RESUMO
The possible modes of binding of kojibiose, nigerose, maltose and ManPα(1 →2)Man to concanavalin A have been investigated using computer modelling studies. While α12 linked disaccharides bind to concanavalin A in two modes, i.e. by placing the reducing as well as non-reducing sugar units in the sugar binding site, nigerose or maltose can bind only in one mode, i.e. by placing the non-reducing sugar unit in the binding site. Though, both the sugar residues in α 12 linked disaccharides can reach the binding site, the preference is high for the non-reducing unit. When the non-reducing residue, in any of these disaccharides, enters the binding site, the allowed orientations and the possible hydrogen bonds with the protein seem to be independent of the glycosidic linkage. However, the number of hydrogen bonds the outward sugar residue forms with the protein are dependent on the type of linkage. Atleast one of the hydroxyl groups adjacent to the glycosidic linkage on the outward sugar residue is involved in the formation of a hydrogen bond with the protein suggesting the presence of an extended binding site. The orientation of the reducing sugar residue in the extended binding site is dependent on the linkage. Its orientation in nigerose is flipped when compared to that found in kojibiose or maltose leading to different non-covalent interactions with the protein which affect their binding affinities.