仿生合成
化学
氧化脱羧
脱羧
天然产物
仿生材料
立体化学
结构母题
氧化磷酸化
组合化学
生物合成
会聚合成
收敛演化
电泳剂
发散合成
化学合成
生物进化
全合成
生物化学
生物
作者
Jacob D. Hart,Jay K. Lawrence,Peter N. Franqui,Douglas R. Perrott,Bin Yi,Yaguang Xi,Christopher J. Sumby,Christopher G. Newton,Jonathan H. George
标识
DOI:10.26434/chemrxiv.15001574/v1
摘要
Structurally similar natural products arising in phylogenetically distant organisms may reflect convergent evolutionary pressure toward privileged biological scaffolds. The marine sponge-derived halenaquinone meroterpenoids exemplify this phenomenon, sharing a highly electrophilic and strained diketofuran motif with both the viridin/wortmannin and hibiscone families of natural products. Guided by biosynthetic reasoning, we report herein a biomimetic route to the halenaquinone family. Central to the strategy is an aryne–furan Diels–Alder reaction that rapidly constructs the tetracyclic carbon framework, together with oxidative decarboxylation of a diosphenol intermediate followed by divergent late-stage oxidative cyclizations to furnish either xestoquinone or halenaquinone. This platform enabled the synthesis of seven natural products, three structural revisions, and the discovery of potent cytotoxic activity for several family members.
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