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Catalysis by Escherichia coli inorganic pyrophosphatase: pH and Mg2+ dependence.

Biochemistry (1996-04-16)
A A Baykov, T Hyytia, S E Volk, V N Kasho, A V Vener, A Goldman, R Lahti, B S Cooperman
ABSTRACT

Steady-state rates of PPi hydrolysis by Escherichia coli inorganic pyrophosphatase (E-PPase) were measured as a function of magnesium pyrophosphatase (substrate) and free Mg2+ ion (activator) in the pH range 6.0-10.0. Computer fitting of hydrolysis data in combination with direct measures of Mg2+ binding to enzyme has resulted in a model that quantitatively accounts for our results. The major features of this model are the following: (a) E-PPase catalysis proceeds both with three and with four (and possibly with five) Mg2+ ions per active site; (b) catalysis requires both an essential base and an essential acid, and the pKas of these groups are modulated by the stoichiometry of bound Mg2+; and (c) the four-metal route predominates for concentrations of free Mg2+>0.2mM. The model straightforwardly accounts for the apparent linkage between increased pKa of an essential base and activity requirements for higher Mg2+ concentration observed for several active site variants. Microscopic rate constants for overall catalysis of PPi-Pi equilibration were determined at pH 6.5-9.3 by combined analysis of enzyme-bound PPi formation and rates of PPi hydrolysis, PPi synthesis, and Pi-H2O oxygen exchange. The catalytic activity of E-PPase at saturating substrate increases toward PPi hydrolysis and decreases toward PPi synthesis and Pi-H2O oxygen exchange with increasing pH. These changes are mainly due to an increased rate of dissociation of the second released Pi and a decreased rate of enzyme-bound PPi synthesis from enzyme-bound Pi, respectively, as the pH is raised .

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Sigma-Aldrich
Pyrophosphatase, Inorganic from Escherichia coli, recombinant, expressed in E. coli, lyophilized powder, ≥90%, ≥800 units/mg protein
Sigma-Aldrich
Inorganic Pyrophosphatase from Escherichia coli, ≥100 units/mL, buffered aqueous solution