Actinomycetes, which can produce a variety of bioactive compounds in the metabolic process, is one of the important sources of novel drugs, enzymes, anti-tumor drugs and enzyme inhibitors. It has been the focus of researchers to find and develop Actinomycetes with special characters. Strain XJ-16 is a blue alkali-resistant filamentous bacterium with high antimicrobial activity isolated from saline-alkali land of Xinjiang. Based on the classification, the enzyme production, metabolite antibacterial activity, and antibacterial substance isolation of XJ-16 were explored. which showed that XJ-16 belongs to the blue group of Streptomyces sp, and it can secrete cellulase, lipase, urease, protease, catalase and oxidase during metabolism. In addition, the bacteriostatic substance secreted by the strain XJ-16 showed inhibitory effects against both Gram-positive and Gram-negative bacteria, as well as the yeast Candida albicans. Then it was found that the bacteriostasis produced by XJ-16 has strong tolerance to acid, weak tolerance to alkali, and easy to be inactivated. After tested by HPLC, the retention time of antimicrobial substance was 13.261 min. This study provides a theoretical basis for the search for new antibacterial compounds and the further development of blue alkaline Actinomycetes XJ-16.
As a concentrated energy source with high added value, hydrogen has great development prospects, with special emphasis on sustainable microbial production as a replacement for traditional fossil fuels. In this study, λ-Red recombination was used to alter the activity of Complex I by single and combined knockout of nuoE, nuoF and nuoG. In addition, the conversion of malic to pyruvic acid was promoted by overexpressing the maeA gene, which could increase the content of NADH and formic acid in the bacterial cells. Compared to the original strain, hydrogen production was 65% higher in the optimized strain IAM1183-EFG/M, in which the flux of the formic acid pathway was increased by 257%, the flux of the NADH pathway was increased by 13%, and the content of metabolites also changed significantly. In further bioreactor, the total hydrogen production of the scale-up IAM1183-EFG/M after 44 h of fermentation was 4.76 L, which increased by 18% compared with the starting strain. This study provides a new direction for future exploration of microbial hydrogen production by combinatorial modification of multiple genes.
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