Duplex PCR methods for the molecular detection of Escherichia fergusonii from broiler chickens.

Simmons, K., Rempel, H., Block, G.S., Forgetta, V., Vaillancourt Jr., R., Malouin, F., Topp, E., Delaquis, P.J., and Diarra, M.S. (2014). "Duplex PCR methods for the molecular detection of Escherichia fergusonii from broiler chickens.", Applied and Environmental Microbiology, 80(6), pp. 1941-1948. doi : 10.1128/AEM.04169-13  Access to full text

Abstract

Escherichia fergusonii is an emerging pathogen that has been isolated from a wide range of infections in animals and humans. Primers targeting specific genes including yliE (conserved hypothetical protein of the cellulose synthase and regulator of cellulose synthase island), EFER_1569 (hypothetical protein, putative transcriptional activator for multiple antibiotic resistance) and EFER_3126(putative triphosphoribosyl-dephospho-CoA) were designed for the detection ofE. fergusonii by conventional and real-time PCR methods. Primers were screened by in silico PCR against 489 bacterial genomic sequences and by both PCR methods on 55 reference and field strains. Both methods were specific and sensitive for E. fergusonii showing amplification only for this bacterium. Conventional PCR required a minimum bacterial concentration of approximately 102 cfu/ml while real-time PCR required a minimum of 0.3 pg of DNA for consistent detection. Standard curves showed an efficiency of 98.5% with an R2value of 0.99 for the real-time PCR assay. Cecal and cloacal contents from 580 chickens were sampled from broiler farms located in the Fraser Valley (British Columbia, Canada). Presumptive E. fergusonii isolates were recovered by enrichment and plating on differential and selective media. Of 301 total presumptive isolates, 140 (46.5%) were identified as E. fergusonii by biochemical profiling with the API 20E system and 268 (89.0%) using PCR methods. E. fergusonii detection directly from cecal and cloacal samples without pre-enrichment was achieved with both PCR methods. Hence the PCR methods developed in this work significantly improve the detection of E. fergusonii.

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