148 E. coli were tested for antimicrobial resistance against 10 drugs using the disk diffusion method. The isolates were screened by polymerase chain reaction (PCR) for detection of virulence genes and categorized into the four major phylogenetic groups. Results: Phylogenetic group B2 was predominant (33.8%), followed by D (28.4%), A (19.6), and B1 (18.2%). A higher prevalence of fimH (89.9%), fyuA (70.3%), traT (66.2%), iutA (62.2%), kpsMTII (58.8%), and aer (56.1%) genes were found in UPEC, indicating a putative role of adhesins, iron acquisition systems, and protectins that are main cause of UTIs. The most common antibiotic resistance was to cephalotin (85.1%), ampicillin (78.4%) and the least to nitrofurantoin (5.4%) and imipenem (2%). In total, 93.9% of isolates were multidrug resistant (MDR). Conclusions: This study showed that group B2 and D were the predominant phylogenetic groups and virulence-associated genes were mostly distributed in these groups. The virulence genes encoding components of adhesins, iron acquisition systems, and protectins were highly prevalent among antibiotic-resistant UPEC. Although the majority of strains are MDR, nitrofurantoin is the drug of choice for treatment of UTI patients in Ulaanbaatar.

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Characterization of commensal Escherichia coli isolates from slaughtered sheep in Mexico

The Journal of Infection in Developing Countries ◽

10.3855/jidc.14001 ◽

2021 ◽

Vol 15 (11) ◽

pp. 1755-1760

Author(s):

Jorge Acosta-Dibarrat ◽

Edgar Enriquez-Gómez ◽

Martín Talavera-Rojas ◽

Edgardo Soriano-Vargas ◽

Armando Navarro ◽

...

Keyword(s):

Escherichia Coli ◽

Antimicrobial Resistance ◽

Multidrug Resistant ◽

Phylogenetic Group ◽

Phylogenetic Groups ◽

E Coli ◽

New Information ◽

Antimicrobial Resistance Genes ◽

Uremic Syndrome

Introduction: Commensal Escherichia coli is defined as bacteria without known virulence factors that could be playing a specific role in some diseases; however, they could be responsible to disseminate antimicrobial resistance genes to other microorganisms. This study aimed to characterize the commensal E. coli isolates obtained from slaughtered sheep in the central region of Mexico. Methodology: Isolates were classified as commensal E. coli when distinctive genes related to diarrheagenic pathotypes (stx1, stx2, eae, bfp, LT, stp, ipaH, and aggR) were discarded by PCR. Identification of serotype, phylogenetic group, and antimicrobial resistance was also performed. Results: A total of 41 isolates were characterized. The phylogenetic groups found were B1 in 37 isolates (90.2%), A in 2 (4.8%), and 1 isolate (2.4%) for C and D groups. Serotypes associated with diarrhea in humans (O104:H2 and O154:NM) and hemolytic uremic syndrome (O8:NM) were detected. Thirty-three isolates (80%) were resistant to ceftazidime, 23 (56%), to tetracycline 8 (19.5%) to ampicillin, and 1 to amikacin. Six isolates (14.6%) were multidrug-resistant. Conclusions: This study provides new information about commensal E. coli in slaughtered sheep, high percentages of resistance to antibiotics, and different profiles of antimicrobial resistance were found, their dissemination constitute a risk factor towards the consuming population.

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Carbapenem Resistance Profiles of Pathogenic Escherichia coli in Uganda

European Journal of Biology and Biotechnology ◽

10.24018/ejbio.2021.2.2.171 ◽

2021 ◽

Vol 2 (2) ◽

pp. 63-73

Author(s):

Kenneth Ssekatawa ◽

Denis K. Byarugaba ◽

Jesca L. Nakavuma ◽

Charles D. Kato ◽

Francis Ejobi ◽

...

Keyword(s):

