Shared posts
[ASAP] Direct Aromatic Nitrosation Using 2-Methoxyethyl Nitrite as a NO Cation Source
Stereocontrolled Synthesis of α‐3‐Deoxy‐d‐manno‐oct‐2‐ulosonic Acid (α‐Kdo) Glycosides Using C3‐p‐Tolylthio‐Substituted Kdo Donors: Access to Highly Branched Kdo Oligosaccharides
A modified donor has been developed for the glycosylation of 3-deoxy-d-manno-2-octulosonic acid (Kdo). The high reactivity and wide substrate scope of the donor enabled the synthesis of a range of Kdo-containing glycosides with complete α-stereoselectivity without the formation of 2,3-ene by-products. Several natural oligosaccharides were synthesized by a stepwise or one-pot process, including a highly branched Kdo pentasaccharide.
Abstract
3-Deoxy-d-manno-oct-2-ulosonic acid (Kdo) is an eight-carbon monosaccharide found widely in bacterial lipopolysaccharides (LPSs) and capsule polysaccharides (CPSs). We developed an indirect method for the stereoselective synthesis of α-Kdo glycosides with a C3-p-tolylthio-substituted Kdo phosphite donor. The presence of the p-tolylthio group enhanced the reactivity, suppressed the formation of elimination by-products (2,3-enes), and provided complete α-stereocontrol. A variety of Kdo α-glycosides were synthesized by our method in excellent yields (up to 98 %). After glycosylation, the p-tolylthio group can be efficiently removed by free-radical reduction. Subsequently, the orthogonality of the phosphite donor and thioglycoside donor was demonstrated by the one-pot synthesis of a trisaccharide in Helicobacter pylori and Neisseria meningitidis LPS. Moreover, an efficient total synthesis route to the challenging 4,5-branched Kdo trisaccharide in LPSs from several A. baumannii strains was highlighted. To demonstrate the high reactivity of our approach further, the highly crowded 4,5,7,8-branched Kdo pentasaccharide was synthesized as a model molecule for the first time. Additionally, the reaction mechanism was investigated by DFT calculations.