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Abstract
Carbohydrates constitute an important class of biologically relevant natural products. Among the synthetic glycomimetics, C-glycosides are particularly interesting due to their chemical and metabolic stability towards acidic and enzymatic hydrolysis at the anomeric position. The stereochemical outcomes of traditional methodologies to access C-glycosides rely heavily on substrate control. Herein, we report the first synthetic strategy to access diverse C-glycosides with precise stereochemical control at the anomeric position via formal functional group deletion, where both α- and β-anomers of furanoses and pyranoses can be obtained as single stereoisomers. Additionally, the broad scope of heterocyclic C-glycosides obtained via this strategy further illustrates its potential for empowering future application in both chemical biology research and drug discovery.
