Quantification of ochratoxin A (OTA)-producing molds in foods by real-time quantitative PCR (qPCR) may be affected by the DNA extraction method used. In the present work, 6 different methods for extraction of DNA from ochratoxigenic molds in foods were tested. Several combinations of mechanical and thermal lysis of conidia with commercialized DNA extraction kits and enzymatic treatments or resins were evaluated. DNA recovery and quality of extracted DNA was measured by testing the extracted DNA with a conventional PCR and an SYBR Green qPCR amplifying the beta-tubulin gene and the non-ribosomal peptide synthetase gene, otanpsPN. Inhibition of conventional and qPCR was not observed when the DNA-extraction method includes an initial thermal disruption of conidia before use of commercialized extraction kit or resin, enzymatic treatment and/or lysis buffer. Of the six methods tested, the one combining thermal lysis of conidia followed by a short enzymatic treatment and incubation with Chelex100 resin and final extraction with the EZNA kit was selected, since the extracted DNA showed good amplification by conventional PCR for beta-tubulin gene and the highest DNA recoveries when tested by qPCR. The method was subsequently validated in different food products such as ripened foods, nuts, and grapes inoculated with Penicillium and Aspergillus species. With this Chelex100-enzymatic-EZNA method good DNA recoveries ranging from 69 to 99% were obtained for all food matrices and fungal species tested. This fast method is a promising tool to be used as routine analysis in HACCP systems in the food industry for quantifying OTA-producing molds by qPCR.

• 出版日期2012-6