AIMS: Brettanomyces bruxellensis is a well-known wine spoilage yeast that causes undesirable off-flavours. Likewise, glucan-producing strains of ropy Pediococcus damnosus are considered as spoilage micro-organisms because the synthesis of glucan leads to an unacceptable viscosity of wine. METHODS AND RESULTS: We developed a real-time PCR method to detect and quantify these two spoilage micro-organisms in wine. It is based on specific primer pairs for amplification of target DNA, and includes a melting-curve analysis of PCR products as a confirmatory test. CONCLUSIONS: The detection limit in wine was 10(4) CFU ml(-1) for B. bruxellensis and 40 CFU ml(-1) for ropy Pediococcus damnosus. The real-time PCR proved to be reliable for the early, sensitive detection and quantification of B. bruxellensis and ropy P. damnosus in wine. SIGNIFICANCE AND IMPACT OF THE STUDY: The real-time PCR-based method described in this study provides a new tool for monitoring spoilage micro-organisms in wine. Time-consuming culture and colony isolation steps are no longer needed, so winemakers can intervene before spoilage occurs.
AIMS: Brettanomyces bruxellensis is a well-known wine spoilage yeast that causes undesirable off-flavours. Likewise, glucan-producing strains of ropy Pediococcus damnosus are considered as spoilage micro-organisms because the synthesis of glucan leads to an unacceptable viscosity of wine. METHODS AND RESULTS: We developed a real-time PCR method to detect and quantify these two spoilage micro-organisms in wine. It is based on specific primer pairs for amplification of target DNA, and includes a melting-curve analysis of PCR products as a confirmatory test. CONCLUSIONS: The detection limit in wine was 10(4) CFU ml(-1) for B. bruxellensis and 40 CFU ml(-1) for ropy Pediococcus damnosus. The real-time PCR proved to be reliable for the early, sensitive detection and quantification of B. bruxellensis and ropy P. damnosus in wine. SIGNIFICANCE AND IMPACT OF THE STUDY: The real-time PCR-based method described in this study provides a new tool for monitoring spoilage micro-organisms in wine. Time-consuming culture and colony isolation steps are no longer needed, so winemakers can intervene before spoilage occurs.