6533b838fe1ef96bd12a52f5
RESEARCH PRODUCT
C-Glycosyl amino acids through hydroboration-cross-coupling of exo-glycals and their application in automated solid-phase synthesis.
Holger LöweHolger LöweDieter SchollmeyerHorst KunzStefan Kochsubject
chemistry.chemical_classificationGlycosylationStereochemistryOrganic ChemistryMucin-1CarbohydratesGlycopeptidesGlycosidic bondGeneral ChemistryCatalysisCoupling reactionGlycopeptideAmino acidHydroborationchemistry.chemical_compoundSolid-phase synthesischemistrySuzuki reactionHumansGlycosylAmino AcidsProtein Processing Post-TranslationalSolid-Phase Synthesis Techniquesdescription
O-Glycosylation is one of the most important post-translational modifications of proteins. The attachment of carbohydrates to the peptide backbone influences the conformation as well as the solubility of the conjugates and can even be essential for binding to specific ligands in cell-cell interactions or for active transport over membranes. This makes glycopeptides an interesting class of compounds for medical applications. To enhance the long-term availability of these molecules in vivo, the stabilization of the glycosidic bond between the amino acid residue and the carbohydrate is of interest. The described modular approach affords β-linked C-glycosyl amino acids by a sequence of Petasis olefination of glyconolactones, stereoselective hydroboration and a mild B-alkyl-Suzuki coupling reaction. The coupling products were transformed to C-glycosyl amino acid building-blocks suitable for solid-phase synthesis and successfully incorporated into a partial sequence of the tumor-associated MUC1-glycopeptide. The resulting C-glycopeptides are candidates for the development of long-term stable mimics of O-glycopeptide vaccines.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-03-28 | Chemistry (Weinheim an der Bergstrasse, Germany) |