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Binding of divalent magnesium by Escherichia coli phosphoribosyl diphosphate synthetase.

Biochemistry (1997-04-22)
M Willemoës, B Hove-Jensen
ABSTRACT

The mechanism of binding of the substrates Mg x ATP and ribose 5-phosphate as well as Mg2+ to the enzyme 5-phospho-D-ribosyl (alpha-1-diphosphate synthetase from Escherichia coli has been analyzed. By use of the competive inhibitors of ATP and ribose 5-phosphate binding, alpha,beta-methylene ATP and (+)-1-alpha,2-alpha,3-alpha-trihydroxy-4-beta-cyclopentanemethanol 5-phosphate, respectively, the binding of Mg2+ and the substrates were determined to occur via a steady state ordered mechanism in which Mg2+ binds to the enzyme first and ribose 5-phosphate binds last. Mg2+ binding to the enzyme prior to the binding of substrates and products indicated a role of Mg2+ in preparing the active site of phosphoribosyl diphosphate synthetase for binding of the highly phosphorylated ligands Mg x ATP and phosphoribosyl diphosphate, as evaluated by analysis of the effects of the inhibitors adenosine and ribose 1,5-bisphosphate. Calcium ions, which inhibit the enzyme even in the presence of high concentrations of Mg2+, appeared to compete with free Mg2+ for binding to its activator site on the enzyme. Analysis of the inhibition of Mg2+ binding by Mg x ADP indicated that Mg x ADP binding to the allosteric site may occur in competition with enzyme bound Mg2+. Ligand binding studies showed that 1 mol of Mg x ATP was bound per mol of phosphoribosyl diphosphate synthetase subunit, which indicated that the allosteric sites of the multimeric enzyme were not made up by inactive catalytic sites.

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Sigma-Aldrich
D-Ribulose 1,5-bisphosphate sodium salt hydrate, ≥90% (TLC)
Sigma-Aldrich
D-Ribulose 1,5-bisphosphate sodium salt hydrate, ≥99.0% (TLC)