What question did this study set out to answer?

This work aims to develop a programmed oxidation strategy for synthesizing complex terpenes efficiently.

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March 28, 2026

Programmed Oxidation-Guided Divergent Total Syntheses of (±)-Anisatin, (±)-Neoanisatin, (±)-Majusanols A and B

Key Points

This work aims to develop a programmed oxidation strategy for synthesizing complex terpenes efficiently.
Established a programmed oxidation approach for terpene synthesis
Achieved total syntheses of neoanisatin, majusanol A, and majusanol B
Shortened the synthesis route for anisatin significantly
First total syntheses achieved in 20 steps for neoanisatin and 18-19 steps for majusanols A and B
Reduced synthesis steps for anisatin from 40-43 to 20
Provided a generalizable principle for synthesizing various oxidized molecules

Abstract

The synthesis of complex, highly oxidized terpenes remains a central challenge, particularly when oxidation state dictates skeletal architecture. We establish a programmed oxidation strategy that prioritizes oxygen installation by its role in skeletal construction. This logic enabled the first total syntheses of neoanisatin (20 steps), majusanol A (18 steps), and majusanol B (19 steps), and delivered a significantly shorter route to anisatin (20 steps vs prior 40- and 43-step syntheses). Our work provides a generalizable design principle for the efficient and divergent synthesis of skeletally diverse, densely oxidized molecules.

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Cite This Study

Huang et al. (Thu,) studied this question.

synapsesocial.com/papers/69c771f08bbfbc51511e2174 https://doi.org/https://doi.org/10.1021/jacs.6c02820

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