Whole-cell transformation for the synthesis of tyrosine by a multi-enzyme cascade.
- Author:
Fei YANG
1
;
Yue WANG
1
;
Xuanping SHI
1
;
Jiajia YOU
1
;
Minglong SHAO
1
;
Meijuan XU
1
;
Zhiming RAO
1
Author Information
- Publication Type:Journal Article
- Keywords: L-tyrosine; multi-enzyme cascade transformation; protein engineering; whole-cell catalysis
- MeSH: Tyrosine/biosynthesis*; Escherichia coli/metabolism*; Tyrosine Phenol-Lyase/genetics*; Multienzyme Complexes/metabolism*; Fermentation
- From: Chinese Journal of Biotechnology 2025;41(9):3537-3552
- CountryChina
- Language:Chinese
- Abstract: L-tyrosine is one of the 20 amino acids that make up proteins and is an essential amino acid for mammals, often used as a nutritional supplement. The conventional methods for synthesizing L-tyrosine have some problems such as the production of many by-products, high requirements for production conditions, and environmental pollution. In this study, we designed and constructed a multi-enzyme cascade for the synthesis of L-tyrosine with alanine, glutamate, ammonium chloride, and phenol as substrates. Initially, the sources of glutamate oxidase, alanine aminotransferase, and tyrosine phenol lyase were screened and analyzed, which was followed by the identification of the rate-limiting enzyme in the reaction process. A colorimetric screening method was established, and the rate-limiting enzyme DbAlaA was engineered to enhance its activity by 40.0%. Subsequently, the reaction conditions, including temperature, pH, cell concentration, and surfactant and coenzyme dosages, were optimized. After optimization, the yield of L-tyrosine reached 9.93 g/L, with a alanine conversion rate of 54.90%. Finally, a feed-batch fermentation strategy was adopted, and the yield of L-tyrosine reached 56.07 g/L after 24 h, with a alanine conversion rate of 65.22%. This study provides a reference for the whole-cell catalytic synthesis of L-tyrosine and its industrialization.
