APPLICATION OF GENE AMPLIFICATION IN CONJUNCTION WITH A HYBRIDIZATION SENSOR FOR RAPID DETECTION OF SALMONELLA SPP. AND FECAL CONTAMINATION INDICATORS IN ANIMAL FEEDS

Abstract

AbstractThe rapid detection of pathogenic microbial species in feed is of paramount importance considering its implications for animal production and food safety. To demonstrate the feasibility of rapidly detecting Salmonella spp. and fecal pollution microbial indicators in feed using gene amplification protocols, commercial and mixed feed samples were inoculated with two levels of a marker strain of S. typhimurium. Liquid extracts of the feed samples were used as templates in gene amplification reactions to amplify sequences associated with fecal contamination indicators. The sequence specificity of the amplification products (amplicons) were confirmed using biotin and fluorescein labeled probes in a navel dual probe based hybridization sensor. Using the combination of gene amplification and the hybridization sensor, the presence of sequences associated with fecal contamination were detected in 15 different feed matrices without employing preenrichment steps. Using this detection methodology, fecal pollution can be confirmed in feed at naturally occurring concentrations. The study demonstrates that it is possible to rapidly detect and confirm the presence of pathogenic bacterial genera in feed matrices by combining robust gene amplification reactions with appropriate post amplification detection systems.