Dexyribonucleic acid polymerases of BHK-21/C13cells. Relationship to the physiological state of the cells, and to synchronous indution of synthesis of deoxyribonuleic acid.

BHK-21/C13 cells were grown in culture under conditions that provided exponentially growing cells and quiescent cells, by modifying the concentration of serum in the growth medium. The high-molecular-weight DNA polymerase (DNA polymerase I) from exponentially growing cells accounted for 90% of the total polymerase activity; the low-molecular-weight DNA polymerase (DNA polymerase II) accounted for the remaining 10%. In quiescent cells, DNA polymerase I contributed only 39% of the total polymerase activity and DNA polymerase II 61%. The total amount of DNA polymerase I in exponentially growing cells was 11.3-fold greater than that in quiescent cells, whereas the amount of DNA polymerase II appeared to be relatively independent of the physiological state of the cells. In an extension of these experiments, cells in a quiescent state (Go cells) were stimulated by the 'serum-step-up' method of Burk (1970) to grow and to enter a synchronous wave of DNA synthesis (S-phase cells), 87% of the cells synthesizing DNA at 20 h after the 'serum-step-up'. During the synchrony experiment, the total cytoplasmic and total nuclear DNA polymerase activities each increased about 4-fold in parallel with the increase in the rate of DNA synthesis. Cytoplasmic polymerase activity was always greater than nuclear polymerase activity. The increases observed were maximal at 20 h after 'serum step-up'. By 26 h, there was a decrease in enzyme activity (8% for cytoplasmic polymerase and 16% for nuclear polymerase, both relative to the maximum at 20 h), but the rate of DNA synthesis had declined by 37% relative to the maximum at 20 h. In Go cells, DNA polymerase II (mol.wt. 46000 +/- 4000) was the predominant species, there being twice as much of it as of the total DNA polymerase I. In these cells there was little DNA polymerase IC and ID; the amounts of IA (mol.wt. 900 times 10(3)-1100 times 10(3)) and IB (mol.wt. 460 times 10(3)-560 times 10(3)) were about equal but small.