Evaluating potential applications of indigenous yeasts and their β‐glucosidases |
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Authors: | Yuxia Wang Chao Zhang Yan Xu Jiming Li |
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Affiliation: | 1. Yibin University, School of Life science and Food Engineering, Yibin, Sichuan, China;2. , Yibin, Sichuan, China;3. , Wuxi, Jiangsu, China;4. Changyu Group Company Ltd, Center of Science and Technology, Yantai, Shantong, China |
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Abstract: | The potential applications of wild yeast strains with β‐glucosidase activity were investigated by assaying their enzymatic production under simulated oenological conditions, coupled with the exploration of the potential applications of the β‐glucosidases by studying the enzymatic activity and stability under similar oenological conditions. The assay of enzymatic locations revealed that the β‐glucosidase activities from these wild strains occurred in the extracellular fraction, and in whole and permeabilized cells. The effects of different oenological factors on β‐glucosidase production indicated that the F6 Trichosporon asahii strain had higher β‐glucosidase production than the other strains under low pH conditions. However, the F35 Hanseniaspora uvarum strain and the F30 Saccharomyces cerevisiae strain showed higher β‐glucosidase production under high‐sugar conditions. Furthermore, the influence of oenological factors on the activity and stability of the β‐glucosidases revealed that the enzyme from the F6 T. asahii strain had a stronger low‐pH‐value resistance than the other yeast β‐glucosidases. These results suggest that the F35 H. uvarum, F30 S. cerevisiae and the F6 T. asahii β‐glucosidases may have some potentially applicable values in the fermentation industry. Copyright © 2015 The Institute of Brewing & Distilling |
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Keywords: | indigenous yeast β ‐glucosidase potential applications oenological factors |
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