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Literature DB >> 20564357

Chromosomal integration of a synthetic expression control sequence achieves poly-gamma-glutamate production in a Bacillus subtilis strain.

Chuan-Mei Yeh¹, Jyh-Perng Wang, Shih-Ching Lo, Wen-Chia Chan, Ming-Yi Lin.

Abstract

Poly-gamma-glutamate (gamma-PGA) has applications in food, medical, cosmetic, animal feed, and wastewater industries. Bacillus subtilis DB430, which possesses the gamma-PGA synthesis ywsC-ywtAB genes in its chromosome, cannot produce gamma-PGA. An efficient synthetic expression control sequence (SECS) was introduced into the upstream region of the ywtABC genes, and this resulted in gamma-PGA-producing B. subtilis mutant strains. Mutant B. subtilis PGA6-2 stably produces high levels of gamma-PGA in medium A without supplementation of extra glutamic acid or ammonium chloride. The mutant B. subtilis PGA 6-2 is not only a gamma-PGA producer, but it is also a candidate for the genetic and metabolic engineering of gamma-PGA production. (c) 2010 American Institute of Chemical Engineers

Entities: Chemical Species

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Year: 2010 PMID： 20564357 DOI： 10.1002/btpr.417

Source DB: PubMed Journal: Biotechnol Prog ISSN： 1520-6033

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Cited

7 in total

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Authors: Zheng Zhang; Penghui He; Dongbo Cai; Shouwen Chen
Journal: World J Microbiol Biotechnol Date: 2022-08-28 Impact factor: 4.253

3. Mutations in genes encoding antibiotic substances increase the synthesis of poly-γ-glutamic acid in Bacillus amyloliquefaciens LL3.

Authors: Weixia Gao; Fenghong Liu; Wei Zhang; Yufen Quan; Yulei Dang; Jun Feng; Yanyan Gu; Shufang Wang; Cunjiang Song; Chao Yang
Journal: Microbiologyopen Date: 2016-08-18 Impact factor: 3.139

Chromosomal integration of a synthetic expression control sequence achieves poly-gamma-glutamate production in a Bacillus subtilis strain.

1. Biomedical Applications of Biodegradable Polymers.

Review 2. Genetic and metabolic engineering for poly-γ-glutamic acid production: current progress, challenges, and prospects.

3. Mutations in genes encoding antibiotic substances increase the synthesis of poly-γ-glutamic acid in Bacillus amyloliquefaciens LL3.

4. Metabolic engineering of Bacillus amyloliquefaciens LL3 for enhanced poly-γ-glutamic acid synthesis.

5. Study on the mechanism of production of γ-PGA and nattokinase in Bacillus subtilis natto based on RNA-seq analysis.

Review 6. Recent Advances in Microbial Synthesis of Poly-γ-Glutamic Acid: A Review.

7. Cloning and Expression of the γ-Polyglutamic Acid Synthetase Gene pgsBCA in Bacillus subtilis WB600.