Hydroxycinnamic acid decarboxylase activity of Brettanomyces bruxellensis involved in volatile phenol production: relationship with cell viability.

Brettanomyces bruxellensis populations have been correlated with an increase in phenolic off-flavors in wine. The volatile phenols causing the olfactory defect result from the successive decarboxylation and reduction of hydroxycinnamic acids that are normal components of red wines. The growth of B. bruxellensis is preventable by adding sulfur dioxide (SO(2)), with variable effectiveness. Moreover, it was hypothesized that SO(2) was responsible for the entry of B. bruxellensis into a viable but non-culturable (VBNC) state. The aim of this project was to investigate the effects of SO(2) on the remaining enzyme activities of B. bruxellensis populations according to their viability and cultivability, focusing on the hydroxycinnamate decarboxylase enzyme, the first enzyme needed, rather than the metabolites produced. Enzyme activity was determined both in cell-free extracts and resting cells after various SO(2) treatments in synthetic media. After slight sulfiting (around 50 mg/L total SO(2)), the yeasts had lost part of their enzyme activity but not their cultivability. At higher doses (at least 75 mg/L total SO(2)) the majority of yeasts had lost their cultivability but still retained part of their enzyme activity. These results suggested that non culturable cells retained some enzyme activity.

Evaluation of PCR-DGGE methodology to monitor fungal communities on grapes.

AIMS: Some fungi present on the surface of grapes may have a negative effect on the quality of wine. The aim of this study was to evaluate PCR-denaturing gradient gel electrophoresis (PCR-DGGE), for the establishment of fungal community profiles from grapes, in order to monitor fungi potentially involved in wine defects. METHODS AND RESULTS: A fragment of the beta-tubulin gene was amplified from filamentous fungi and yeasts described from grapes and analysed using two different denaturing gradient gels to constitute a reference database. The use of beta-tubulin sequences instead of ITS rDNA in PCR-DGGE showed a progress in the discrimination of these fungal species but comigration problems were still observed. The technique was then applied on grape samples. The profiles counted up to 10 bands of which half corresponded to species which were not recorded in the reference database. CONCLUSION: PCR-DGGE represents a useful tool to compare environmental samples for the study of the dynamics of fungal communities, but comigrations represent a limit in its use to describe the species present. SIGNIFICANCE AND IMPACT OF THE STUDY: A better knowledge of the fungal diversity on grapes, particularly species responsible for wine defect, is necessary to develop accurate molecular detection tools.