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- Title
Metabolic engineering of Escherichia coli for efficient production of l-arginine.
- Authors
Wang, Hai-De; Xu, Jian-Zhong; Zhang, Wei-Guo
- Abstract
As an important semi-essential amino acid, l-arginine (l-Arg) has important application prospects in medicine and health care. However, it remains a challenge to efficiently produce l-Arg by Escherichia coli (E. coli). In the present study, we obtained an E. coli A1 with l-Arg accumulation ability, and carried out a series of metabolic engineering on it, and finally obtained an E. coli strain A7 with high l-Arg production ability. First, genome analysis of strain A1 was performed to explore the related genes affecting l-Arg accumulation. We found that gene speC and gene speF played an important role in the accumulation of l-Arg. Second, we used two strategies to solve the feedback inhibition of the l-Arg pathway in E. coli. One was the combination of a mutation of the gene argA and the deletion of the gene argR, and the other was the combination of a heterologous insertion of the gene argJ and the deletion of the gene argR. The combination of exogenous argJ gene insertion and argR gene deletion achieved higher titer accumulation with less impact on strain growth. Finally, we inserted the gene cluster argCJBDF of Corynebacterium glutamicum (C. glutamicum) to enhance the metabolic flux of the l-Arg pathway in E. coli. The final strain obtained 70.1 g/L l-Arg in a 5-L bioreactor, with a yield of 0.326 g/g glucose and a productivity of 1.17 g/(L· h). This was the highest level of l-Arg production by E. coli ever reported. Collectively, our findings provided valuable insights into the possibility of the industrial production of l-Arg by E. coli. Key points: • Genetic background of E. coli A1 genome analysis. • Heterologous argJ substitution of argA mutation promoted excessive accumulation of L-Arg in E. coli A1. • The overexpression of L-Arg synthesis gene cluster argCJBDF of Corynebacterium glutamicum (C. glutamate) promoted the accumulation of L-Arg, and 70.1 g/L L-Arg was finally obtained in fed-batch fermentation.
- Subjects
ESCHERICHIA coli; ARGININE; DELETION mutation; CORYNEBACTERIUM glutamicum; GENE clusters; GENETIC mutation
- Publication
Applied Microbiology & Biotechnology, 2022, Vol 106, Issue 17, p5603
- ISSN
0175-7598
- Publication type
Article
- DOI
10.1007/s00253-022-12109-4