The catalytic effect of Mg2+ and imidazole on the decomposition of 5-phosphoribosyl-alpha-1-pyrophosphate in aqueous solution.

The rate of decomposition of aqueous solutions of 5-phosphoribosyl-alpha-1-pyrophosphate (PRPP) is greatly enhanced by the presence of certain divalent ions. High levels of Mg(2+) were shown to increase the rate of phosphate removal from PRPP by factors greater than 100-fold. The combined action of Mg(2+) and a nitrogenous compound (imidazole was employed in this study) increases the degradation rate constants by up to 1000-fold. The degradation of PRPP in neutral solutions follows two main paths, a pyrophosphate hydrolysis reaction yielding ribose 5-phosphate and an internal beta-phosphate cleavage yielding 5-phosphoribosyl-1,2 cyclic phosphate. The catalytic effect of Mg(2+) on PRPP degradation appears to suggest a connection between the observed rate enhancements and the dimagnesium form of PRPP. Rate enhancing effects of Mg(2+) are greatest at pH values (i.e. pH>7) which promote strong phosphate-Mg(2+) interaction.