| Abstract: | The optimal assay conditions and specificity for the principal reactions of purine nucleoside phosphorylation were studied in mouse thymocytes. The following relative activities were obtained for the nucleoside substrates: adenosine, 100; deoxyguanosine, 24; and deoxyadenosine, 14. The phosphorylation of adenosine, 45 microM, was optimal between pH 5.8 and 6.0 with a millimolar Mg:ATP ratio of 1:5. This activity was insensitive to inhibition by other nucleosides and dCTP. Optimal phosphorylation of deoxyguanosine, 350 microM, occurred at pH 8.4 with a millimolar Mg:ATP ratio of 10:3.5. Phosphorylation of 80 microM deoxyguanosine was inhibited approximately 90% by 10 microM deoxycytidine or dCTP and was inhibited 70% by 200 microM deoxyadenosine but unaffected by adenosine. Deoxyadenosine, 450 microM, phosphorylation was optimal between pH 6.5 and 8.5 with a millimolar Mg:ATP ratio of 5:1. Phosphorylation of deoxyadenosine, 100 microM, was partially inhibited by 200 microM adenosine, 34%; 200 microM deoxyguanosine, 10%; and 100 microM deoxycytidine or dCTP, 33%. Only deoxyadenosine phosphorylation was inhibited by 200 microM deoxyinosine, 10%. These results and those obtained from isokinetic sucrose density gradient analysis are consistent with there being a specific adenosine kinase, a faster sedimenting deoxycytidine kinase of broad specificity which also catalyzes the phosphorylation of deoxyguanosine and deoxyadenosine, and a specific deoxyguanosine kinase sedimenting more rapidly than either of the other activities. |
