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Copper-Catalyzed Stille Cross-Coupling Reaction and Application in the Synthesis of the Spliceostatin Core Structure

Arun K. Ghosh, Joshua R. Born, Anne M. Veitschegger, Melissa S. Jurica

2020The Journal of Organic Chemistry24 citationsDOIOpen Access PDF

Abstract

An efficient palladium-free Stille cross-coupling reaction of allylic bromides and functionalized organostannylfuran using catalytic copper halide has been developed. The coupling reaction was optimized using CuI and low catalyst loading (down to 5 mol %). The reaction was conveniently carried out at ambient temperature in the presence of inorganic base to afford the coupling product in good-to-excellent yields. The utility of this reaction was demonstrated in the synthesis of a furan with sensitive functionalities. A sulfolene moiety was utilized as a masking group for the sensitive diene. Noyori asymmetric reduction, Achmatowicz reaction, and Kishi reduction steps converted sulfolene to a highly substituted tetrahydropyran intermediate used in the synthesis of the highly potent antitumor agents, spliceostatins, and their derivatives.

Topics & Concepts

Stille reactionChemistryCoupling reactionCatalysisCombinatorial chemistryMoietyAllylic rearrangementPalladiumFuranCopperDieneOrganic chemistryNatural rubberCatalytic Cross-Coupling ReactionsCatalytic Alkyne ReactionsSynthetic Organic Chemistry Methods
Copper-Catalyzed Stille Cross-Coupling Reaction and Application in the Synthesis of the Spliceostatin Core Structure | Litcius