Liu Wenhu, Liu Guangqian, Zhang Rui, Zheng Lei, Lu Zhenming, Zhang Xiaojuan, Wang Songtao, Shen Caihong, Shi Jinsong, Xu Zhenghong, Chai Lijuan
National Engineering Research Center for Cereal Fermentation and Food Biomanufacturing, Jiangnan University, Wuxi 214122, Jiangsu, China.
School of Biotechnology, Jiangnan University, Wuxi 214122, Jiangsu, China.
Sheng Wu Gong Cheng Xue Bao. 2024 Mar 25;40(3):877-894. doi: 10.13345/j.cjb.230340.
Daqu is the saccharifying, fermenting, and aroma-producing agent used in Baijiu brewing, and its maturation is crucial for obtaining high-quality Daqu. Previous studies have explored the microbial community composition and diversity before and after maturation. However, little is known about the changes in the functions of microbial community. In this study, based on the analyses of enzyme activities and volatile compounds of medium-temperature Daqu before and after maturation, metagenomics was used to analyze the differences in the composition of microbial community and the potential functions, with the aim to explore the microorganisms involved in changes in enzyme activities and important volatiles. The results showed that the moisture (≤0.05), starch content, liquefying activity, saccharifying activity (≤0.05), and fermentative activity decreased, while the acidity and esterifying activity (≤0.05) increased after Daqu maturation. In the meantime, the composition of volatile compounds changed significantly (=0.001), with significant decreases in the contents of aromatic alcohols and esters as well as significant increases in the contents of pyrazines, ketones, and higher fatty alcohols. The relative abundances of Mucorales (34.8%-23.0%) and Eurotiales (34.3%-20.1%) decreased in matured Daqu, and functional predictions showed these changes decreased the gene abundances of α-amylase, α-glucosidase, alcohol dehydrogenase, and alcohol dehydrogenase (NADP) ( > 0.05), resulting in lower levels of liquefying activity ( > 0.05), saccharifying activity (≤0.05), fermentative activity ( > 0.05), as well as aromatic alcohols such as phenylethyl alcohol (≤0.05). In addition, higher relative abundances of Saccharomycetales (2.9%-16.6%), Lactobacillales (14.9%-23.6%), and Bacillales (0.8%-3.8%) were observed after maturation, and they were conducive to improving the gene abundances of alcohol O-acetyltransferase, carboxylesterase, acetolactate decarboxylase, (R)-acetoin dehydrogenase, and (S)-acetoin dehydrogenase (≤0.05), resulting in significantly higher levels of esterifying activity and pyrazines (≤0.05). The microorganisms involved in the changes in enzyme activities and important volatiles before and after Daqu maturation were studied at the gene level in this work, which may facilitate further rational regulation for Daqu production.
大曲是白酒酿造中使用的糖化、发酵和产香剂,其陈酿对于获得高品质大曲至关重要。以往研究探讨了陈酿前后微生物群落的组成和多样性。然而,对于微生物群落功能的变化却知之甚少。本研究基于对中温大曲陈酿前后酶活性和挥发性化合物的分析,采用宏基因组学方法分析微生物群落组成和潜在功能的差异,旨在探究参与酶活性和重要挥发性物质变化的微生物。结果表明,大曲陈酿后水分(≤0.05)、淀粉含量、液化活性、糖化活性(≤0.05)和发酵活性降低,而酸度和酯化活性(≤0.05)增加。同时,挥发性化合物的组成发生了显著变化(=0.001),芳香醇和酯类含量显著降低,吡嗪类、酮类和高级脂肪醇含量显著增加。毛霉目(34.8%-23.0%)和散囊菌目(34.3%-20.1%)在成熟大曲中的相对丰度降低,功能预测表明这些变化降低了α-淀粉酶、α-葡萄糖苷酶、乙醇脱氢酶和乙醇脱氢酶(NADP)的基因丰度(>0.05),导致液化活性(>0.05)、糖化活性(≤0.05)、发酵活性(>0.05)以及苯乙醇等芳香醇含量较低(≤0.05)。此外,成熟后观察到酵母目(2.9%-16.6%)、乳杆菌目(14.9%-23.6%)和芽孢杆菌目(0.8%-3.8%)的相对丰度较高,它们有利于提高乙醇O-乙酰转移酶、羧酸酯酶、乙酰乳酸脱羧酶、(R)-乙偶姻脱氢酶和(S)-乙偶姻脱氢酶的基因丰度(≤0.05),导致酯化活性和吡嗪类含量显著升高(≤0.05)。本研究在基因水平上研究了大曲陈酿前后参与酶活性和重要挥发性物质变化的微生物,这可能有助于进一步合理调控大曲生产。
