Three DNA polymerases of rat ascites hepatoma cells: Properties of the enzymes and effect of RNA synthesis on the reactions

Abstract

Three different DNA polymerases have been isolated from rat ascites hepatoma cells [1–3]. The molecular weight of a DNA polymerase (polymerase C) purified from the soluble fraction of the cells was estimated to be 142 000 by sedimentation on a sucrose gradient, while the molecular weights of two DNA polymerases (polymerase P-1 and P-2) purified from nuclear membrane-chromatin fraction were estimated to be 117 000 and 44 000, respectively, by the same method. Under certain conditions, the poly (dT) strand of poly[(dA) · (dT)] was copied well by the polymerases, especially by the nuclear polymerases. Poly (dC) was good template for the high molecular weight DNA polymerases C and P-1, but poly(dT) and poly(dA) were not effective templates. By addition of complementary oligoribonucleotides, the single-stranded deoxypolymers were copied by the high molecular weight polymerases C and P-1. When single-stranded fd phage DNA was used as template, the polymerization reactions by the high molecular weight polymerases were stimulated by the concomitant synthesis of RNA. This indicates that the oligoribonucleotide acts as a primer in these reactions.