Chemoselective Glycosylations. 2. Differences in Size of Anomeric Leaving Groups Can Be Exploited in Chemoselective Glycosylations
The Journal of Organic Chemistry1997Vol. 62(23), pp. 8145–8154
Citations Over TimeTop 10% of 1997 papers
Abstract
We have developed a novel chemoselective glycosylation strategy. This glycosylation strategy is based on the fact that the glycosyl reactivity of an anomeric thiol group can be controlled by the bulkiness of this group whereby we have produced a new range of differentially reactive coupling substrates. It was also shown that the anomeric configuration of the thioglycosides affects the reactivity of the substrates. The new approach will enable complex oligosaccharides of biological importance to be prepared in a highly convergent manner. The versatility of this approach is demonstrated by the synthesis of pentasaccharide 34 from the building blocks 7, 9, 10, 12, and 14 without a single protecting group manipulation.
Related Papers
- → Sequential one-pot glycosylation with glycosyl N-trichloroacetylcarbamate and trichloroacetate including dehydrative approach using 1-hydroxy sugars(2011)15 cited
- → Glycosylation using glycosyl phosphite as a glycosyl donor(1994)51 cited
- → DISAL Glycosyl Donors for the Synthesis of a Linear Hexasaccharide under Mild Conditions(2003)22 cited
- → Glycosylation of 2,3‐diphenylindole and derivatives — Synthesis of O‐, N‐, and C‐glycopyranosides(1990)9 cited
- → C-Glycosylation of Substituted β-Naphthols with Trichloroacetimidate Glycosyl Donors(2018)1 cited