Saccharomyces cerevisiae is the main microorganism responsible for wine alcoholic fermentation. The oenological phenotypes resulting from fermentation, such as the production of acetic acid, glycerol, and residual sugar concentration are regulated by multiple genes and vary quantitatively between different strain backgrounds. With the aim of identifying the quantitative trait loci (QTLs) that regulate oenological phenotypes, we performed linkage analysis using three crosses between highly diverged S. cerevisiae strains. Segregants from each cross were used as starter cultures for 20-day fermentations, in synthetic wine must, to simulate actual winemaking conditions. Linkage analysis on phenotypes of primary industrial importance resulted in the mapping of 18 QTLs. We tested 18 candidate genes, by reciprocal hemizygosity, for their contribution to the observed phenotypic variation, and validated five genes and the chromosome II right subtelomeric region. We observed that genes involved in mitochondrial metabolism, sugar transport, nitrogen metabolism, and the uncharacterized ORF YJR030W explained most of the phenotypic variation in oenological traits. Furthermore, we experimentally validated an exceptionally strong epistatic interaction resulting in high level of succinic acid between the Sake FLX1 allele and the Wine/European MDH2 allele. Overall, our work demonstrates the complex genetic basis underlying wine traits, including natural allelic variation, antagonistic linked QTLs and complex epistatic interactions between alleles from strains with different evolutionary histories.
Aims: The objective of this work was to study the effect of the use of Saccharomyces cerevisiae monocultures over the biodiversity of non-Saccharomyces yeasts in wine-producing areas in Chile. Methods and Results: Microvinifications were carried out with grape musts of two areas. In one of them, the fermentation is carried out mainly in a spontaneous manner, whereas in the other the musts are inoculated with commercial yeasts. The isolated yeasts were identified by the 1 internal transcribed (ITS)/restriction fragment length polymorphism technique. In the industrial production area less variability of yeast genera was observed as compared with the traditional area, an observation that is greatest at the end of the fermentation. Furthermore, a study of the production of extracellular enzymes was done. The majority of the yeasts showed at least one of the activities assayed with the exception of b-glycosidase.
Conclusion:The results suggest that in the industrialized area the diversity of yeasts is less in the traditional area. Likewise, the potentiality of the non-Saccharomyces yeasts as enzyme producers with industrial interest has been confirmed. Significance and Impact of the Study: This study shows the negative effect of the use of monocultures over the biodiversity of yeasts in wine-producing regions.
Aims:The wide use of yeast inoculum for wine fermentations permit the spreading of commercial Saccharomyces strains in wine areas all over the world. To study the impact of this practice on the autochthonous yeast populations it is necessary to have tools that permit the evaluation of the geographical origin of native isolates and differentiate them from commercial strains. Methods and Results: Electrophoretic karyotyping and mitochondrial DNA restriction analysis were used to characterize the genome of native S. cerevisiae isolates associated to wine from three countries in South America. Both methods revealed differences in the genomic structure between these populations, in addition to differences between sub-populations collected in wine-producing areas in Chile. Conclusions: Our data support that molecular polymorphism analysis may be useful to evaluate the geographical origin of native isolates of yeast strains for industrial use. Furthermore, these findings are in agreement with the idea of a clonal mode of reproduction of wine yeasts in natural environments. Significance and Impact of the Study: This study permits the characterization of native yeast isolates in relation to their geographical origin. This procedure could be used as a tool for evaluating if a native isolate derives from the region were it was collected or if it is a strain derived from a commercial strain by microevolution.
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