Litcius/Paper detail

Stereoselective Entry into α,α’‐<i>C</i>‐Oxepane Scaffolds through a Chalcogen Bonding Catalyzed Strain‐Release <i>C</i>‐Septanosylation Strategy

Wenpeng Ma, Annika Schmidt, Carsten Strohmann, Charles C. J. Loh

2024Angewandte Chemie International Edition29 citationsDOI

Abstract

The utility of unconventional noncovalent interactions (NCIs) such as chalcogen bonding has lately emerged as a robust platform to access synthetically difficult glycosides stereoselectively. Herein, we disclose the versatility of a phosphonochalcogenide (PCH) catalyst to facilitate access into the challenging, but biologically interesting 7-membered ring α,α'-C-disubstituted oxepane core through an α-selective strain-release C-glycosylation. Methodically, this strategy represents a switch from more common but entropically less desired macrocyclizations to a thermodynamically favored ring-expansion approach. In light of the general lack of stereoselective methods to access C-septanosides, a remarkable palette of silyl-based nucleophiles can be reliably employed in our method. This include a broad variety of useful synthons, such as easily available silyl-allyl, silyl-enol ether, silyl-ketene acetal, vinylogous silyl-ketene acetal, silyl-alkyne and silylazide reagents. Mechanistic investigations suggest that a mechanistic shift towards an intramolecular aglycone transposition involving a pentacoordinate silicon intermediate is likely responsible in steering the stereoselectivity.

Topics & Concepts

ChalcogenCatalysisStrain (injury)StereoselectivityChemistryStereochemistryCrystallographyOrganic chemistryBiologyAnatomyAsymmetric Synthesis and CatalysisChemical Synthesis and AnalysisSynthesis and Catalytic Reactions