Methods currently employed for measurement of phosphoribosylpyrophosphate synthetase (ribophosphate pyrophosphokinase; PRPPs) activity are cumbersome and expensive, requiring an auxiliary enzyme reaction, a radioactive nucleobase and multiple incubations, or do not allow a complete kinetic study. The aim of the present study is to describe a simplified, single step, non-isotopic method for determination of PRPPs in hemolysate, appropriate for a complete screening of PRPPs activity disorders. Briefly, the charcoal-treated hemolysate is incubated with saturating amounts of substrates and P1 P5 di(adenosine 5') pentaphosphate (Ap5A), an inhibitor of human adenylate kinase, to prevent conversion of AMP to ADP. AMP generated in this reaction is then measured by HPLC. Adenylate kinase activity was fully inhibited by Ap5A, allowing the accurate determination of AMP. The method was sensitive and reproducible and mean and variance values compared closely with those reported using other, more complicated, assay procedures. The hyperbolic curve relating Pi concentration to initial reaction velocity was shifted to sigmoidal by addition of 0.02 mmol/l GDP which inhibited PRPPs activities only at inorganic phosphate concentrations < 2 mmol/l. This suggests that this method should provide sensitive and accurate screening for regulatory, as well as catalytic, defects underlying PRPPs superactivity.