Purpose: It is essential to rapidly type the various Salmonella to determine potential food safety-related issues, especially those that occur within the serotypes linked to disease. A novel approach to molecular serotyping of poultry-related Salmonella would be to type them based on single nucleotide polymorphisms (SNPs) within the genetic code of these diverse serotypes.
Methods: Primers were designed to target ~ 300-bp regions of both a virulence-associated (cyaA) and non-virulence (ushA) genes that contained descriptive SNPs for 4–5 serotypes (3 Enteritidis, Typhi, Typhimurium, Heidelberg, Fetus and Kentucky). Hybridization probes targeted these descriptive SNPs and Luminex MagPlex hybridization protocols were developed and optimized. Both assays were validated using strains recovered from environmental samples from throughout the production continuum.
Results: Both assays were found to be highly specific and sensitive towards their respective SNP targets, even when testing samples containing all target SNPs for a given assay. For most environmental isolates tested, the assays were able to effectively pathotype different S. Enteritidis strains and serotype different S. enterica, as well as quickly differentiating between Kentucky and Enteritidis recovered as part of a poultry challenge study.
Significance: These data highlight the potential of SNP-based assays to rapidly serotype poultry-related Salmonella enterica. Expanding this method to include additional serotype-specific SNPs, or applying it directly to isolates recovered from challenge studies will allow us to not only rapidly determine which Salmonella are recovered, but also which environmental parameters control the survival of the serotypes within different poultry models.