Microbial community succession patterns and drivers of Luxiang-flavor Jiupei during long fermentation

Microbial community succession patterns and drivers of Luxiang-flavor Jiupei during long fermentation

Luxiang-flavor Baijiu is the mainstream of Baijiu production and consumption in China, and the microbial composition has a great influence on the flavor and quality of Baijiu. In this study, we combined multi-omics sequencing technology to explore the microbial composition, dynamics and metabolite c...

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Published in:Frontiers in microbiology Vol. 14; p. 1109719
Main Authors: Liu, Xiaogang, Ma, Dongna, Yang, Chen, Yin, Qianqian, Liu, Shuangping, Shen, Caihong, Mao, Jian
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 10-02-2023
Subjects:
driving factors
high-throughput sequencing
Jiupei
metaproteome
microbial community
Microbiology
microbial community
Jiupei
driving factors
high-throughput sequencing
metaproteome
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Summary:Luxiang-flavor Baijiu is the mainstream of Baijiu production and consumption in China, and the microbial composition has a great influence on the flavor and quality of Baijiu. In this study, we combined multi-omics sequencing technology to explore the microbial composition, dynamics and metabolite changes of Luxiang-flavor Jiupei during long fermentation periods. The results showed that based on the interaction between environmental constraints and microorganisms, Jiupei microorganisms formed different ecological niches and functional differentiation, which led to the formation of Jiupei stable core microorganisms. The bacteria were mainly and , and the fungi were mainly and . Most bacteria were negatively correlated with temperature, alcohol and acidity, and for the fungi, starch content, reducing sugar content and temperature had the most significant effects on community succession. Macroproteomic analysis revealed that had the highest relative content; microbial composition, growth changes and functions were more similar in the pre-fermentation period (0-18 days); microorganisms stabilized in the late fermentation period (24-220 days). The metabolome analysis revealed that the metabolites of the Jiupei changed rapidly from 18 to 32 days of fermentation, with a significant increase in the relative content of amino acids, peptides and analogs and a significant decrease in the relative content of sugars; the metabolites of the Jiupei changed slowly from 32 to 220 days of fermentation, with a stabilization of the content of amino acids, peptides and analogs. This work provides insights into the microbial succession and microbial drivers during the long-term fermentation of Jiupei, which have potential implications for optimizing production and improving the flavor of Baijiu.
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Edited by: Biao Suo, Henan Agricultural University, China
Reviewed by: Huseyin Erten, Cukurova University, Türkiye; Wen-Liang Xiang, Xihua University, China
This article was submitted to Food Microbiology, a section of the journal Frontiers in Microbiology
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2023.1109719