Abstract: | N-Acetyl-, N-propionyl-, N-butyryl- and N-valerylglucosamines were synthesized as topographical probes to localize further the interaction site of alpha-lactalbumin on galactosyltransferase. All these compounds were found to be substrates for galactosyltransferase with Km values in the millimolar range. In the presence of alpha-lactalbumin, the Michaelis-Menten constants were diminished. However, the effect on the initial rates of these reactions varied. Thus, at low N-acylglucosamine concentrations, alpha-lactalbumin activated the enzyme activity, but at high concentrations, alpha-lactalbumin became inhibitory. This mixed-type inhibition kinetics indicated that a quaternary complex between galactosyltransferase, alpha-lactalbumin, Mn2+-UDPgalactose and N-acylglucosamine existed during the catalytic process. The ability of these N-acylglucosamine substrates to bind to lactose synthase complex was further substantiated by the physical association of galactosyltransferase onto the solid-bound alpha-lactalbumin in the presence of any one of these compounds. The data revealed that the presence of the N-acyl group up to five carbons in length did not interfere with the interaction between alpha-lactalbumin and galactosyltransferase, suggesting that alpha-lactalbumin was not bound in the vicinity of the C-2 region of the monosaccharide site. The inhibitory effect of alpha-lactalbumin on N-acyllactosamine formation is probably a consequence of conformational changes of galactosyltransferase. |