通过组合过表达 NAD 补救途径酶提高工程化生产异丁醇大肠杆菌对糠醛的耐受性。

Increase in furfural tolerance by combinatorial overexpression of NAD salvage pathway enzymes in engineered isobutanol-producing E. coli.

机构信息

Department of Biological Engineering, College of Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, Republic of Korea.

Department of Biological Engineering, College of Engineering, Konkuk University, 1 Hwayang-dong, Gwangjin-gu, Seoul 143-701, Republic of Korea; Institute for Ubiquitous Information Technology and Applications, Konkuk University, Seoul 143-701, Republic of Korea.

出版信息

Bioresour Technol. 2017 Dec;245(Pt B):1430-1435. doi: 10.1016/j.biortech.2017.05.197. Epub 2017 Jun 1.

DOI:10.1016/j.biortech.2017.05.197

PMID:28629697

Abstract

To reduce the furfural toxicity for biochemical production in E. coli, a new strategy was successfully applied by supplying NAD(P)H through the nicotine amide salvage pathway. To alleviate the toxicity, nicotinamide salvage pathway genes were overexpressed in recombinant, isobutanol-producing E. coli. Gene expression of pncB and nadE respectively showed increased tolerance to furfural among these pathways. The combined expression of pncB and nadE was the most effective in increasing the tolerance of the cells to toxic aldehydes. By comparing noxE- and fdh-harbouring strains, the form of NADH, rather than NAD, was the major effector of furfural tolerance. Overall, this study is the application of the salvage pathway to isobutanol production in the presence of furfural, and this system seems to be applicable to alleviate furfural toxicity in the production of other biochemical.

摘要

为了降低糠醛对大肠杆菌生化生产的毒性，通过烟酰胺补救途径提供 NAD(P)H，成功地应用了一种新策略。为了减轻毒性，在重组产异丁醇大肠杆菌中过表达了烟酰胺补救途径基因。在这些途径中，pncB 和 nadE 的基因表达分别表现出对糠醛更高的耐受性。pncB 和 nadE 的联合表达在提高细胞对有毒醛的耐受性方面最为有效。通过比较不含有noxE 和 fdh 的菌株，NADH 的形式，而不是 NAD，是糠醛耐受性的主要效应物。总的来说，本研究是将补救途径应用于糠醛存在下的异丁醇生产，并且该系统似乎适用于减轻其他生物化学物质生产中糠醛的毒性。

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通过组合过表达 NAD 补救途径酶提高工程化生产异丁醇大肠杆菌对糠醛的耐受性。

Increase in furfural tolerance by combinatorial overexpression of NAD salvage pathway enzymes in engineered isobutanol-producing E. coli.

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