Stimulation of polyoma DNA replication in isolated nucleoprotein complexes by factors from Drosophila embryos

Abstract

Nucleoprotein complexes containing both form 1 and replicative intermediates of polyoma DNA prepared from nuclei of virus-infected mouse fibroblasts retain a limited ability to elongate progeny strands of the replicative intermediates. Compared to isolated nuclei, both the rate and the extent of strand elongation is greatly decreased. The isolated complexes synthesize initiator RNA and start new Okazaki fragments, but are deficient in the joining of these fragments. Addition of small amounts of an extract from 16 hours old Drosophila embryos corrects the deficiencies. The stimulatory activity of the extract can be partially purified and has been separated into two fractions by chromatography on Sepharose 6B. With immunological techniques we demonstrate that the mouse DNA polymerase-α, tightly bound to the complexes, is responsible for DNA strand elongation. The Drosophila α-polymerase present in one of the two fractions purified on Sepharose 6B cannot substitute for the mouse enzyme. The stimulatory activity of the Drosophila fractions is thus not due to α-polymerase.