细胞色素P450
羟基化
单加氧酶
化学
酶
蛋白质工程
血红素
生物化学
类固醇
生物催化
合理设计
区域选择性
定向进化
代谢工程
血红素蛋白
细胞色素P450还原酶
细胞色素
立体化学
合成生物学
蛋白质设计
化学选择性
辅因子
作者
Tao Tang,Rui Wang,Yuehua Chen
标识
DOI:10.1038/s41467-026-69211-8
摘要
Selective activation of steroid skeletons is crucial for the generation of pharmaceutically valuable compounds. Despite the success of engineering cytochrome P450 enzymes as peroxygenases to utilize cost-effective H2O2, their applications are limited due to poor H2O2 tolerance. Here, we report a cytochrome P450 enzyme, namely P450stri, from Streptomyces triculaminicus and its engineering as a peroxygenase with strong H2O2 tolerance for regioselective hydroxylation of steroids. We find that a conserved Phe above heme cluster predominantly determines the performance of peroxygenase activity and regioselectivity. Additionally, we reconstruct P450stri by two-dimensional engineering approach based on a Round Flask model to simultaneously increase selectivity and activity, yielding in the most effective 15β steroid hydroxylase variant using H2O2 as co-substrate. Moreover, we further transform the beneficial variants to corresponding residues in the members of "P450stri branch", converting several P450 monooxygenases to peroxygenases with improved activity and selectivity. The present study provides insights into rational switch of enzymatic function, thus shedding a light on P450 enzymes on their biocatalytic applications.
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