Endohexosaminidase-catalysed glycosylation with oxazoline donors: fine tuning of catalytic efficiency and reversibility.

A complete series of oxazoline di-, tri-, tetra-, and hexasaccharides, corresponding to the core sections of N-linked glycoprotein high mannose glycans, together with the corresponding oligosaccharides containing a central glucose unit, were synthesised and tested as glycosyl donors for glycosylation of a GlcNAcAsn glycosyl amino acid catalysed by the endohexosaminidases M (Endo M), A (Endo A) and H (Endo H). Whilst Endo H did not catalyse any glycosylation reactions, both Endo M and Endo A efficiently catalysed glycosylations that were not limited to donors containing the Manbeta(1-->4)GlcNAc linkage. Precise structure activity relationships and time course studies have revealed fine-tuning of the efficiency of the synthetic processes which correlated both with the enzyme used and the precise oxazoline structure.

Synthesis of N-glycan oxazolines: donors for endohexosaminidase catalysed glycosylation.

Oxazoline mono-, di-, tri- and hexasaccharides, corresponding to the core components of N-linked glycoprotein high mannose glycans, are synthesised as potential glycosyl donors for endohexosaminidase catalysed glycosylation of glycopeptides and glycoprotein remodelling. The crucial beta-D-Manp-(1-->4)-D-GlcpNAc linkage is synthesised via epimerisation of gluco disaccharide substrates by sequential triflation and nucleophilic substitution. Oxazolines are formed directly from the anomeric OPMP protected N-acetyl glucosamine derivatives.