X-Y Liao1, W Shen, J Chen, Y Li, G-C Du. 1. Key Laboratory of Industrial Biotechnology, Ministry of Education, Southern Yangtze University, Wuxi, China.
Abstract
AIMS: To improve glutathione (GSH) production in Escherichia coli by different genetic constructions containing GSH genes. METHODS AND RESULTS: GSH production was very low in E. coli by the expression of gshI gene. An increase of GSH production was achieved by the expression of both gshI and gshII genes in E. coli. A higher GSH production, namely 34.8 mg g(-1) wet cell weight, was obtained by simultaneous expression of two copies of gshI gene and one copy of gshII gene. CONCLUSIONS: The simultaneous expression of two copies of gshI gene and one copy of gshII gene resulted in a significant increase in GSH production. SIGNIFICANCE AND IMPACT OF THE STUDY: The expression strategy for GSH production described here can be used to increase gene expression and obtain high production rates in other multienzyme reaction systems.
AIMS: To improve glutathione (GSH) production in Escherichia coli by different genetic constructions containing GSH genes. METHODS AND RESULTS:GSH production was very low in E. coli by the expression of gshI gene. An increase of GSH production was achieved by the expression of both gshI and gshII genes in E. coli. A higher GSH production, namely 34.8 mg g(-1) wet cell weight, was obtained by simultaneous expression of two copies of gshI gene and one copy of gshII gene. CONCLUSIONS: The simultaneous expression of two copies of gshI gene and one copy of gshII gene resulted in a significant increase in GSH production. SIGNIFICANCE AND IMPACT OF THE STUDY: The expression strategy for GSH production described here can be used to increase gene expression and obtain high production rates in other multienzyme reaction systems.