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Abstract
Fusicoccane diterpenoids display intriguing biological activities, including the ability to act as molecular glue modulators of 14-3-3 protein–protein interaction. However, their innate structural complexity and diverse oxygenation patterns present enormous synthetic challenges. Here, a modular chemoenzymatic approach to this natural product family that combines de novo skeletal construction and late-stage hybrid C–H oxidations is presented. A convergent fragment coupling strategy allowed rapid access to a key tricyclic intermediate, which was subjected to chemical and enzymatic C–H oxidations to modularly prepare five oxidized family members. Complementarily, a biomimetic skeletal remodeling was conceived to render five rearranged fusicoccanes with unusual bridgehead double bonds synthetically accessible for the first time.
Supplementary materials
Title
Materials and Methods
Description
Synthesis and molecular biology procedures
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