Abstract
Traditional culture-based detection methods for Campylobacteri jejuni, a leading cause of human bacterial gastroenteritis worldwide, are time-consuming, cumbersome, and lacking in reliability. While polymerase chain reaction (PCR) has been frequently used for pathogen testing, it might generate false-negative results due to inadequate sensitivity. This study was the first to explore novel single-tube nested PCR (STN-PCR) to detect pathogens in food. Two pairs of nested PCR primers were designed based on the hippuricase gene of C. jejuni. The annealing temperatures and concentrations of nested primers were optimized to ensure the sequential use of outer and inner pairs of primers during amplification. Efficacy of the developed STN-PCR assay was compared with standard culture-based methods and conventional PCR in artificially contaminated ground chicken homogenate. Limit of detection of the STN-PCR assay was determined to be 3.6 × 101 CFU/ml of C. jejuni in the homogenate without enrichment, which was 100 times lower than conventional PCR. Moreover, 0.1 CFU/g of C. jejuni in ground chicken homogenate was identified by STN-real time PCR (rtPCR) after 24 h of enrichment, while a 48-h enrichment was required for culture-based methods and conventional rtPCR. This developed assay provides a powerful tool for rapid, highly specific, and ultra-sensitive detection of C. jejuni and may potentially be used to identify contaminated chicken and other foods.
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