Abstract
As a complex microbial ecosystem, wine is a particularly interesting model for studying interactions between microorganisms as fermentation can be done by microbial consortia, a unique strain or mixed culture. The effect of a specific yeast strain on its environments is unique and characterized by its metabolites and their concentration. With its great resolution and excellent mass accuracy, ultrahigh resolution mass spectrometry (uHRMS) is the perfect tool to analyze the yeast metabolome at the end of alcoholic fermentation. This work reports the change in wine chemical composition from pure and mixed culture fermentation with Lachancea thermotolerans, Starmerella bacillaris, Metschnikowia pulcherrima and S. cerevisiae. We could clearly differentiate wines according to the yeast strain used in single cultures and markers, which reflect important differences between the yeast species, were extracted and annotated. Moreover, uHRMS revealed underlining intra species metabolomics differences, showing differences at the strain level between the two Starmerella bacillaris. Non volatile metabolomics analysis of single and sequential fermentations confirmed that mixed fermentations lead to a different composition. Distinct metabolites appeared in wines from sequential fermentation compared to single fermentation. This suggests that interactions between yeasts are not neutral.
Highlights
As a complex microbial ecosystem, wine is a interesting model for studying interactions between microorganisms as fermentation can be done by microbial consortia, a unique strain or mixed culture
Chardonnay must was divided into 10 aliquots, which were inoculated with pure cultures of S. cerevisiae (Sc), L. thermotolerans (LT), S. bacillaris (SB1 and SB2) and M. pulcherrima (Mp), respectively
This work reports the changes of the non-volatile chemical composition of the wine exometabolome as triggered by fermentation in single and mixed culture using ultra high resolution mass spectrometry
Summary
As a complex microbial ecosystem, wine is a interesting model for studying interactions between microorganisms as fermentation can be done by microbial consortia, a unique strain or mixed culture. Non volatile metabolomics analysis of single and sequential fermentations confirmed that mixed fermentations lead to a different composition. Distinct metabolites appeared in wines from sequential fermentation compared to single fermentation This suggests that interactions between yeasts are not neutral. This study showed that within the same species different strains interact and that these interactions have an impact on the composition of the final wine sensory profile. NMR-based metabolomics was recently used to identify metabolites that discriminate single and mixed cultures of two yeast during fermentation[30]. Reciprocal responses of both microorganisms have not been studied
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