食品科学 ›› 2026, Vol. 47 ›› Issue (11): 109-120.doi: 10.7506/spkx1002-6630-20251229-242

• 生物工程 • 上一篇    

浓香型白酒大曲优势菌Weissella confusa DQM2的筛选、生理特性与基因组学分析

向心悦,黄鑫,刘杰,张楷正,邹伟   

  1. (1.四川轻化工大学食品与酿酒工程学院,四川 宜宾 644005;2.四川轻化工大学 酿酒生物技术及应用四川省重点实验室,四川 宜宾 644005;3.安徽临水酒业有限公司,安徽 六安 237471)
  • 发布日期:2026-07-02
  • 基金资助:
    酿酒生物技术及应用四川省重点实验室项目(NJ2023-07);泸州老窖研究生创新基金项目(LJCX2024-4)

Selection, Physiological Characteristics, and Genomic Analysis of Weissella confusa DQM2, a Dominant Strain in Nongxiangxing Baijiu Daqu

XIANG Xinyue, HUANG Xin, LIU Jie, ZHANG Kaizheng, ZOU Wei   

  1. (1. School of Food and Liquor Engineering, Sichuan University of Science and Engineering, Yibin 644005, China; 2. Brewing Science and Technology Key Laboratory of Sichuan Province, Sichuan University of Science and Engineering, Yibin 644005, China; 3. Anhui Linshui Liquor Co. Ltd., Lu’an 237471, China)
  • Published:2026-07-02

摘要: 本研究基于扩增子测序解析浓香型白酒大曲的细菌群落结构,并分离筛选其优势菌株,结合基因组与泛基因组分析深入揭示其生理代谢与遗传进化特征。结果表明,融合魏斯氏菌(Weissella confusa)是大曲发酵后期的优势菌种;从中成功分离出1 株代表性菌株W. confusa DQM2,该菌株可利用15 种碳源,在48 ℃条件下仍可生长,具有较强的耐热性,并在纯培养条件下72 h内通过异型乳酸发酵产生(14.80±0.49)g/L乳酸和(4.80±0.61)g/L乙酸。基因组分析显示,DQM2基因组大小为2.22 Mb,GC相对含量为44.64%,携带完整的热激蛋白系统HSP70(DnaK-DnaJ-GrpE)、8 个核心热激基因、3 个抗氧化相关基因以及261 个环境耐受相关基因,这些基因可能共同协助菌株通过维持细胞稳态、增强抗氧化能力、利用多碳源及调节细胞膜组成等方式抵抗大曲高温胁迫。进一步对112 个高质量W. confusa基因组的泛基因组分析表明,该物种具有开放泛基因组,其中DQM2拥有36 个特有基因家族,包括谷胱甘肽酰胺还原酶、泛酸转运蛋白等,可能通过抗氧化、代谢增强及独特调控网络参与耐热适应。基因岛分析提示DQM2具有由CtsR调控的热应激响应网络,并携带一个具备部分结构蛋白与裂解功能的前噬菌体片段,这为其在大曲胁迫环境中的生态竞争优势提供了遗传基础。本研究可为白酒酿造优势微生物资源的挖掘及大曲发酵过程中乳酸菌的生态适应性研究提供理论支撑。

关键词: 融合魏斯氏菌;大曲;全基因组测序;泛基因组;耐热机制

Abstract: Lactic acid bacteria dominate the bacterial community in Nongxiangxing Baijiu Daqu, which play an important role in maintaining microecological balance and synthesizing flavor precursors, thereby shaping the quality of baijiu. This study analyzed the bacterial community structure in Nongxiangxing Baijiu Daqu via amplicon sequencing and isolated its dominant strains. Furthermore, by integrating genomic and pan-genomic analyses, we elucidated the physiological metabolism and genetic evolution characteristics of these strains. The results showed that Weissella confusa was the dominant species in the late stage of Daqu fermentation. W. confusa DQM2 was successfully isolated as a representative strain. This strain displayed robust thermotolerance (growth at 48 ℃) and could utilize 15 carbon sources. Under pure culture conditions, it produced (14.80 ± 0.49) g/L of L-lactic acid and (4.80 ± 0.61) g/L of acetic acid via heterolactic fermentation after 72 hours. DQM2 had a genome size of 2.22 Mb with a GC relative content of 44.64%. In addition, the genome harbored a complete HSP70 heat shock protein system (DnaK-DnaJ-GrpE), 8 core heat shock genes, 3 antioxidant-related genes, and 261 genes associated with environmental stress tolerance. These genes might collectively assist the strain in resisting high-temperature stress in Daqu by maintaining cellular homeostasis, enhancing antioxidant capacity, utilizing multiple carbon sources, and regulating cell membrane composition. Further pan-genomic analysis of 112 high-quality W. confusa genomes indicated that this species had an open pangenome, with DQM2 harboring 36 unique gene families, including glutathione amide reductase and pantothenate transport protein. These gene families may contribute to heat adaptation through antioxidant activity, enhanced metabolism, and unique regulatory networks. Genomic island analysis suggested that DQM2 possessed a heat stress response network regulated by CtsR and harbored a prophage fragment encoding partial structural proteins and possessing lytic functions, providing a genetic basis for its ecological competitive advantage in the stressful Daqu environment. This study provides theoretical support for exploring dominant microbial resources from Baijiu brewing and studying the ecological adaptability of lactic acid bacteria during Daqu fermentation.

Key words: Weissella confusa; Daqu; whole-genome sequencing; pan-genome; heat tolerance mechanism

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