Abstract

The states of tryptophan residues in Abrus precatorius agglutinin (APA) were analyzed by chemical modification and solvent perturbation UV-difference spectroscopy. The number of tryptophan residues available for N-bromosuccinimide (NBS) oxidation increased with lowering pH, and 20 out of the 24 tryptophans in APA were modified at pH 3.0, while 2 tryptophans were eventually oxidized at pH 5.0. Modification of tryptophan greatly decreased the binding of APA with saccharides, and only 4% of the hemagglutinating activity was retained after modification of 4 tryptophan residues/molecule. When the modification was done in the presence of lactose or galactose, 2 tryptophan residues/molecule remained unmodified with a retention of a fairly high hemagglutinating activity. The data from solvent perturbation UY-difference spectroscopy indicated that 6 tryptophans were on the surface of the APA molecule, and 4 tryptophan residues/molecule were shielded from the perturbing effect of the solvent upon binding with lactose. Based on these results, we proposed that in the saccharide-binding site on each B-chain of APA there exists one tryptophan residue directly involved in saccharide binding, and near the binding site there is another tryptophan residue whose state is also changeable upon binding with saccharide.

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