通过元基因组分析狐尾粟面团发酵过程中细菌群落的动态和功能

IF 5.2 Q1 FOOD SCIENCE & TECHNOLOGY Journal of Future Foods Pub Date : 2023-12-14 DOI:10.1016/j.jfutfo.2023.11.006
Junli Liu, Wei Zhao, Aixia Zhang, Pengliang Li, Jingke Liu
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引用次数: 0

摘要

酸面团的风味与微生物代谢密切相关。有关发酵过程中狐尾小米面团微生物多样性的研究还从未有过。本文通过元基因组分析了面团发酵过程中细菌群落的代谢潜力和多样性。面团中最主要的菌门是固着菌门,其中以异发酵乳酸菌(如伴乳酸菌、低乳酸菌、乳酸球菌和乳酸杆菌)的数量最多。蛋白菌在发酵后逐渐受到抑制。在面团发酵过程中,明显发现了大量的乳酸菌(Companilactobacillus_crustorum)。在发酵过程中,Limosilactobacillus_fermentum 明显增加,而 Companilactobacillus_crustorum 则明显减少。为了进一步探索,通过元基因组学对与新陈代谢相关的基因进行了注释。嗜酸乳杆菌(Limosilactobacillus)、伴孢乳杆菌(Companilactobacillus)和木薯球菌(Pediococcus)积极参与糖酵解(ko00010)、淀粉和蔗糖代谢(ko00500)以及丙酮酸代谢(ko00620),在一定程度上导致了乳酸和乙酸的积累以及面团酸化。柠檬乳杆菌(Limosilactobacillus)和乳普兰巴氏杆菌(Lactiplantibacillus)是参与氨基酸代谢的关键氨肽酶或/和转氨酶的主要贡献者,而氨基酸代谢是风味代谢物形成的原因。这项研究将有助于进一步了解面团细菌群落的优势和多样性,并有助于今后在面团中筛选菌株,以获得更好的风味。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Dynamics and functionalities of bacterial community during foxtail millet dough fermentation by metagenomic analysis

Sourdough flavors were closely related to microbial metabolism. The microbial diversity of foxtail millet dough during fermentation has never been studied. Here, the metabolic potential and diversity of the bacterial community were analyzed by metagenomic during dough fermentation. Firmicutes was the dominant phylum in the dough, within heterofermentative lactic acid bacteria (e.g., Companilactobacillus, Limosilactobacillus, Pediococcus and Lactobacillus) as the most abundant bacteria. Proteobacteria was gradually inhibited after fermentation. Companilactobacillus_crustorum was notably found abundant during dough leavening. Limosilactobacillus_fermentum increased markedly during fermentation, while Companilactobacillus_crustorum decreased significantly. For further exploration, genes associated with metabolism were annotated through metagenomics. Limosilactobacillus, Companilactobacillus and Pediococcus were actively engaged in glycolysis (ko00010), starch and sucrose metabolism (ko00500), and pyruvate metabolism (ko00620), leading in part to lactic and acetic acid accumulations and dough acidification. Limosilactobacillus and Lactiplantibacillus were the main contributors to key aminopeptidases or/and transaminases involved in amino acid metabolism, which was responsible for flavor metabolite formation. This study will provide an enhanced understanding of the predominance and diversity of dough bacterial communities, and contribute to future strain screening in the dough for better flavor.

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