通过破坏细胞色素复合体 I 外周片段和过表达 maeA 提高 Aerogenes 肠杆菌产氢量。

Optimization of hydrogen production in Enterobacter aerogenes by Complex I peripheral fragments destruction and maeA overexpression.

机构信息

Zhejiang Province Key Laboratory of Plant Secondary Metabolism and Regulation, College of Life Sciences and Medicine, Zhejiang Sci-Tech University, Hangzhou, 310018, China.

Shenyang Functional Cordyceps militaris Industrial Technology Research Institute, Shenyang, 110034, China.

出版信息

Microb Cell Fact. 2023 Jul 26;22(1):137. doi: 10.1186/s12934-023-02155-6.

DOI:10.1186/s12934-023-02155-6

PMID:37496040

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10373349/

Abstract

As a concentrated energy source with high added value, hydrogen has great development prospects, with special emphasis on sustainable microbial production as a replacement for traditional fossil fuels. In this study, λ-Red recombination was used to alter the activity of Complex I by single and combined knockout of nuoE, nuoF and nuoG. In addition, the conversion of malic to pyruvic acid was promoted by overexpressing the maeA gene, which could increase the content of NADH and formic acid in the bacterial cells. Compared to the original strain, hydrogen production was 65% higher in the optimized strain IAM1183-EFG/M, in which the flux of the formic acid pathway was increased by 257%, the flux of the NADH pathway was increased by 13%, and the content of metabolites also changed significantly. In further bioreactor, the total hydrogen production of the scale-up IAM1183-EFG/M after 44 h of fermentation was 4.76 L, which increased by 18% compared with the starting strain. This study provides a new direction for future exploration of microbial hydrogen production by combinatorial modification of multiple genes.

摘要

作为一种具有高附加值的浓缩能源，氢气具有广阔的发展前景，特别强调可持续微生物生产作为传统化石燃料的替代品。在这项研究中，利用 λ-Red 重组技术通过 nuoE、nuoF 和 nuoG 的单基因敲除和双基因敲除来改变复合物 I 的活性。此外，通过过表达 maeA 基因促进了苹果酸向丙酮酸的转化，这可以增加细菌细胞中 NADH 和甲酸的含量。与原始菌株相比，优化后的菌株 IAM1183-EFG/M 的氢气产量提高了 65%，其中甲酸途径的通量增加了 257%，NADH 途径的通量增加了 13%，代谢物的含量也发生了显著变化。在进一步的生物反应器中，经过 44 小时发酵后，放大的 IAM1183-EFG/M 的总氢气产量为 4.76 L，与起始菌株相比增加了 18%。这项研究为未来通过组合修饰多个基因探索微生物产氢提供了新的方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6cb8/10373349/8f1a7067350d/12934_2023_2155_Fig1_HTML.jpg

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通过破坏细胞色素复合体 I 外周片段和过表达 maeA 提高 Aerogenes 肠杆菌产氢量。

Optimization of hydrogen production in Enterobacter aerogenes by Complex I peripheral fragments destruction and maeA overexpression.

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