Abstract
Shiga toxin-producing Escherichia coli (STEC) have been linked to food-borne disease outbreaks. As PCR is routinely used to screen foods for STEC, it is important that factors leading to inconsistent detection of STEC by PCR are understood. This study used whole genome sequencing (WGS) to investigate causes of inconsistent PCR detection of stx1, stx2, and serogroup-specific genes. Fifty strains isolated from Alberta feedlot cattle from three different studies were selected with inconsistent or consistent detection of stx and serogroup by PCR. All isolates were initially classified as STEC by PCR. Sequencing was performed using Illumina MiSeq® with sample library by Nextera XT. Virtual PCRs were performed using Geneious and bacteriophage content was determined using PHASTER. Sequencing coverage ranged from 47 to 102x, averaging 74x, with sequences deposited in the NCBI database. Eleven strains were confirmed by WGS as STEC having complete stxA and stxB subunits. However, truncated stx fragments occurred in twenty-two other isolates, some having multiple stx fragments in the genome. Isolates with complete stx by WGS had consistent stx1 and stx2 detection by PCR, although one also having a stx2 fragment had inconsistent stx2 PCR. For all STEC and 18/39 non-STEC, serogroups determined by PCR agreed with those determined by WGS. An additional three WGS serotypes were inconclusive and two isolates were Citrobacter spp. Results demonstrate that stx fragments associated with stx-carrying bacteriophages in the E. coli genome may contribute to inconsistent detection of stx1 and stx2 by PCR. Fourteen isolates had integrated stx bacteriophage but lacked complete or fragmentary stx possibly due to partial bacteriophage excision after sub-cultivation or other unclear mechanisms. The majority of STEC isolates (7/11) did not have identifiable bacteriophage DNA in the contig(s) where stx was located, likely increasing the stability of stx in the bacterial genome and its detection by PCR.
Highlights
Shiga toxin-producing Escherichia coli (STEC) is one of the most important pathogens in foodborne illness
All STEC confirmed by whole genome sequencing (WGS) were positive for stx1 and complete stx2 sequences were found in two STEC (Table 2)
For generic E. coli strains where serogroup determined by PCR did not match WGS, we evaluated whether there was a lack of primer specificity via virtual PCRs, and all primers evaluated only aligned with target regions
Summary
Shiga toxin-producing Escherichia coli (STEC) is one of the most important pathogens in foodborne illness. Several methodologies have been used to identify or isolate STEC including immunomagnetic separation (IMS), a selective and enriched media, PCR, and qPCR [2,3,4,5,6,7]. The development of specific methods according to the sample matrix could increase sensitivity and lower the threshold of detection of STEC strains. To further these aims, antimicrobials are commonly added to STEC media to prevent plate overgrowth [9], but this practice does not guarantee that only STEC will be isolated, or discriminate STEC serogroups
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