A Radical Activation Strategy for Versatile and Stereoselective N-Glycosylation
- PMID: 38837495
- DOI: 10.1002/anie.202409004
A Radical Activation Strategy for Versatile and Stereoselective N-Glycosylation
Abstract
Previous N-glycosylation approaches have predominately involved acidic conditions, facing challenges of low stereoselectivity and limited scope. Herein, we introduce a radical activation strategy that enables versatile and stereoselective N-glycosylation using readily accessible glycosyl sulfinate donors under basic conditions and exhibits exceptional tolerance towards various N-aglycones containing alkyl, aryl, heteroaryl and nucleobase functionalities. Preliminary mechanistic studies indicate a pivotal role of iodide, which orchestrates the formation of a glycosyl radical from the glycosyl sulfinate and subsequent generation of the key intermediate, a configurationally well-defined glycosyl iodide, which is subsequently attacked by an N-aglycone in a stereospecific SN2 manner to give the desired N-glycosides. An alternative route involving the coupling of a glycosyl radical and a nitrogen-centered radical is also proposed, affording the exclusive 1,2-trans product. This novel approach promises to broaden the synthetic landscape of N-glycosides, offering a powerful tool for the construction of complex glycosidic structures under mild conditions.
Keywords: N-glycosides; N-glycosylation; glycosyl iodides; glycosyl sulfinates; radical reactions.
© 2024 Wiley-VCH GmbH.
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References
-
- None
-
- R. A. Dwek, Chem. Rev. 1996, 96, 683–720;
-
- D. M. Huryn, M. Okabe, Chem. Rev. 1992, 92, 1745–1768;
-
- B. Ernst, G. W. Hart, P. Sinaý, Carbohydrate in Chemistry and Biology. Wiley-VCH: Weinheim, 2000;
-
- B. O. Fraser-Reid, K. Tatsuta, J. Thiem, Glycoscience. Springer: Heidelberg New York, 2008;
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