Abstract
Requirements and optimal conditions have been studied for the activity of DNA polymerase from phytohemagglutinin-stimulated and non-stimulated human lymphocytes. Differences were found in thermal stability and inhibitory effect of KC1 and p-chloromercuribenzoate. The relationship was determined between DNA polymerase activity, cellular pools of dATP, dTTP and incorporation of deoxythymidine into DNA during transformation. The increase in polymerase activity was paralleled by a similar increase in the pools of dATP and dTTP. The enzyme activity and the pool sizes of both nucleotides reached a maximum simultaneously with the peak of deoxythymidine incorporation into DNA. Studies in which protein synthesis was limited by cycloheximide showed that both the DNA polymerase activity and the rise in the pool sizes of both nucleotides were abolished. This implies that the de novo synthesis is required for the enzymes involved.
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