Aims: To (i) study the serogroup distribution and virulence characteristics of non‐sorbitol‐fermenting Escherichia coli isolates from foods of animal origin and cattle faeces and (ii) re‐examine the true sorbitol and β‐d‐glucuronidase (GUD) reactions of sorbitol‐negative (Sor−) strains from MacConkey sorbitol agar (SMAC) to assess their phenotypic similarity with E. coli O157.
Methods and Results: One hundred and thirty Sor−E. coli were isolated from 556 food samples and 177 cattle stool samples using cefixime tellurite–supplemented SMAC (CT‐SMAC) and chromogenic HiCrome MS.O157 agar respectively. Based on typing of somatic antigen, the isolates were classified into 38 serogroups. PCR results identified about 40% strains, belonging to O5, O8, O20, O28, O48, O60, O78, O82, O84, O101, O110, O123, O132, O156, O157, O‐rough and OUT as Shiga toxigenic. Majority of O5, O84, O101, O105, O123, O157, O‐rough and OUT strains were enterohaemolytic. Further, 39·2% and 63·1% of Sor− isolates from CT‐SMAC fermented sorbitol in phenol red broth and hydrolysed 4‐methylumbelliferyl‐β‐d‐glucuronide (MUG) respectively. Members of serogroups O5, O28, O32, O81, O82, O84, O101, O‐rough lacked both the sorbitol fermentation (broth test) and GUD activity and might create confusion in phenotypic identification of E. coli O157.
Conclusions: Sor−E. coli isolates from raw meat, milk, shrimp and cattle stool belonged to 38 serogroups, with E. coli O157 constituting only 14·6% of the isolates. Many of these nonclinical Sor− strains were potentially pathogenic. Nearly 39% of these Sor−E. coli from CT‐SMAC fermented sorbitol in broth, indicating the need for confirmation of sorbitol reaction in broth.
Significance and Impacts of the Study: Classical sorbitol utilization and GUD tests are not likely definitive tests for E. coli O157. Further improvement of differential media based on these phenotypic properties is necessary for detection of pathogenic serotypes from foods and environmental samples.