| Abstract: | Yeast inorganic pyrophosphatase is a dimer of identical subunits. Previous work (Rapoport, T.A., et al. (1973) Eur. J. Biochem. 33, 341) indicated the presence of two different Mn2+ binding sites per subunit. In the present work, the binding of inorganic phosphate to the Mn2+-inorganic pyrophosphatase complex has been studied by 1H and 31P nuclear magnetic resonance. Two distinct phosphate sites have been found, having dissociation constants of 0.24 mM and 18 mM. The Mn2+-31P distance from tightly bound Mn2+ to phosphate bound in the low affinity site (6.2 A) is consistent with outer sphere binding. Binding to both phosphate sites can be simultaneously inhibited by the pyrophosphate analogue, hydroxymethanebisphosphonate, providing evidence for the physical proximity of these two sites. The weaker Mn2+ site is apparently far from both phosphate sites. From the magnitudes of the dissociation constants found for both phosphate and analogue binding and the recent work of P.D. Boyer and his co-workers (private communication) on enzyme-catalyzed phosphate-water exchange, it appears unlikely that the hydrolysis of enzyme-bound pyrophosphate is the rate-determining step in the overall enzymatic catalysis of pyrophosphate hydrolysis, at least when Mn2+ is the required divalent metal ion cofactor. |
