Stereoselective synthesis of C-ketosides by sequential intramolecular hydrogen atom transfer–intermolecular allylation reaction

Site-Selective C─H Bond Functionalization of Sugars

Non-typical C-functionalized sugars represent a prominent yet hardly accessible class of biologically-active compounds. The available synthetic methodologies toward such sugar derivatives suffer either from an extensive use of protecting groups, requiring long and laborious synthetic manipulations, or from limited predictability and noncontrollable site-selectivity of the employed C-functionalization reactions. In this work, we disclose an alternative synthetic methodology toward nontypical sugars that allows facile, site-selective, and stereocontrolled C-functionalization of sugars through a traceless tethering approach. The described silyl-based redox-active tethering group appends directly to the unprotected sugar substrate and mediates the C-functionalization reaction through a photochemically-promoted 1,6-hydrogen atom transfer (HAT) mechanism, while transforming into a readily-removable silyl protecting group. The protocol is compatible with a variety of unprotected carbohydrate substrates featuring sensitive aglycons and a diverse set of coupling partners, providing a straightforward and scalable route to pharmaceutically relevant C-functionalized carbohydrate conjugates.

Recent development in the synthesis of C-glycosides involving glycosyl radicals

C-Glycosylation involving glycosyl radical intermediates is a particularly effective approach to access C-glycosides, which are core units of a great number of natural products, bioactive compounds and marketed drugs.

Visible-light-induced alkoxyl radical generation for inert chemical bond cleavage/functionalization

The recent advancements in inert C(sp³)–H, C(sp³)–C(sp³), and C(sp³)–X bond cleavage/functionalization by visible-light-induced alkoxyl radical generation are discussed.

Construction of carbo- and heterocycles using radical relay cyclizations initiated by alkoxy radicals

An efficient method for the rapid construction of carbo- and heterocycles has been developed using radical relay cyclizations initiated by alkoxy radicals. Linear substrates were cyclized to form a wide range of cyclopentane, pyrrolidine, tetrahydropyran, and tetrahydrofuran derivatives in excellent yields. This methodology was utilized as a key step in the synthesis of the tetrahydrofuran fragment in (-)-amphidinolide K.