Metagenomics Reveals the Microbial Community Responsible for Producing Biogenic Amines During Mustard [Brassica juncea (L.)] Fermentation
文献类型: 外文期刊
第一作者: Yu, Yangyang
作者: Yu, Yangyang;Xu, Zhenlin;Yu, Yangyang;Li, Lu;Xu, Yujuan;Yu, Yuanshan;Li, Hong
作者机构:
关键词: biogenic amines (BAs); microbial community; metagenomic; fermentation; mustard
期刊名称:FRONTIERS IN MICROBIOLOGY ( 影响因子:6.064; 五年影响因子:6.843 )
ISSN:
年卷期: 2022 年 13 卷
页码:
收录情况: SCI
摘要: Biogenic amines (BAs) are considered potential hazards produced during fermented food processing, and the production of BAs is closely related to microbial metabolism. In this work, the changes of BA content were analyzed during mustard fermentation, and microbes and gene abundance responsible for producing BAs were revealed by metagenomic analyses. The results showed that cadaverine, putrescine, tyramine, and histamine were generated during mustard fermentation, which mainly accumulate in the first 6 days of fermentation. According to the metagenome sequencing, the predominant genus was Bacillus (64.78%), followed by Lactobacillus (11.67%), Weissella (8.88%), and Leuconostoc (1.71%) in the initial fermentation stage (second day), while Lactobacillus (76.03%) became the most dominant genus in the late stage. In addition, the gene abundance of BA production enzymes was the highest in the second day and decreased continuously as fermentation progressed. By tracking the source of the enzyme in the KEGG database, both Bacillus and Delftia closely correlated to the generation of putrescine. Besides, Bacillus also correlated to the generation of tyramine and spermidine, and Delftia also correlated to the generation of cadaverine and spermine. In the processes of fermentation, the pH of fermented mustard showed slower decrease compared with other similar fermented vegetables, which may allow Bacillus to grow at high levels before the pH <4. This study reveals the change of BA content and microbes involved in BA formation during mustard fermentation.
分类号:
- 相关文献
作者其他论文 更多>>
-
A novel High-Affinity Anti-Capsaicinoids monoclonal antibody for High-Sensitivity Immunoassays: Experimental and computational validation
作者:Wen, Weihuan;Wang, Zhiruo;Zhao, Yupeng;Liu, Zhiwei;Liang, Yifan;Wang, Yupu;Xiong, Wanqi;Luo, Lin;Xu, Zhenlin;Wen, Weihuan;Li, Xinyu;Wang, Jiang;Talib, Hafiza Shaiza;Hu, Jie;Wang, Jiang;Pan, Fei;Li, Xinyu
关键词:Monoclonal antibody; Hybridoma; Capsaicinoids; Molecular docking; Molecular dynamics simulation; And immunoassay
-
Proteomic analysis to explore potential mechanism underlying pseudomale sperm defect in Cynoglossus semilaevis
作者:Li, Xihong;Li, Lu;Cui, Zhongkai;Li, Ming;Sun, Xuexue;Li, Zhijie;Chen, Zhangfan;Ding, Lanqing;Xu, Wenteng;Li, Xihong;Cui, Zhongkai;Li, Ming;Chen, Zhangfan;Xu, Wenteng;Li, Lu;Xu, Dongdong;Xu, Wenteng
关键词:Cynoglossus semilaevis; Spermatogenesis; Proteomic profile; Chaperone; UPS
-
Discrimination of superficial lymph nodes using ultrasonography and tissue metabolomics coupled with machine learning
作者:Li, Lu;Wang, Xinyue;Deng, Hongyan;Lu, Wenjuan;Zhou, Yasu;Ye, Xinhua;Li, Yong;Wang, Jie
关键词:lymph nodes; lymphoma; metastasis; ultrasonography; metabolomics
-
MEHP induced mitochondrial damage by promoting ROS production in CIK cells, leading to apoptosis, autophagy, cell cycle arrest
作者:Li, Lu;Han, Bing;Yu, Yanbo;Lin, Hongjin;Li, Wan;Liu, Yufeng;Lin, Hongjin
关键词:MEHP; ROS; Mitochondrial damage; Apoptosis; Autophagy; Cell cycle arrest
-
Insight into the changes in structural, physicochemical, and probiotic properties of yam peel polysaccharides subjected to different physical-assisted extraction methods
作者:Lu, Jinghui;Li, Dingjin;Duan, Zhenhua;Lu, Jinghui;Yu, Yuanshan;Xu, Yujuan;Li, Lu;Cheng, Lina;Peng, Jian;Chang, Hong;Lu, Jinghui
关键词:Chinese yam peel polysaccharides; Physicochemical properties; Surface morphology; Functional activity
-
A novel Bacillus paramycoides HS-1 capable of degrading aflatoxin B1 and its key enzymatic mechanisms
作者:Zhang, Haousu;Yang, Jiguo;Tang, Yuqian;Yu, Yuanshan
关键词:Aflatoxin B1; Bacillus paramycoides; Degradation; AFB1-Degrading enzyme; AFBO
-
The interaction between soluble dietary fiber and bound phenolic from litchi pomace, and its effect on gut microbiota and inflammation
作者:Chen, Xiaowei;Xu, Hanting;Xu, Yujuan;Wu, Jijun;Zou, Bo;Li, Lu;Yu, Yuanshan;Hu, Tenggen
关键词:Litchi pomace soluble dietary fiber; Bound phenolic; Simulating digestion; Antioxidant potential; Anti-inflammatory potential
