화학공학소재연구정보센터
Journal of Applied Microbiology, Vol.119, No.5, 1391-1402, 2015
Cost-effective optimization of real-time PCR-based detection of Campylobacter and Salmonella with inhibitor tolerant DNA polymerases
AimsThe aim of this study was to cost-effectively improve detection of foodborne pathogens in PCR inhibitory samples through the use of alternative DNA polymerases. Methods and ResultsCommercially available polymerases (n=16) and PCR master mixes (n=4) were screened on DNA purified from bacterial cells in two validated real-time PCR assays for Campylobacter and Salmonella. The five best performing (based on: limit of detection (LOD), maximum fluorescence, shape of amplification curves and amplification efficiency) were subsequently applied to meat and faecal samples. The VeriQuest qPCR master mix performed best for both meat and faecal samples (LODs of 10(2) and 10(4)CFUml(-1) in the purest and crudest DNA extractions respectively) compared with Tth (LOD=10(2)-10(3) and 10(5)-10(6)CFUml(-1)). AmpliTaqGold and HotMasterTaq both performed well (LOD=10(2)-10(4)CFUml(-1)) with meat samples and poorly (LOD=10(3)-10(6)CFUml(-1)/not detected) with faecal samples. ConclusionsApplying the VeriQuest qPCR master mix in the two tested real-time PCR assays could allow for simpler sample preparation and thus a reduction in cost. Significance and Impact of the StudyThis work exemplifies a cost-effective strategy for optimizing real-time PCR-based assays. However, a DNA polymerase suitable for one assay and sample type is not necessarily optimal for other assays or sample types.