Arnaud Delaherche scite author profile

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 microorganisms 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 ropyPediococcus 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.

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Oenococcus oeni Genome Plasticity Is Associated with Fitness

Bon

Delaherche

Bilhere

et al. 2009

Appl Environ Microbiol

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Oenococcus oeni strains are well-known for their considerable phenotypic variations in terms of tolerance to harsh wine conditions and malolactic activity. Genomic subtractive hybridization (SH) between two isolates with differing enological potentials was used to elucidate the genetic bases of this intraspecies diversity and identify novel genes involved in adaptation to wine. SH revealed 182 tester-specific fragments corresponding to 126 open reading frames (ORFs). A large proportion of the chromosome-related ORFs resembled genes involved in carbohydrate transport and metabolism, cell wall/membrane/envelope biogenesis, and replication, recombination, and repair. Six regions of genomic plasticity were identified, and their analysis suggested that both limited recombination and insertion/deletion events contributed to the vast genomic diversity observed in O. oeni. The association of selected sequences with adaptation to wine was further assessed by screening a large collection of strains using PCR. No sequences were found to be specific to highly performing (HP) strains alone. However, there was a statistically significant positive association between HP strains and the presence of eight gene sequences located on regions 2, 4, and 5. Gene expression patterns were significantly modified in HP strains, following exposure to one or more of the common stresses in wines. Regions 2 and 5 showed no traces of mobile elements and had normal GC content. In contrast, region 4 had the typical hallmarks of horizontal transfer, suggesting that the strategy of acquiring genes from other bacteria enhances the fitness of O. oeni strains.

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Correlation between indigenous Oenococcus oeni strain resistance and the presence of genetic markers

Renouf

Delaherche

Claisse

et al. 2007

J Ind Microbiol Biotechnol

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This study reports on monitoring Oenococcus oeni intraspecific diversity evolution during winemaking. Three different wines were monitored. The proportion of O. oeni species was determined by species-specific PCR and O. oeni strains were distinguished by multiplex PCR-RAPD. Each strain was tested by PCR for 16 significant markers revealed by a previous genetic comparison between a strong oenological potential strain and one with poor oenological potential. Population levels and diversity changed according to winemaking stages, oenological practices and the chemical properties of the wine. In all situations, O. oeni was the best-adapted species. Within the O. oeni group, intraspecific strain diversity decreased and the malolactic fermentation was the result of the most resistant strains with the highest number of markers.

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Intraspecific diversity of Oenococcus oeni strains determined by sequence analysis of target genes

Delaherche

Bon²,

Dupé

et al. 2006

Appl Microbiol Biotechnol

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Using molecular techniques and sequencing, we studied the intraspecific diversity of Oenococcus oeni, a lactic acid bacterium involved in red winemaking. A relationship between the phenotypic and genotypic characterization of 16 O. oeni strains isolated from wine with different levels of enological potential was shown. The study was based on the comparative genomic analysis by subtractive hybridization between two strains of O. oeni with opposite enological potential. The genomic sequences obtained from subtractive hybridization were amplified by polymerase chain reaction and sequenced for the 16 strains. A considerable diversity among strains of O. oeni was observed.

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