Alpha-galactoside binding proteins from plant membranes: isolation, characterization, and relation to helminthosporoside [toxic galactoside] binding proteins of sugarcane

α-Galactoside binding proteins were isolated from cellular membranes of mint and tobacco as well as two clones of sugarcane which differ in their sensitivity to helminthosporoside, a toxic galactoside. Sodium trichloroacetate was used to disrupt membranes after which the proteins were purified using a melibiose-Sepharose-6B affinity column. Proteins from mint, tobacco, and susceptible sugarcane had equal electrophoretic mobilities, whereas resistant sugarcane protein migrated more slowly. Pretreatment of the proteins with fluorescamine caused them to migrate with the tracking dye. Each of the proteins had molecular weights of about 100,000 and each was shown to be oligomeric. Gel filtration revealed that aqueous solutions of these membrane proteins contained a mixture of size species which included a high molecular weight multimer and lower molecular weight oligomers. The relative abundance of the oligomers was dependent upon protein concentration: the lower concentrations yielded higher relative amounts of oligomers (Kenfield and Strobel 1980 Biochim Biophys Acta 600: 705-712). Also, the binding activity of these receptors was inversely proportional to protein concentration. At low protein concentration (4 micrograms per milliliter), the Kd's of each of the proteins for galactinol, raffinose, and helminthosporoside was about 10 micromolar. At high protein concentrations (100 micrograms per milliliter), mint and resistant sugarcane proteins failed to bind α-galactosyl ligands, whereas proteins from tobacco and susceptible sugarcane exhibited a markedly decreased binding activity compared to that at lower protein concentrations. Binding proteins from susceptible sugarcane were mixed with receptors from either resistant sugarcane or mint at low protein concentrations, then assayed for binding activity. Such mixtures showed a concentration-dependent decrease in binding activity analogous to the activity of homogeneous protein solutions. Bovine serum albumin, a nonsubunit protein, had no effect on the binding activity of the protein from susceptible sugarcane. Thus, receptors from diverse plants can associate in vitro and form functional oligomers. The amino acid composition of each of the binding proteins was similar but not identical. The significance of these results is discussed in regard to regulation of carbohydrate transport and sensitivity to phytotoxins.