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

Jing Wu, Yilian Li, Jinbao Yin, Chen Wang, Xuejin Qi, Yujie Zhou, Hongjuan Liu, Pengfei Wu, Jianan Zhang

2024Applied Microbiology and Biotechnology13 citationsDOIOpen Access PDF

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.

Topics & Concepts

Corn stoverSuccinic acidFood scienceFermentationStrain (injury)ChemistryStoverBiochemistryHydrolysateStrawBiologyAgronomyCropInorganic chemistryHydrolysisAnatomyMicrobial Metabolic Engineering and BioproductionBiofuel production and bioconversionFungal and yeast genetics research
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