Litcius/Paper detail

A Bottom-Up Approach To Develop a Synthetic Microbial Community Model: Application for Efficient Reduced-Salt Broad Bean Paste Fermentation

Yun Jia, Cheng-Tuo Niu, Zhen-Ming Lu, Xiao-Juan Zhang, Li-Juan Chai, Jin‐Song Shi, Zheng-Hong Xu, Qi Li

2020Applied and Environmental Microbiology119 citationsDOIOpen Access PDF

Abstract

Humans have mastered high-salinity fermentation techniques for bean-based fermented product preparation over thousands of years. High salinity was used to select the functional microbiota and conducted food fermentation production with unique flavor. Although a high-salinity environment is beneficial for suppressing harmful microbes in the open fermentation environment, the fermentation efficiency of functional microbes is partially inhibited. Therefore, application of defined starter cultures for reduced-salt fermentation in a sterile environment is an alternative approach to improve the fermentation efficiency of bean-based fermented foods and guide the transformation of traditional industry. However, the assembly and function of self-organized microbiota in an open fermentation environment are still unclear. This study provides a comprehensive understanding of microbial function and the mechanism of community succession in a high-salinity environment during the fermentation of broad bean paste so as to reconstruct the microbial community and realize efficient fermentation of broad bean paste in a sterile environment.

Topics & Concepts

FermentationStarterSalinityMicrobial population biologyFood scienceBiologyBiotechnologyBiochemical engineeringBacteriaEcologyEngineeringGeneticsProbiotics and Fermented FoodsGut microbiota and healthFood composition and properties