Chromosomal integration of a synthetic expression control sequence achieves poly‐γ‐glutamate production in a Bacillus subtilis strain |
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| Authors: | Chuan‐Mei Yeh Jyh‐Perng Wang Shih‐Ching Lo Wen‐Chia Chan Ming‐Yi Lin |
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| Affiliation: | Dept. of Food Science and Biotechnology, National Chung‐Hsing University, Taichung, Taiwan, R.O.China |
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| Abstract: | ![]()
Poly‐γ‐glutamate (γ‐PGA) has applications in food, medical, cosmetic, animal feed, and wastewater industries. Bacillus subtilis DB430, which possesses the γ‐PGA synthesis ywsC‐ywtAB genes in its chromosome, cannot produce γ‐PGA. An efficient synthetic expression control sequence (SECS) was introduced into the upstream region of the ywtABC genes, and this resulted in γ‐PGA‐producing B. subtilis mutant strains. Mutant B. subtilis PGA6‐2 stably produces high levels of γ‐PGA in medium A without supplementation of extra glutamic acid or ammonium chloride. The mutant B. subtilis PGA 6‐2 is not only a γ‐PGA producer, but it is also a candidate for the genetic and metabolic engineering of γ‐PGA production. © 2010 American Institute of Chemical Engineers Biotechnol. Prog., 2010 |
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| Keywords: | poly‐γ ‐ glutamate (γ ‐PGA) chromosome integration Bacillus subtilis |
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