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Direct radical functionalization of native sugars.

Yi JiangYi WeiQian-Yi ZhouGuo-Quan SunXia-Ping FuNikita LevinYijun ZhangWen-Qiang LiuNingXi SongShabaz MohammadBenjamin G DavisMing Joo Koh
Published in: Nature (2024)
Naturally occurring (native) sugars and carbohydrates contain numerous hydroxyl groups of similar reactivity 1,2 . Chemists, therefore, rely typically on laborious, multi-step protecting-group strategies 3 to convert these renewable feedstocks into reagents (glycosyl donors) to make glycans. The direct transformation of native sugars to complex saccharides remains a notable challenge. Here we describe a photoinduced approach to achieve site- and stereoselective chemical glycosylation from widely available native sugar building blocks, which through homolytic (one-electron) chemistry bypasses unnecessary hydroxyl group masking and manipulation. This process is reminiscent of nature in its regiocontrolled generation of a transient glycosyl donor, followed by radical-based cross-coupling with electrophiles on activation with light. Through selective anomeric functionalization of mono- and oligosaccharides, this protecting-group-free 'cap and glycosylate' approach offers straightforward access to a wide array of metabolically robust glycosyl compounds. Owing to its biocompatibility, the method was extended to the direct post-translational glycosylation of proteins.
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