What question did this study set out to answer?

This research aims to achieve the total synthesis of roseochelins A and B through a new oxidative strategy.

March 25, 2026

Total Syntheses of Roseochelins A and B Using an Oxidative Decarboxylation Strategy

Key Points

This research aims to achieve the total synthesis of roseochelins A and B through a new oxidative strategy.
Conducted total syntheses of roseochelins A and B
Utilized biomimetic approaches to mirror proposed biosynthetic pathways
Employed metal-catalyzed and photocatalyzed oxidative decarboxylation techniques
Successfully synthesized roseochelin A from sinapic acid using metal-catalyzed oxidative decarboxylation
Roseochelin B was synthesized through regioselective catechol formation and quinone-mediated thiomethylation
Findings revised the understanding of the biosynthetic pathway for roseochelins.

Abstract

Roseochelins A and B are produced by Phaeobacter inhibens and proposed to arise from algal sinapic acid through combined enzymatic and nonenzymatic steps. We report concise, biomimetic total syntheses mirroring a revised biosynthetic pathway differing from earlier proposals in key oxidative and decarboxylative intermediates. Roseochelin A arises via spontaneous 4 + 2 dimerization of sinapic acid to thomasidioic acid, followed by metal-catalyzed oxidative decarboxylation. Roseochelin B is accessed by regioselective catechol formation, ortho-quinone-mediated thiomethylation, and late-stage metal- or photocatalyzed oxidative decarboxylation.

Total Syntheses of Roseochelins A and B Using an Oxidative Decarboxylation Strategy

Key Points

Abstract

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