化学
色胺
立体中心
吲哚试验
产量(工程)
氨基
立体化学
立体异构
组合化学
分子
有机化学
对映选择合成
催化作用
冶金
生物化学
材料科学
作者
Hsiao‐Ching Lin,Travis C. McMahon,Ashay Patel,Michael A. Corsello,Adam Simon,Wei Xu,Muxun Zhao,K. N. Houk,Neil K. Garg,Yi Tang
摘要
Dimeric indole alkaloids are structurally diverse natural products that have attracted significant attention from the synthetic and biosynthetic communities. Here, we describe the characterization of a P450 monooxygenase CnsC from Penicillium that catalyzes the heterodimeric coupling between two different indole moieties, tryptamine and aurantioclavine, to construct vicinal quaternary stereocenters and yield the heptacyclic communesin scaffold. We show, via biochemical characterization, substrate analogues, and computational methods that CnsC catalyzes the C3-C3′ carbon-carbon bond formation and controls the regioselectivities of the pair of subsequent aminal bond formations to yield the communesin core. Use of ω-N-methyltryptamine and tryptophol in place of tryptamine led to the enzymatic synthesis of isocommunesin compounds, which have not been isolated to date.
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