Oxygen alters redox cofactor dynamics and induces metabolic shifts in Saccharomyces cerevisiae during alcoholic fermentation

IF 4.5 1区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Food microbiology Pub Date : 2024-08-27 DOI:10.1016/j.fm.2024.104624
James D. Duncan , Hugo Devillers , Carole Camarasa , Mathabatha E. Setati , Benoit Divol
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Abstract

Environmental conditions significantly impact the metabolism of Saccharomyces cerevisiae, a Crabtree-positive yeast that maintains a fermentative metabolism in high-sugar environments even in the presence of oxygen. Although the introduction of oxygen has been reported to induce alterations in yeast metabolism, knowledge of the mechanisms behind these metabolic adaptations in relation to redox cofactor metabolism and their implications in the context of wine fermentation remains limited. This study aimed to compare the intracellular redox cofactor levels, the cofactor ratios, and primary metabolite production in S. cerevisiae under aerobic and anaerobic conditions in synthetic grape juice. The molecular mechanisms underlying these metabolic differences were explored using a transcriptomic approach. Aerobic conditions resulted in an enhanced fermentation rate and biomass yield. Total NADP(H) levels were threefold higher during aerobiosis, while a decline in the total levels of NAD(H) was observed. However, there were stark differences in the ratio of NAD+/NADH between the treatments. Despite few changes in the differential expression of genes involved in redox cofactor metabolism, anaerobiosis resulted in an increased expression of genes involved in lipid biosynthesis pathways, while the presence of oxygen increased the expression of genes associated with thiamine, methionine, and sulfur metabolism. The production of fermentation by-products was linked with differences in the redox metabolism in each treatment. This study provides valuable insights that may help steer the production of metabolites of industrial interest during alcoholic fermentation (including winemaking) by using oxygen as a lever of redox metabolism.

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氧气改变氧化还原辅助因子动力学,诱导酿酒酵母在酒精发酵过程中发生新陈代谢转变
环境条件对酿酒酵母(Saccharomyces cerevisiae)的新陈代谢有很大影响,酿酒酵母是一种克拉布氏阳性酵母,即使在有氧气的情况下也能在高糖环境中保持发酵代谢。尽管有报道称氧气的引入会引起酵母新陈代谢的改变,但人们对这些新陈代谢适应背后与氧化还原辅助因子代谢有关的机制及其对葡萄酒发酵的影响的了解仍然有限。本研究旨在比较有氧和无氧条件下合成葡萄汁中酿酒酵母细胞内氧化还原辅因子的水平、辅因子比率和初级代谢产物的产生。采用转录组学方法探索了这些代谢差异的分子机制。有氧条件提高了发酵速率和生物量产量。在有氧条件下,NADP(H)的总含量增加了三倍,而 NAD(H)的总含量则有所下降。然而,不同处理之间的 NAD+/NADH 比率存在明显差异。尽管参与氧化还原辅助因子代谢的基因表达差异变化不大,但无氧状态导致参与脂质生物合成途径的基因表达增加,而有氧状态则增加了与硫胺素、蛋氨酸和硫代谢有关的基因的表达。发酵副产品的产生与每种处理中氧化还原代谢的差异有关。这项研究提供了宝贵的见解,可能有助于在酒精发酵(包括酿酒)过程中,利用氧气作为氧化还原代谢的杠杆,指导生产工业上感兴趣的代谢物。
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来源期刊
Food microbiology
Food microbiology 工程技术-生物工程与应用微生物
CiteScore
11.30
自引率
3.80%
发文量
179
审稿时长
44 days
期刊介绍: Food Microbiology publishes original research articles, short communications, review papers, letters, news items and book reviews dealing with all aspects of the microbiology of foods. The editors aim to publish manuscripts of the highest quality which are both relevant and applicable to the broad field covered by the journal. Studies must be novel, have a clear connection to food microbiology, and be of general interest to the international community of food microbiologists. The editors make every effort to ensure rapid and fair reviews, resulting in timely publication of accepted manuscripts.
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