Overexpression of vacuolar H+‐ATPase‐related genes in bottom‐fermenting yeast enhances ethanol tolerance and fermentation rates during high‐gravity fermentation |
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Authors: | Sonoko Hasegawa Tomoo Ogata Koichi Tanaka Akira Ando Hiroshi Takagi Jun Shima |
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Affiliation: | 1. Research Division of Microbial Sciences, Kyoto University, , Kyoto, Japan;2. Research Laboratories for Brewing, Asahi Breweries Ltd, , Ibaraki, Japan;3. NARO Food Research Institute, , Ibaraki, Japan;4. Graduate School of Biological Sciences, Nara Institute of Science and Technology, , Nara, Japan |
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Abstract: | Vacuolar H+‐ATPase (V‐ATPase) is thought to play a role in stress tolerance. In this study it was found that bottom‐fermenting yeast strains, in which the V‐ATPase‐related genes DBF2, VMA41/CYS4/NHS5 and RAV2 were overexpressed, exhibited stronger ethanol tolerance than the parent strain and showed increased fermentation rates in a high‐sugar medium simulating high‐gravity fermentation. Among the strains examined, the DBF2‐overexpressing bottom‐fermenting yeast strain exhibited the highest ethanol tolerance and fermentation rate in YPM20 medium. Using this strain, high‐gravity fermentation was performed by adding sugar to the wort, which led to increased fermentation rates and yeast viability compared with the parent strain. These findings indicate that V‐ATPase is a stress target in high‐gravity fermentation and suggests that enhancing the V‐ATPase activity increases the ethanol tolerance of bottom‐fermenting yeast, thereby improving the fermentation rate and cell viability under high‐gravity conditions. Copyright © 2012 The Institute of Brewing & Distilling |
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Keywords: | bottom‐fermenting yeast ethanol tolerance fermentation rate high‐gravity fermentation vacuolar H+‐ATPase |
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