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Examining the impact of <i>Tetragenococcus halophilus</i> , <i>Zygosaccharomyces rouxii</i> , and <i>Starmerella etchellsii</i> on the quality of soy sauce: a comprehensive review of microbial population dynamics in fermentation

Qifeng Wang, Rongrong Cui, Xueli Liu, Xuelian Zheng, Yunping Yao, Guozhong Zhao

2023Critical Reviews in Food Science and Nutrition21 citationsDOI

Abstract

Soy sauce is a popular fermented seasoning due to its distinct flavor and rich umami taste. Its traditional production involves two stages: solid-state fermentation and moromi (brine fermentation). During moromi, the dominant microbial population in the soy sauce mash changes, which is called microbial succession and is essential for the formation of soy sauce flavor compounds. Research has identified the sequence of succession, starting with Tetragenococcus halophilus, then Zygosaccharomyces rouxii, and lastly, Starmerella etchellsii. Factors such as the environment, microbial diversity, and interspecies relationships drive this process. Salt and ethanol tolerance influence microbial survival, while nutrients in the soy sauce mash support the cells in resisting external stress. Different microbial strains have varying abilities to survive and respond to external factors during fermentation, which impacts soy sauce quality. In this review, we would examine the factors behind the succession of common microbial populations in the soy sauce mash and explore how microbial succession affects soy sauce quality. The insights gained can help better manage the dynamic changes in microbes during fermentation, leading to improved production efficiency.

Topics & Concepts

Food scienceFermentationPopulationMicrobiologyBiologyChemistryBiotechnologyMedicineEnvironmental healthFermentation and Sensory AnalysisProbiotics and Fermented FoodsPolyamine Metabolism and Applications
Examining the impact of <i>Tetragenococcus halophilus</i> , <i>Zygosaccharomyces rouxii</i> , and <i>Starmerella etchellsii</i> on the quality of soy sauce: a comprehensive review of microbial population dynamics in fermentation | Litcius