Studies of intracellular thymidine nucleotides. Relationship between the synthesis of deoxyribonucleic acid and the thymidine triphosphate pool in Escherichia coli K12.

The two types of mutant strains which show resistance to T-even phage infection have been isolated and been shown to have either a higher or lower ratio of dTDP-sugar to dTTP than that of the parent strains. The one with a higher ratio of dTDP-sugar to dTTP than the parents has a large dTDP-sugar pool and small dTTP pool, and a high level of dTDPG pyrophosphorylase activity. The other one, with a lower ratio of dTDP-sugar to dTTP than the parents, has a small dTDP-sugar pool and large dTTP pool, and a low or deficient level of this enzyme activity. They form an entirely mucoid colony in the synthetic agar plate. Mutant cells (Ter-6 and Ter-21) which have deficient dTDPG pyrophosphorylase activity show 2 -- 3 times higher activity of UDPG pyrophosphoyrlase than that of parent cells. The dTDPG pyrophosphorylase-deficient mutants (Ter-15 and Ter-21) have a 3 -- 4 times higher concentration of dTTP and a faster rate of DNA synthesis and cell division than those of parent strains in growth with external thymine. The dTDPG pyrophosphorylase constitutive mutant (Ter-4) has a 0.5 -- 0.33 smaller dTTP pool and a slower rate of DNA synthesis and cell division than those of parent cells grown in the same medium. In the Ter-15 and Ter-21 mutants, the intracellular dTTP-dependent DNA synthesis rapidly disappeared in thymine suboptimal concentration, but the Ter-4 mutant maintained its dTTP-dependent DNA synthesis over a 20 muM concentration of external thymine. In high concentration (100 muM) of external thymidine, the thymidine effects on the intracellular dTTP concentration do not significantly appear in these enzyme-deficient mutants (Ter-15 and Ter-21). Also, the concentration of intracellular dTTP in the cell growth with external thymidine is 2.5 times greater than that with external thymine in these enzyme-deficient mutants (Ter-15 and Ter-21).