多组学分析揭示了酿酒酵母和植物乳杆菌在酸鱼（中国传统发酵鱼）中的微生物相互作用。

Multi-omics analysis reveals the microbial interactions of S. cerevisiae and L. plantarum on Suanyu, Chinese traditional fermented fish.

机构信息

College of Life Sciences, Guizhou University, Guiyang, China; Guizhou Provincial Key Laboratory of Agricultural and Animal Products Storage and Processing, Guiyang, China.

School of Liquor and Food Engineering, Guizhou University, Guiyang, China; Guizhou Provincial Key Laboratory of Agricultural and Animal Products Storage and Processing, Guiyang, China.

出版信息

Food Res Int. 2023 Dec;174(Pt 1):113525. doi: 10.1016/j.foodres.2023.113525. Epub 2023 Sep 27.

DOI:10.1016/j.foodres.2023.113525

PMID:37986426

Abstract

S. cerevisiae and L. plantarum play important roles in Suanyu fermentation. This study investigated the interaction between S. cerevisiae and L. plantarum during fermentation and its impact on metabolic pathways. Co-culturing S. cerevisiae and L. plantarum increased pH to 5.72, reduced TVB-N to 9.47 mg/mL, and achieved high utilization rates of sugars (98.9%) and proteins (73.7%). During microbial interactions, S. cerevisiae and L. plantarum produced antibiotics, including phenyllactate and Gentamicin C1a, inhibiting the growth of each other. S. cerevisiae used S-adenosyl-l-methionine to counteract acid production of L. plantarum, establishing dominance in Suanyu fermentation. Microbial interactions influenced carbohydrate and energy metabolism pathways, such as nicotinate and nicotinamide metabolism and purine metabolism. S. cerevisiae significantly impacted gene expression in protein synthesis and cell growth pathways, including ribosome, SNARE interactions, basal transcription factors, and MAPK signaling. These findings offer insights into microbial interactions and metabolic processes during Suanyu fermentation.

摘要

酿酒酵母和植物乳杆菌在酸菜发酵中起着重要作用。本研究探讨了发酵过程中酿酒酵母和植物乳杆菌之间的相互作用及其对代谢途径的影响。共培养酿酒酵母和植物乳杆菌将 pH 值提高到 5.72，将 TVB-N 降低到 9.47mg/mL，并实现了糖（98.9%）和蛋白质（73.7%）的高利用率。在微生物相互作用过程中，酿酒酵母和植物乳杆菌产生了抗生素，包括苯乳酸和庆大霉素 C1a，抑制了彼此的生长。酿酒酵母利用 S-腺苷甲硫氨酸来抵消植物乳杆菌的产酸，从而在酸菜发酵中占据优势地位。微生物相互作用影响了碳水化合物和能量代谢途径，如烟酸和烟酰胺代谢和嘌呤代谢。酿酒酵母显著影响了蛋白质合成和细胞生长途径中的基因表达，包括核糖体、SNARE 相互作用、基础转录因子和 MAPK 信号转导。这些发现为酸菜发酵过程中的微生物相互作用和代谢过程提供了新的见解。

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多组学分析揭示了酿酒酵母和植物乳杆菌在酸鱼（中国传统发酵鱼）中的微生物相互作用。

Multi-omics analysis reveals the microbial interactions of S. cerevisiae and L. plantarum on Suanyu, Chinese traditional fermented fish.

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