Abstract

Serogroup classifications based upon the O-somatic antigen of Shiga toxin-producing Escherichia coli (STEC) provide significant epidemiological information on clinical isolates. Each O-antigen determinant is encoded by a unique cluster of genes present between the gnd and galF chromosomal genes. Alternatively, serogroup-specific polymorphisms might be encoded in loci that are encoded outside of the O-antigen gene cluster. Segments of the core bacterial loci mdh, gnd, gcl, ppk, metA, ftsZ, relA and metG for 30 O26 STEC strains have previously been sequenced, and comparative analyses to O157 distinguished these two serogroups. To screen these loci for serogroup-specific traits within a broader range of clinically significant serogroups, DNA sequences were obtained for 19 strains of 10 additional STEC serogroups. Unique alleles were observed at the gnd locus for each examined STEC serogroup, and this correlation persisted when comparative analyses were extended to 144 gnd sequences from 26 O-serogroups (comprising 42 O : H-serotypes). These included O157, O121, O103, O26, O5 : non-motile (NM), O145 : NM, O113 : H21, O111 : NM and O117 : H7 STEC; and furthermore, non-toxin encoding O157, O26, O55, O6 and O117 strains encoded distinct gnd alleles compared to STEC strains of the same serogroup. DNA sequencing of a 643 bp region of gnd was, therefore, sufficient to minimally determine the O-antigen of STEC through molecular means, and the location of gnd next to the O-antigen gene cluster offered additional support for the co-inheritance of these determinants. The gnd DNA sequence-based serogrouping method could improve the typing capabilities for STEC in clinical laboratories, and was used successfully to characterize O121 : H19, O26 : H11 and O177 : NM clinical isolates prior to serological confirmation during outbreak investigations.

Highlights

  • Shiga toxin-producing Escherichia coli (STEC) are bacterial pathogens that result in both outbreak and sporadic occurrences of human mortality and disease

  • Comparative analyses of the mdh, gnd, gcl, ppk, metA, ftsZ, relA and metG alleles encoded by O26 : H11 STEC cumulatively distinguished this serotype from O157 : H7 (Gilmour et al, 2005)

  • STEC strains (Table 1) were obtained from the reference stocks of the Enteric Diseases Program at the National Microbiology Laboratory that originated from human sources at various Canadian provincial health laboratories during 1985–2005, or were recent clinical isolates obtained from the Alberta Provincial Laboratory for Public Health

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Summary

Introduction

Shiga toxin-producing Escherichia coli (STEC) are bacterial pathogens that result in both outbreak and sporadic occurrences of human mortality and disease. Comparative analyses of the mdh, gnd, gcl, ppk, metA, ftsZ, relA and metG alleles encoded by O26 : H11 STEC cumulatively distinguished this serotype from O157 : H7 (Gilmour et al, 2005).

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