发酵
风味
食品科学
葡萄酒
化学
酿酒酵母
气味
酿酒发酵
超声
生物技术
酵母
生物化学
生物
有机化学
色谱法
作者
Jing Wang,Haining Xu,Peng-Fei Yan,Mengyuan Yang,Benjamin Kumah Mintah,Chunhua Dai,Rong Zhang,Haile Ma,Ronghai He
摘要
Abstract BACKGROUND Rice wine (RW) fermentation is limited by its long fermentation time, weak taste and unpleasant flavors such as oil and odor. In this study, a novel ultrasound technology of Saccharomyces cerevisiae was used with the aim of improving fermentation efficiency and volatile flavor quality of RW. RESULTS The results showed that fixed‐frequency ultrasonic treatment (28 kHz, 45 W L −1 , 20 min) of S. cerevisiae seed culture at its logarithmic metaphase significantly increased the biomass and alcohol yield by 31.58% and 26.45%, respectively, and reduced fermentation time by nearly 2 days. Flavor analysis indicated that the flavor compounds in RW, specifically the esters and alcohols, were also increased in quantity after the ultrasonic treatment of S. cerevisiae seed liquid. Isobutyl acetate, ethyl butyrate, ethyl hexanoate and phenethyl acetate contents were increased by 78.92%, 129.19%, 7.79% and 97.84%, respectively, as compared to the control. CONCLUSION Ultrasonic treatment of S. cerevisiae reduced fermentation time and enhanced the flavor profile of RW. This study could provide a theoretical and/or technological basis for the research and development of RW. © 2024 Society of Chemical Industry.
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