Abstract: | The analysis of the carbon-13 chemical shift data of NeuAc alpha (2----3)Gal beta (1----4)Glc and NeuAc alpha (2----3)Gla beta-(1----4)GlcNAc and their respective NeuAc alpha (2----6) isomers established distinct and different conformations of the sialic acid residue, depending on the type of anomeric linkage alpha-(2----3) vs. alpha (2----6)]. Interactions between the NeuAc residue and the Glc or GlcNAc residue are particularly strong in the case of the alpha (2----6) isomers. Similar effects are observed for the larger oligosaccharides II3(NeuAc)2Lac and IV6NeuAcLcOse4] and even in intact glycoproteins and polysaccharides. It is proposed that the NeuAc alpha (2----3) isomers assume an extended conformation with the sialic residue at the end (terminal) of the oligosaccharide chain or branch. The NeuAc alpha (2----6) isomers are assumed to be folded back toward the inner core sugar residues. |