生物合成
工业发酵
代谢工程
产量(工程)
发酵
氧化磷酸化
化学
生物化学
生物反应器
甲醇
漆酶
代谢途径
酶
合成生物学
ATP合酶
拉伤
工业生物技术
生化工程
乙酰丙酸
聚合
生物
纤维素
生物过程
生物燃料
乙醇氧化酶
单体
作者
Xiangyu Zhu,Jiawen Lin,Shuli Liang,Chenyi Qiu,Yuchen Jiang,Hengrui Liu,Kun Yan Zhu,Qi Wang,Chenfeng Du,Yonghao Li,Yuanhui Mao,Huanbin Zheng,Chengan Liu,Yeyao Zhao,Meirong An,Ye Wu,Jun Liu,Xinying Zhang,Ying Lin
标识
DOI:10.1038/s41467-026-70512-1
摘要
Pyomelanin has been extensively applied in various fields. However, the yield of pyomelanin isolated from natural producers is low. Engineering microbial biosynthesis is considered a sustainable and economically feasible alternative. We utilize engineered Komagataella phaffii to increase the yield of homogentisic acid by 66-fold by balancing three different biosynthetic modules and further synthesizing pyomelanin by oxidative polymerization. During this process, we establish a pyomelanin color screening system and apply this system to perform directed evolution of 3-deoxy-D-arabinoheptulosonate 7-phosphate synthase and semirational design modification of hydroxyphenylpyruvate dioxygenase. We report the difference of pyomelanin between oxidative polymerization under alkaline conditions and that under laccase treatment. After high-density fermentation in a 5-L fermenter for 204 h, strain Pyo29 achieve the highest titer (70.5 ± 0.7 g/L). Finally, we demonstrate the potential application value of pyomelanin. This study provides a feasible solution for high-yield pyomelanin biosynthesis with substantial industrial production. Pyomelanin is resistant to UV light, and has antibacterial and anti-inflammatory effects, however, the yield of pyomelanin isolated from natural producers is low. Here the authors engineer Komagataella phaffii to produce 70.5 g/L and isolate the product.
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