Dong Jian, Hong Kun-Qiang, Hao Ai-Li, Zhang Cui-Ying, Fu Xiao-Meng, Wang Peng-Fei, Xiao Dong-Guang
Key Laboratory of Industrial Fermentation Microbiology, Ministry of Education, Tianjin Industrial Microbiology Key Laboratory, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, 300457, People's Republic of China.
Biotechnol Prog. 2018 Mar;34(2):328-336. doi: 10.1002/btpr.2605. Epub 2018 Jan 18.
As content and proportion of ethyl acetate is critical to the flavor and quality of beverages, the concise regulation of the ethyl acetate metabolism is a major issue in beverage fermentations. In this study, for ethyl acetate yield regulation, we finely modulated the expression of ATF1 through precise and seamless insertion of serially truncated PGK1 promoter from the 3' end by 100bp steps in the Chinese liquor yeast, CLy12a. The three engineered promoters carrying 100-, 200-, and 300-bp truncations exhibited reduced promoter strength but unaffected growth. These three promoters were integrated into the CLy12a strain, generating strains CLy12a-P-100, CLy12a-P-200, and CLy12a-P-300, respectively. The transcription levels of CLy12a-P-100, CLy12a-P-200, and CLy12a-P-300 were 20%, 17%, and 10% of that of CLy12a-P, respectively. The AATase (alcohol acetyl transferases, encoded by the ATF1 gene) activity of three engineered strains were 36%, 56%, and 62% of that of CLy12a-P. In the liquid fermentation of corn hydrolysate at 30°C, the concentration of ethyl acetate in CLy12a-P-100, CLy12a-P-200, and CLy12a-P-300 were reduced by 28%, 30%, and 42%, respectively, compared to CLy12a-P. These results verifying that the ethyl acetate yield could be gradually enhanced by finely modulating the expression of ATF1. The engineered strain CLy12a-P-200 produced the ethyl acetate concentration with the best sensorial quality compared to the other engineered yeast strains. The method proposed in this work supplies a practical proposal for breeding Chinese liquor yeast strains with finely modulated ethyl acetate yield. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 34:328-336, 2018.
由于乙酸乙酯的含量和比例对饮料的风味和品质至关重要,因此精确调控乙酸乙酯代谢是饮料发酵中的一个主要问题。在本研究中,为了调控乙酸乙酯产量,我们通过在中国白酒酵母CLy12a中从3'端以100bp步长精确无缝插入串联截短的PGK1启动子,精细调节了ATF1的表达。携带100bp、200bp和300bp截短的三个工程化启动子表现出降低的启动子强度,但不影响生长。这三个启动子分别整合到CLy12a菌株中,产生了菌株CLy12a-P-100、CLy12a-P-200和CLy12a-P-300。CLy12a-P-100、CLy12a-P-200和CLy12a-P-300的转录水平分别为CLy12a-P的20%、17%和10%。三个工程菌株的AATase(由ATF1基因编码的酒精乙酰转移酶)活性分别为CLy12a-P的36%、56%和62%。在30°C下玉米水解物的液体发酵中,与CLy12a-P相比,CLy12a-P-100、CLy12a-P-200和CLy12a-P-300中的乙酸乙酯浓度分别降低了28%、30%和42%。这些结果证明通过精细调节ATF1的表达可以逐渐提高乙酸乙酯产量。与其他工程酵母菌株相比,工程菌株CLy12a-P-200产生的乙酸乙酯浓度具有最佳的感官品质。本工作中提出的方法为培育具有精细调控乙酸乙酯产量的中国白酒酵母菌株提供了一个切实可行的方案。©2018美国化学工程师学会生物技术进展,34:328 - 336,2018。
