Litcius/Paper detail

Wine Yeast Cells Acquire Resistance to Severe Ethanol Stress and Suppress Insoluble Protein Accumulation during Alcoholic Fermentation

Masashi Yoshida, Noboru Furutani, Futsuki Imai, Takeo Miki, Shingo Izawa

2022Microbiology Spectrum16 citationsDOIOpen Access PDF

Abstract

Winemaking is a dynamic and complex process in which ethanol concentrations gradually increase to reach >10% (vol/vol) through alcoholic fermentation. However, there is little information on protein damage in wine yeast during winemaking. We investigated the insoluble protein levels of wine yeast under laboratory conditions in SD medium and during fermentation in SGM. Under laboratory conditions, wine yeast cells, as well as laboratory strain cells, accumulated insoluble proteins under acute 10% (vol/vol) ethanol stress, and this accumulation was suppressed by pretreatment with 6% (vol/vol) ethanol. During the fermentation process, insoluble protein levels were maintained at low levels in wine yeast even when the SGM ethanol concentration exceeded 10% (vol/vol). These results indicate that the progression of wine yeast through fermentation in SGM results in stress tolerance, similar to the pretreatment of cells with mild ethanol stress. These findings further the understanding of yeast cell physiology during winemaking.

Topics & Concepts

WinemakingYeastEthanol fermentationWineFermentationEthanolYeast in winemakingMalolactic fermentationChemistryFood scienceBiochemistrySaccharomyces cerevisiaeFermentation in winemakingEthanol fuelBiologyBacteriaLactic acidGeneticsFermentation and Sensory AnalysisFungal and yeast genetics researchMeat and Animal Product Quality