Abstract
Salmonella belongs to the most important bacterial pathogens worldwide causing disease in humans and animals mainly by the oral uptake of contaminated food. Consequently, detection methodologies for Salmonella from food items are meaningful for routine laboratories. Here, we describe two different real-time PCR based methods for the detection of Salmonella in food. The procedure begins with a cultural pre-enrichment in buffered peptone water for 18–24 hours at 37 °C followed by a selective enrichment step in Rappaport-Vassiliadis medium for at least six hours at 42 °C. Next, the microbial DNA is extracted and finally Salmonella-DNA is specifically detected by the real-time PCR. Both methods differ in the Salmonella target gene sequence. One assay amplifies a 285-bp-DNA-Fragment of the invA-gene, and the other a 95-bp-DNA-Fragment of the ttrC/ttrA-gene. An internal amplification control indicates the correct carrying out of the PCR. The duration of both detection methods is between 24 and 28 hours.
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