细胞色素P450催化三烷基取代芳香族聚酮生物合成中的苯环形成。

Cytochrome P450 Catalyzes Benzene Ring Formation in the Biosynthesis of Trialkyl-Substituted Aromatic Polyketides.

作者信息

Yang Yu Meng, Zhao Er Juan, Wei Wanqing, Xu Zi Fei, Shi Jing, Wu Xuan, Zhang Bo, Igarashi Yasuhiro, Jiao Rui Hua, Liang Yong, Tan Ren Xiang, Ge Hui Ming

机构信息

State Key Laboratory of Pharmaceutical Biotechnology, Institute of Functional Biomolecules, Chemistry and Biomedicine Innovation Center (ChemBIC), School of Life Sciences, Nanjing University, Nanjing, 210023, China.

State Key Laboratory of Coordination Chemistry, Jiangsu Key Laboratory of Advanced Organic Materials, Chemistry and Biomedicine Innovation Centre (ChemBIC), School of Chemistry and Chemical Engineering, Nanjing University, Nanjing, 210023, China.

出版信息

Angew Chem Int Ed Engl. 2023 Jan 26;62(5):e202214026. doi: 10.1002/anie.202214026. Epub 2022 Dec 22.

DOI:10.1002/anie.202214026

PMID:36458944

Abstract

Lorneic acid and related natural products are characterized by a trialkyl-substituted benzene ring. The formation of the aromatic core in the middle of the polyketide chain is unusual. We characterized a cytochrome P450 enzyme that can catalyze the hallmark benzene ring formation from an acyclic polyene substrate through genetic and biochemical analysis. Using this P450 as a beacon for genome mining, we obtained 12 homologous type I polyketide synthase (PKS) gene clusters, among which two gene clusters are activated and able to produce trialkyl-substituted aromatic polyketides. Quantum chemical calculations were performed to elucidate the plausible mechanism for P450-catalyzed benzene ring formation. Our work expands our knowledge of the catalytic diversity of cytochrome P450.

摘要

洛内酸及相关天然产物的特征是具有一个三烷基取代的苯环。在聚酮链中间形成芳香核是不寻常的。我们通过遗传和生化分析鉴定了一种细胞色素P450酶，它可以催化由无环多烯底物形成标志性的苯环。以这种P450作为基因组挖掘的导向，我们获得了12个同源的I型聚酮合酶（PKS）基因簇，其中两个基因簇被激活并能够产生三烷基取代的芳香聚酮。进行了量子化学计算以阐明P450催化苯环形成的可能机制。我们的工作扩展了我们对细胞色素P450催化多样性的认识。

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细胞色素P450催化三烷基取代芳香族聚酮生物合成中的苯环形成。

Cytochrome P450 Catalyzes Benzene Ring Formation in the Biosynthesis of Trialkyl-Substituted Aromatic Polyketides.

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