Abstract
The effect of galactose on the inactivation of purified β-galactosidase from the black bean, Kestingiella geocarpa, in 5 M urea at 50°C and at pH 4.5, was determined.Lineweaver-Burk plots of initial velocity data in the presence and absence of urea and galactose were used to determine the relevant Km and Vmax values, with p-nitrophenyl β-D-galactopyranoside (PNPG) as substrate, S. The inactivation data were analysed using the Tsou equation and plots. Plots of ln([P]∞ – [P]t ) against time in the presence of urea yielded the inactivation rate constant, A. Plots of A vs [S] at different galactose concentrations were zero order showing that A was independent of [S]. Plots of [P]∞ vs [S] were used to determine the mode of inhibition of the enzyme by galactose, and slopes and intercepts of the 1/[P]∞ vs. 1/[S] yielded k+0 and k ′+0, the microscopic rate constants for the free enzyme and the enzyme-substrate complex, respectively. Plots of k+0 and k ′+0 vs. galactose concentrations showed that galactose protected the free enzyme and not the enzyme-substrate complex against urea inactivation via a noncompetitive mechanism at low galactose concentrations and a competitive pattern of inhibition at high galactose concentrations. The implication of the different modes of inhibition in protecting the free enzyme was discussed.
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More From: Journal of Enzyme Inhibition and Medicinal Chemistry
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