| Abstract: | An initial observation concerning the failure of 3H]thymidine at high specific activity to be incorporated into the DNA of Crithidia fasciculata for more than a brief initial period has been correlated with the presence at high specific activity in the organism of a thymidine phosphorylase activity with an equilibrium in the direction of catabolism. This enzyme degrades thymidine to thymine which is not utilized by the organism. The enzyme has also been shown to be present in a number of other trypanosomatids, including the culture forms of Trypanosoma cruzi, where the specific activity was nearly as high as that in C. fasciculata. Evidence is presented that in C. fasciculata, the culture forms of T. cruzi and possibly other species of trypanosomatid, the thymidine phosphorylae, together with a thymidylate phosphatase, forms a catabolic pathway which degrades thymine nucleotides to thymine, which is then excreted. About 60% of the thymine nucleotides made by organisms appear to be metabolized through the pathway, suggesting that their synthesis is not subject to completely effective regulatory control. |
