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传统堆积和架子堆积高温大曲发酵过程中物理化学驱动因素、微生物群落和挥发性代谢产物的异源机制洞察

Insights into heterogenetic mechanism in physicochemical driving factors, microbial community and volatile metabolites during high-temperature Daqu fermentation by traditional stacking and shelf stacking.

作者信息

Chen Feifan, Zhao Yun, Ge Huairui, Wei Chunhui, Li Jiqi, Li Ang, Zhang Huan, Yuan Lin, Huang Zhiguo, Du Liping, Ma Lijuan

机构信息

Key Laboratory of Industrial Fermentation Microbiology Ministry of Education, Tianjin Key Laboratory of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin, China.

Liquor Making Biological Technology and Application of Key Laboratory of Sichuan Province, Sichuan University of Science and Engineering, Yibin, China.

出版信息

J Sci Food Agric. 2025 Aug 29. doi: 10.1002/jsfa.70128.

DOI:10.1002/jsfa.70128
PMID:40879209
Abstract

BACKGROUND

Research on shelf-stacking fermentation is growing, with the aim of reducing labor and improving Daqu stability, but it still falls short compared to traditional stacking fermentation, especially for high-temperature Daqu (HTD). The heterogenetic mechanisms underlying+ these two Daqu remain unclear.

RESULTS

The improved micro-oxygen environment in shelf-stacking fermentation significantly reduced acidity and increased liquefaction and esterification activities compared to traditionally stacked HTD (HTD-T). These changes substantially impacted the bacterial community and its succession, though fungi were minimally affected. Specifically, shelf-stacked HTD (HTD-S) showed higher relative abundances of Weissella and Thermoactinomyces in later stages than HTD-T, whereas Bacillus and Kroppenstedtia prevailed under traditional conditions. Redundancy analysis indicated that moisture and acidity mainly drove the differentiation of the bacterial community. Shelf-stacking fermentation also reduced the contents of furfuryl alcohol, furfural, acetic acid and isovaleric acid. Thermoactinomyces, Aspergillus and Thermoascus significantly contributed to these changes in characteristic flavor compounds. Functional prediction further revealed that microbial communities in HTD-T demonstrated enhanced abilities in glycolysis, 2,3-butanediol synthesis and phenylalanine metabolism.

CONCLUSION

The findings provide potential control targets for precision regulation to improve the quality of shelf-stacked HTD and will contribute to mechanized HTD production. © 2025 Society of Chemical Industry.

摘要

背景

关于架式堆积发酵的研究不断增加,旨在减少劳动力并提高大曲稳定性,但与传统堆积发酵相比仍有不足,尤其是对于高温大曲(HTD)。这两种大曲背后的异源机制仍不清楚。

结果

与传统堆积的高温大曲(HTD-T)相比,架式堆积发酵中改善的微氧环境显著降低了酸度,提高了液化和酯化活性。这些变化对细菌群落及其演替产生了重大影响,尽管真菌受到的影响最小。具体而言,与HTD-T相比,架式堆积的高温大曲(HTD-S)在后期阶段显示出更高的魏斯氏菌属和嗜热放线菌属相对丰度,而芽孢杆菌属和克罗彭施泰德氏菌在传统条件下占主导地位。冗余分析表明,水分和酸度主要驱动细菌群落的分化。架式堆积发酵还降低了糠醇、糠醛、乙酸和异戊酸的含量。嗜热放线菌属、曲霉属和嗜热ascus属对特征风味化合物的这些变化有显著贡献。功能预测进一步表明,HTD-T中的微生物群落表现出在糖酵解、2,3-丁二醇合成和苯丙氨酸代谢方面增强的能力。

结论

这些发现为精确调控以提高架式堆积高温大曲的质量提供了潜在的控制靶点,并将有助于高温大曲的机械化生产。©2025化学工业协会。

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