Indigo, as a water-soluble non-azo colorant, is widely used in textile, food, pharmaceutical and other industrial fields. Currently, indigo is primarily synthesized by chemical methods, which causes environmental pollution, potential safety hazards, and other issues. Therefore, there is an urgent need to find a safer and greener synthetic method. In this study, a dual-enzyme cascade pathway was constructed with the tryptophan synthase (tryptophanase, EcTnaA) from Escherichia coli and flavin-dependent monooxygenase (flavin-dependent monooxygenase, MaFMO) from Methylophaga aminisulfidivorans to synthesize indigo with L-tryptophan as substrate. A recombinant strain EM-IND01 was obtained. The beneficial mutant MaFMOD197E was obtained by protein engineering of the rate-limiting enzyme MaFMO. MaFMOD197E showed the specific activity and kcat/Km value 2.36 times and 1.34 times higher than that of the wild type, respectively. Furthermore, MaFMOD197E was introduced into the strain EM-IND01 to construct the strain EM-IND02. After the fermentation conditions were optimized, the strain achieved the indigo titer of (1 288.59±7.50) mg/L, the yield of 0.86 mg/mg L-tryptophan, and the productivity of 26.85 mg/(L·h) in a 5 L fermenter. Protein engineering was used to obtain mutants with increased MaFMO activity in this study, which laid a foundation for industrial production of indigo.
罗诗琪,魏婉清,吴静,宋伟,胡贵鹏,刘立明. 双酶级联催化L-色氨酸合成靛蓝[J]. Chinese Journal of Biotechnology, 2024, 40(8): 2444-2456
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