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氧化应激诱导是提高抗氧化次生代谢产物安络小皮伞素 C 发酵产量的合理策略。

Oxidative Stress Induction Is a Rational Strategy to Enhance the Productivity of Fermentations for the Antioxidant Secondary Metabolite Antrodin C.

机构信息

Department of Biology, College of Science, Shantou University, Shantou 515063, Guangdong, P.R. China.

Key Laboratory of Carbohydrate Chemistry and Biotechnology, School of Biotechnology, Jiangnan University, Wuxi 214122, Jiangsu, P.R. China.

出版信息

J Agric Food Chem. 2020 Apr 1;68(13):3995-4004. doi: 10.1021/acs.jafc.9b07965. Epub 2020 Mar 19.

DOI:10.1021/acs.jafc.9b07965
PMID:32133853
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7351023/
Abstract

Antioxidant metabolites contribute to alleviating oxidative stress caused by reactive oxygen species (ROS) in microorganisms. We utilized oxidative stressors such as hydrogen peroxide supplementation to increase the yield of the bioactive secondary metabolite antioxidant antrodin C in submerged fermentations of the medicinal mushroom . Changes in the superoxide dismutase and catalase activities of the cells indicate that ROS are critical to promote antrodin C biosynthesis, while the ROS production inhibitor diphenyleneiodonium cancels the productivity-enhancing effects of HO. Transcriptomic analysis suggests that key enzymes in the mitochondrial electron transport chain are repressed during oxidative stress, leading to ROS accumulation and triggering the biosynthesis of antioxidants such as antrodin C. Accordingly, rotenone, an inhibitor of the electron transport chain complex I, mimics the antrodin C productivity-enhancing effects of HO. Delineating the steps connecting oxidative stress with increased antrodin C biosynthesis will facilitate the fine-tuning of strategies for rational fermentation process improvement.

摘要

抗氧化代谢物有助于缓解微生物中活性氧 (ROS) 引起的氧化应激。我们利用氧化应激剂,如补充过氧化氢,以增加药用蘑菇深层发酵中生物活性次生代谢物抗氧化剂安特罗宾 C 的产量。细胞中超氧化物歧化酶和过氧化氢酶活性的变化表明 ROS 对促进安特罗宾 C 生物合成至关重要,而 ROS 产生抑制剂二苯并碘onium 则取消了 HO 对生产力的增强作用。转录组分析表明,在线粒体电子传递链中的关键酶在氧化应激期间受到抑制,导致 ROS 积累并触发抗氧化剂如安特罗宾 C 的生物合成。因此,电子传递链复合物 I 的抑制剂鱼藤酮模拟了 HO 对安特罗宾 C 生产力增强的作用。阐明将氧化应激与增加安特罗宾 C 生物合成联系起来的步骤将有助于微调合理发酵过程改进的策略。

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