Cessation of deoxyribonucleic acid polymerase activity in amino acid-starved Tetrahymena pyriformis

Abstract

To solve the mechanism for the complete cessation of DNA synthesis in Tetrahymena cells involved in the amino acid starvation, the nature of DNA polymerase activity was investigated in crude enzyme preparations or in toluene-permeabilized specimens. In crude enzyme preparations from growing cells, 3H-TTP incorporation into acid-insoluble products showed little dependency on exogenous DNA template, while incorporation increased markedly in the presence of ATP. These characteristics were very similar to those of replicative DNA synthesis in permeabilized Escherichia coli. Variations of DNA and RNA polymerase activities following transfer of exponentially growing Tetrahymena cells to amino acid-deprived medium showed that in the crude enzyme preparations DNA polymerase activity dropped sharply within 3 h after the transfer and practically no activity was detected thereafter, whereas RNA polymerase activity did not disappear in the same preparations. Such enzyme kinetics coincided well with the kinetics of in vivo synthesis of the corresponding nucleic acid. The cessation of DNA synthesis in the amino acid-starved cells may be due not to the activation of DNase or a soluble polymerase inhibitor, nor to the deficiency of each kind of deoxyribonucleoside triphosphate or magnesium ion or ATP generation system. It follows from this that the cessation of DNA polymerase activity in the starved cells may be due to the deficiency of DNA polymerase or its associated factor(s) as a reflection of short life-span of such a protein.