利用玉米秸秆生产琥珀酸的高应激抗性菌株的诱变育种。

Mutation breeding of high-stress resistant strains for succinic acid production from corn straw.

机构信息

Shanxi Key Laboratory of Chemical Product Engineering, College of Chemical Engineering and Technology, Taiyuan University of Technology, Taiyuan, 030024, China.

Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing, 100084, China.

出版信息

Appl Microbiol Biotechnol. 2024 Apr 1;108(1):278. doi: 10.1007/s00253-024-13112-7.

DOI:10.1007/s00253-024-13112-7

PMID:38558151

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10984890/

Abstract

The production of succinic acid from corn stover is a promising and sustainable route; however, during the pretreatment stage, byproducts such as organic acids, furan-based compounds, and phenolic compounds generated from corn stover inhibit the microbial fermentation process. Selecting strains that are resistant to stress and utilizing nondetoxified corn stover hydrolysate as a feedstock for succinic acid production could be effective. In this study, A. succinogenes CICC11014 was selected as the original strain, and the stress-resistant strain A. succinogenes M4 was obtained by atmospheric and room temperature plasma (ARTP) mutagenesis and further screening. Compared to the original strain, A. succinogenes M4 exhibited a twofold increase in stress resistance and a 113% increase in succinic acid production when hydrolysate was used as the substrate. By conducting whole-genome resequencing of A. succinogenes M4 and comparing it with the original strain, four nonsynonymous gene mutations and two upstream regions with base losses were identified. KEY POINTS: • A high-stress-resistant strain A. succinogenes M4 was obtained by ARTP mutation • The production of succinic acid increased by 113% • The mutated genes of A. succinogenes M4 were detected and analyzed.

摘要

从玉米秸秆生产琥珀酸是一种很有前途且可持续的途径；然而，在预处理阶段，玉米秸秆产生的副产物，如有机酸、呋喃类化合物和酚类化合物，会抑制微生物发酵过程。选择对压力有抗性的菌株，并利用未解毒的玉米秸秆水解物作为琥珀酸生产的原料，可能是有效的。在本研究中，选择 A. succinogenes CICC11014 作为原始菌株，通过大气压室温等离子体（ARTP）诱变和进一步筛选获得了抗应激菌株 A. succinogenes M4。与原始菌株相比，当以水解物为底物时，A. succinogenes M4 的应激抗性提高了两倍，琥珀酸产量提高了 113%。通过对 A. succinogenes M4 进行全基因组重测序，并与原始菌株进行比较，鉴定出了四个非同义基因突变和两个上游区域碱基缺失。要点：• 通过 ARTP 突变获得了高抗应激性的 A. succinogenes M4 菌株• 琥珀酸产量提高了 113%• 检测和分析了 A. succinogenes M4 的突变基因。

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利用玉米秸秆生产琥珀酸的高应激抗性菌株的诱变育种。

Mutation breeding of high-stress resistant strains for succinic acid production from corn straw.

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