期刊
MICROORGANISMS
卷 9, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/microorganisms9112327
关键词
yeast; Saccharomyces cerevisiae; Chardonnay wine; metabolomic; volatile compounds; sensory analysis
类别
资金
- METABOLOM [BG0022832]
- Conseil Regional de Bourgogne-Franche-Comte
- European Union
This study found significant chemical composition and sensory differences in wines produced by different yeast strains, which are mainly influenced by nitrogen metabolism. The combination of metabolomics, volatile compounds analysis, and sensory evaluation can provide detailed insights into these differences.
Alcoholic fermentation is known to be a key stage in the winemaking process that directly impacts the composition and quality of the final product. Twelve wines were obtained from fermentations of Chardonnay must made with twelve different commercial wine yeast strains of Saccharomyces cerevisiae. In our study, FT-ICR-MS, GC-MS, and sensory analysis were combined with multivariate analysis. Ultra-high-resolution mass spectrometry (uHRMS) was able to highlight hundreds of metabolites specific to each strain from the same species, although they are characterized by the same technological performances. Furthermore, the significant involvement of nitrogen metabolism in this differentiation was considered. The modulation of primary metabolism was also noted at the volatilome and sensory levels. Sensory analysis allowed us to classify wines into three groups based on descriptors associated with white wine. Thirty-five of the volatile compounds analyzed, including esters, medium-chain fatty acids, superior alcohols, and terpenes discriminate and give details about differences between wines. Therefore, phenotypic differences within the same species revealed metabolic differences that resulted in the diversity of the volatile fraction that participates in the palette of the sensory pattern. This original combination of metabolomics with the volatilome and sensory approaches provides an integrative vision of the characteristics of a given strain. Metabolomics shine the new light on intraspecific discrimination in the Saccharomyces cerevisiae species.
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