Abstract

Biotinylated oligopeptides from the envelope glycoproteins of dengue fever virus, influenza A and B viruses, and human immunodeficiency virus (HIV) were synthesized and their interaction with curdlan and dextran sulfates was investigated using surface plasmon resonance to evaluate the antiviral mechanisms of sulfated polysaccharides. More than two clusters consisting of basic amino acids in the oligopeptides from dengue fever virus, strongly interacted with the sulfated polysaccharides elucidated by the association- and dissociation-rate constants. Interactions decreased with the decreasing molecular weights of the sulfated polysaccharides. Although oligopeptides from influenza A virus potently interacted with the sulfated polysaccharides, no interaction was detected on a B/Hong Kong virus oligopeptide bearing few basic amino acids. For the C terminus and V3 region short and long oligopeptides from HIV gp120, the interaction was enhanced by the number of clustered basic amino acids and was inhibited by acidic and bulky amino acids.

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