杂醇油
乙醛
酿酒酵母
异丁醇
异戊醇
醇脱氢酶
化学
生物化学
丙酮酸脱羧酶
酵母
发酵
乙醇
酒
作者
Liang Wu,Yongdi Wen,Wen‐Ying Chen,Tongshuai Yan,Xiaofei Tian,Shishui Zhou
出处
期刊:Fems Microbiology Letters
[Oxford University Press]
日期:2021-08-01
卷期号:368 (15)
被引量:8
标识
DOI:10.1093/femsle/fnab094
摘要
The reduced yields of acetaldehyde and fusel alcohols through fermentation by Saccharomyces cerevisiae is of significance for the improvement of the flavor and health of alcoholic beverages. In this study, the ADH2 (encode alcohol dehydrogenase) and THI3 (encode decarboxylase) genes of the industrial diploid strain S. cerevisiae XF1 were deleted. Results showed that single-gene-deletion mutants by separate gene deletion of ADH2 or THI3 led to a reduced production of the acetaldehyde or fusel alcohols, respectively. In the meantime, the double-gene-deletion mutant S. cerevisiae XF1-AT was constructed by deleting the ADH2 and THI3 simultaneously. An equivalent level of the ethanol production by the S. cerevisiae XF1-AT could be achieved but with the yields of acetaldehyde, isoamyl alcohol and iso-butanol reduced by 42.09%, 15.65% and 20.16%, respectively. In addition, there was no interaction between the ADH2 deletion and THI3 deletion in reducing the production of acetaldehyde and fusel alcohols. The engineered S. cerevisiae XF1-AT provided a new strategy to alcoholic beverages brewing industry for reducing the production of acetaldehyde as well as the fusel alcohols.
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