Deciphering the underlying core microorganisms and the marker compounds of Liupao tea during the pile‐fermentation process

微生物 发酵 食品科学 生物 细菌 化学 微生物学 生物化学 遗传学
作者
Jincen Pan,Jie Wang,Jianwen Teng,Li Huang,Baoyao Wei,Ning Xia,Pingchuan Zhu
出处
期刊:Journal of the Science of Food and Agriculture [Wiley]
卷期号:104 (5): 2862-2875 被引量:7
标识
DOI:10.1002/jsfa.13177
摘要

Abstract BACKGROUND Pile fermentation is one of the key steps in developing the Liupao tea (LBT) quality and unique characteristics. The complex biochemical profile of LBT results from microorganisms present during the pile‐fermentation process. However, the critical underlying microorganisms and the marker compounds still need to be determined. RESULTS Staphylococcus , Brevibacterium , Kocuria , Aspergillus , and Blastobotrys were the common dominant microorganisms at the end of the pile fermentation of LBT. Staphylococcus , Aspergillus , Blastobotrys , and nine other genera carried by raw tea are the core microorganisms in the LBT during pile fermentation. A total of 29 critical compounds contributed to the metabolic changes caused by the processing of LBT. Of these, gallic acid, adenine, hypoxanthine, uridine, betaine, 3,4‐dihydroxybenzaldehyde, and α ‐linolenic acid could be characterized as potential marker compounds. Correlation analysis showed that the core microorganisms, including Sphingomonas , Staphylococcus , Kocuria , Aureobasidium , Blastobotrys , Debaryomyce , and Trichomonascus , were closely related to major chemical components and differential compounds. Moreover, the mutually promoting Staphylococcus , Kocuria , Blastobotrys , and Trichomonascus were correlated with the enrichment of marker compounds. Integrated molecular networking and metabolic pathways revealed relevant compounds and enzymes that possibly affect the enrichment of marker compounds. CONCLUSION This study analyzed the LBT fermentation samples by omics analysis to reveal the stable microbial community structure, critical microorganisms, and markers compounds affecting the quality of LBT, which contributes to a better understanding of pile fermentation of LBT and the fermentation theory of dark tea. © 2023 Society of Chemical Industry.
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