Deciphering microbial community dynamics along the fermentation course of soy sauce under different temperatures using metagenomic analysis.

IF 3.1 4区 医学 Q2 Agricultural and Biological Sciences
Nguyen Thanh Hai Nguyen, Ming Ban Huang, Fa Yong Liu, Wei-Ling Huang, Huyen-Trang Tran, Tsai-Wen Hsu, Chao-Li Huang, Tzen-Yuh Chiang
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引用次数: 1

Abstract

Fermented soy sauce consists of microorganisms that exert beneficial effects. However, the microbial community dynamics during the fermentation course is poorly characterized. Soy sauce production is classified into the stages of mash fermentation with koji (S0), brine addition (S1), microbial transformation (S2), flavor creation (S3), and fermentation completion (S4). In this study, microbial succession was investigated across stages at different temperatures using metagenomics analyses. During mash fermentation, Aspergillus dominated the fungal microbiota in all stages, while the bacterial composition was dominated by Bacillus at room temperature and by a diverse composition of enriched lactic acid bacteria (LAB) at a controlled temperature. Compared with a stable fungal composition, bacterial dynamics were mostly attributable to fluctuations of LAB, which break down carbohydrates into lactic acid. After adding brine, increased levels of Enterococcus and decreased levels of Lactococcus from S1 to S4 may reflect differences in salinity tolerance. Staphylococcus, as a fermentation starter at S0, stayed predominant throughout fermentation and hydrolyzed soybean proteins. Meanwhile, Rhizopus and Penicillium may improve the flavor. The acidification of soy sauce was likely attributable to production of organic acids by Bacillus and LAB under room temperature and controlled temperature conditions, respectively. Metagenomic analysis revealed that microbial succession was associated with the fermentation efficiency and flavor enhancement. Controlled temperature nurture more LAB than uncontrolled temperatures and may ensure the production of lactic acid for the development of soy sauce flavor.

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利用宏基因组分析分析不同温度下酱油发酵过程中微生物群落动态。
发酵酱油中含有有益的微生物。然而,发酵过程中微生物群落的动态特征却很少。酱油生产分为曲醪发酵(S0)、卤水加入(S1)、微生物转化(S2)、风味产生(S3)和发酵完成(S4)四个阶段。在本研究中,利用宏基因组学分析研究了不同温度下不同阶段的微生物演替。在醪发酵过程中,真菌菌群在各个阶段均以曲霉为主,而细菌组成在室温下以芽孢杆菌为主,在可控温度下以多种组成的富集乳酸菌(LAB)为主。与稳定的真菌组成相比,细菌动力学主要归因于LAB的波动,LAB将碳水化合物分解为乳酸。加入盐水后,从S1到S4肠球菌水平升高,乳球菌水平降低,可能反映了耐盐性的差异。葡萄球菌作为发酵发酵剂,在整个发酵过程中保持优势,并水解大豆蛋白。同时,根霉和青霉可以改善风味。酱油的酸化可能是由于芽孢杆菌和乳酸菌分别在室温和恒温条件下产生有机酸。宏基因组分析表明,微生物演替与发酵效率和风味增强有关。控制温度比不控制温度培养出更多的乳酸菌,可以保证酱油风味发展所需乳酸的产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Bioscience of Microbiota, Food and Health
Bioscience of Microbiota, Food and Health Immunology and Microbiology-Applied Microbiology and Biotechnology
CiteScore
5.50
自引率
3.20%
发文量
24
期刊介绍: Bioscience of Microbiota, Food and Health (BMFH) is a peer-reviewed scientific journal with a specific area of focus: intestinal microbiota of human and animals, lactic acid bacteria (LAB) and food immunology and food function. BMFH contains Full papers, Notes, Reviews and Letters to the editor in all areas dealing with intestinal microbiota, LAB and food immunology and food function. BMFH takes a multidisciplinary approach and focuses on a broad spectrum of issues.
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