Peptidomimics of antigen are present in variable region of heavy and light chains of anti-idiotypic antibody and function as surrogate antigen for perpetuation of immunological memory.

Peptide antigens composed of relevant B cell and T cell epitopes, capable of inducing protective immune response against the whole pathogen, are potentially safe, alternative vaccine antigens for prevention of wide range of diseases. Here, we show that short peptides derived from internal image sequences of anti-idiotypic antibody (peptidomimics) can function as both B and T cell epitopes and perpetuate antigen specific immunological memory. We have sequenced the variable regions of heavy and light chains of the anti-idiotypic antibody specific to rinderpest virus hemagglutinin protein and predicted T cell epitopes in these sequences by an immuno-informatics approach.

An investigation of large inhibitors binding to phosphoglycerate kinase and their effect on anion activation.

This study extends, to a series of larger anions, our earlier investigation of the interaction of the trypanocidal drug suramin and other small negatively charged molecules with yeast phosphoglycerate kinase. 1H-NMR structural studies of phosphoglycerate kinase in the presence of varying concentrations of these large molecules (designed to mimic, at one end, the anionic charge distribution in the substrate 3-phosphoglycerate, while possibly being able to interact across the cleft of the enzyme) including inositol 1,4,5-triphosphate, 4-amino-6-trichloroethenyl-1,3- benzenedisulphonamide, gallic acid and sulphasalazine are described. The anion activation and/or inhibition of the enzyme by these molecules are also reported.