Synthetic methods of glycopeptide assembly, and biological analysis of glycopeptide products |
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Authors: | Morten Meldal Phaedria M St Hilaire |
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Institution: | Carlsberg Laboratory, Department of Chemistry, Gamle Carlsberg Vej 10, DK-2500 Valby, Copenhagen, Denmark |
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Abstract: | The technology of glycopeptide synthesis has recently developed into a fully mature science capable of creating diverse glycopeptides of biological interest, even in combinatorial displays. This has allowed biochemists to investigate substrate specificity in the biosynthetic processing and immunology of various protein glycoforms. The construction of all the mucin core structures and a varietyof cancer-related glycopeptides has facilitated detailed analysis of the interaction between MHC-bound glycopeptides and T cell receptors. Novel dendritic neoglycopeptide ligands have been shown to demonstrate high affinity for carbohydrate receptors and these interactions are highly dendrimer specific. Large complex N-linked oligosaccharides have been introduced into glycopeptides using synthetic or chemoenzymatic procedures, both methods affording pure glycopeptides corresponding to a single glycoform in preparative quantities. The improved availability of glycosyl transferases has led to increased use of chemoenzymatic synthesis. Chemical ligation has been introduced as a method of attaching glycans to peptide templates. Combinatorial synthesis and the analysis of resin-bound glycopeptide libraries have been successfully carried out by applying the ladder synthesis principle. Direct quantitative glycosylation of peptide templates on solid phase has paved the way for the synthesis of templated glycopeptide mixtures as libraries of libraries. |
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Keywords: | Abbreviations: DDT dithiothreitol Fmoc flouren-9-ylmethoxycarbonyl GalN3 2-azido-2-deoxy-galactopyranose GalNacN-acetylgalactosamine GlcNAcN-acetylglucosamine MHC major histocompatibility complex MPR calcium independent mannose-6-phosphate receptor Pfp pentafluorophenyl SLex sialyl Lewis X antigen TCR T cell receptor |
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