In order to screen a high-yield spergualin-production strain and an optimal fermentation medium, large numbers of isolates were selected after ultraviolet (UV) mutation and self-tolerant mutation of Bacillus lateros...In order to screen a high-yield spergualin-production strain and an optimal fermentation medium, large numbers of isolates were selected after ultraviolet (UV) mutation and self-tolerant mutation of Bacillus laterosporus A7. A high-yield strain A-94-7 was obtained and the spergualin productivity was 4. 1-fold of the parent strain. The genetic stability of the high-yield strain Bacillus laterosporus A-94-7 was very good. Aider fermentation medium optimization, Bacillus laterosporus A-94-7 was able to produce 380 mg· L^-1 The spergualin productivity in Bacillus laterosporus A7 was increased 4.75-fold by mutation and medium optimization.展开更多
基金Supported by Program for Innovative Research Team of Northeast Agricultural University
文摘In order to screen a high-yield spergualin-production strain and an optimal fermentation medium, large numbers of isolates were selected after ultraviolet (UV) mutation and self-tolerant mutation of Bacillus laterosporus A7. A high-yield strain A-94-7 was obtained and the spergualin productivity was 4. 1-fold of the parent strain. The genetic stability of the high-yield strain Bacillus laterosporus A-94-7 was very good. Aider fermentation medium optimization, Bacillus laterosporus A-94-7 was able to produce 380 mg· L^-1 The spergualin productivity in Bacillus laterosporus A7 was increased 4.75-fold by mutation and medium optimization.
