化学
生物合成
聚酮
聚酮合酶
酶
细胞色素P450
生物化学
异源的
立体化学
还原酶
基因簇
ATP合酶
衍生工具(金融)
细胞色素
异源表达
基因
组合化学
区域选择性
生物催化
细胞色素P450还原酶
氨基水解酶
血红素
作者
Wei Lin,Yang-Le Gao,Kai Sang,Songtao Wang,Jianbin Xiao,Haoyu Yu,X. Chen,Chao Chen,Fan Cai,Mingliang Zhang,Man‐Cheng Tang,Li Li
出处
期刊:Organic Letters
[American Chemical Society]
日期:2025-12-03
卷期号:27 (49): 13661-13666
被引量:1
标识
DOI:10.1021/acs.orglett.5c04685
摘要
Through genome mining and heterologous expression, a fungal highly reducing polyketide synthase with a fused C -terminal reductase domain (HRPKS-R) encoding gene cluster, the myr cluster, was demonstrated to be responsible for the production of myroverols with antitumor activity. The biosynthesis of myroverols includes the generation of a decalin intermediate by an HRPKS-R enzyme and its partner enoyl reductase, and this intermediate can be converted into two different types of products depending on whether it is reduced to an alcohol. Without reduction, this intermediate can be further oxidized and cyclized to a phenalenone derivative by the cytochrome P450 MyrE. With reduction catalyzed by a short chain dehydrogenase/reductase MyrC, this intermediate can be further converted into a carboxylated decalin derivative by the same P450 MyrE. Our study unraveled a novel biosynthetic route to construct phenalenone derivatives and expand the chemical space of natural products derived from fungal HRPKS-R biosynthetic pathways.
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