Quantitative Detection of Clostridium perfringens by Real-Time PCR in Raw Milk

Abstract

Clostridium perfringens causes a broad spectrum of diseases in both humans and animals and is an important cause of foodborne illness. We developed and tested a real-time (Q-)PCR assay for the species-specific detection of C. perfringens that targets the phospholipase C (plc) gene and includes an internal amplification control (IAC), making it possible to identify false-negative results, which are common due to the high level of PCR inhibition by food compounds. The CPplc-IAC real-time PCR (RTi-PCR) assay was 100% selective, as shows with 36 Clostridium strains and 85 non-Clostridium strains, with an analytical sensitivity of 1 genome equivalent (GE) in 23% of the reactions and 10 GE in 100% of the reactions. The quantification was linear (R 2 = 0.9990) over a 7-log dynamic range, down to 10 GE, with a PCR efficiency E = 0.841. The applicability of this RTi-PCR assay was assessed in milk samples. The assay detected as few as 300 spores in 25 mL of artificially contaminated raw sheep milk with 78% probability and 30 spores in 25 mL with 50% probability. It also has accuracy of 83.03 to 151.18%, as shown by an evaluation of the correspondence between RTi-PCR assay results and the number of spores per milliliter determinated by standard plating. This RTi-PCR method was effective for the detection and quantification of C. perfringens in milk having an important applicability in the control of this pathogen in the dairy food industry.