Escherichia Coli ◽

Virulence Factors ◽

Virulence Genes ◽

Carbapenem Resistance ◽

Phylogenetic Group ◽

Clinical Isolates ◽

Phylogenetic Groups ◽

Phenotypic Resistance ◽

E Coli ◽

Tract Infections

Escherichia coli has been implicated as one of the main etiological agents of diarrhea, urinary tract infections, meningitis and septicemia worldwide. The ability to cause diseases is potentiated by presence of virulence factors. The virulence factors influence the capacity of E. coli to infect and colonize different body systems. Thus, pathogenic E. coli are grouped into DEC strains that are mainly clustered in phylogenetic group B1 and A; ExPEC belonging to A, B2 and D. Coexistence of virulence and beta-lactamase encoding genes complicates treatment outcomes. Therefore, this study aimed at presenting the carbapenem resistance (CR) profiles among pathogenic E. coli. This was a retrospective cross-sectional study involving use of 421 archived E. coli clinical isolates collected in 2019 from four Uganda tertiary hospitals. The isolates were subjected to antibiotics sensitivity assays to determine phenotypic resistance. Four sets of multiplex PCR were performed to detect CR genes, DEC pathotypes virulence genes, ExPEC PAI and the E. coli phylogenetic groups. Antibiotic susceptibility revealed that all the 421 E. coli isolates used were MDR as they exhibited 100% resistance to more than one of the first-line antibiotics. The study registered phenotypic and genotypic CR prevalence of 22.8% and 33.0% respectively. The most predominant gene was blaOXA-48 with genotypic frequency of 33.0%, then blaVIM (21.0%), blaIMP (16.5%), blaKPC (14.8%) and blaNDM (14.8%). Spearman’s correlation revealed that presence of CR genes was highly associated with phenotypic resistance. Furthermore, of 421 MDR E. coli isolates, 19.7% harboured DEC virulence genes, where EPEC recorded significantly higher prevalence (10.8%) followed by S-ETEC (3.1%), STEC (2.9%), EIEC (2.0%) and L-ETEC (2.0%). Genetic analysis characterized 46.1% of the isolates as ExPEC and only PAI IV536 (33.0%) and PAI IICFT073 (13.1%) were detected. Phylogenetic group B2 was predominantly detected (41.1%), followed by A (30.2%), B1(21.6%), and D (7.1%). Furthermore, 38.6% and 23.1% of the DEC and ExPEC respectively expressed phenotypic resistance. Our results exhibited significant level of CR carriage among the MDR DEC and ExPEC clinical isolates belonging to phylogenetic groups B1 and B2 respectively. Virulence and CR genetic factors are mainly located on mobile elements. Thus, constitutes a great threat to the healthcare system as this promotes horizontal gene transfer.

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Phylogenetic association of fluoroquinolone and cephalosporin resistance of D-O1-ST648 Escherichia coli carrying bla CMY-2 from faecal samples of dogs in Japan

Journal of Medical Microbiology ◽

10.1099/jmm.0.054676-0 ◽

2014 ◽

Vol 63 (2) ◽

pp. 263-270 ◽

Cited By ~ 5

Author(s):

Toyotaka Sato ◽

Shin-ichi Yokota ◽

Torahiko Okubo ◽

Masaru Usui ◽

Nobuhiro Fujii ◽

...

Keyword(s):

Escherichia Coli ◽

Phylogenetic Group ◽

Clinical Isolates ◽

Dominant Group ◽

E Coli ◽

Faecal Samples ◽

Phylogenetic Grouping ◽

Cephalosporin Resistance ◽

Group D

This study aimed to investigate the genetic association between fluoroquinolone (FQ) and/or cephalosporin (CEP) resistance in Escherichia coli isolates from dogs, and the risk to human health. We characterized E. coli clinical isolates, derived from faecal samples of dogs attending veterinary hospitals, using phylogenetic grouping, determination of virulence factor (VF) prevalence, multilocus sequence typing (MLST) and O serotyping. The D group was the dominant phylogenetic group among strains resistant to FQ and/or CEP. In contrast, the dominant group among susceptible strains was group B2. Group D strains showed a significantly higher prevalence of VFs than strains belonging to groups A and B1, and were resistant to significantly more antimicrobials than group B2 strains. The phylogenetic distribution of FQ–CEP-resistant E. coli groups (FQ–CEPRECs) and FQ-resistant groups was significantly correlated (r = 0.98), but FQ–CEPRECs and CEP-resistant E. coli groups were not correlated (r = 0.58). Data from PFGE, O serotype and MLST analyses indicated that the majority of FQ-resistant strains derived from a particular lineage of phylogenetic group D: serotype O1 and sequence type (ST) 648. Some D-O1-ST648 strains carried bla CMY-2, showed multidrug resistance and possessed a higher prevalence of the VFs kspMT, ompT and PAI compared with other group D strains. Our data indicate that the emergence of FQ-CEP-resistant E. coli is based primarily on FQ-resistant E. coli. Moreover, as strains of the D-O1-ST648 lineage have been found in clinical isolates derived from humans at a relatively high frequency, our findings indicate that the spreading of D-O1-ST648 strains may cause serious difficulties in both veterinary and human clinical fields in the future.

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