Replication of polyoma DNA in isolated nuclei: analysis of replication fork movement

Abstract

The movement of replication forks during polyoma DNA synthesis in isolated nuclei was analyzed by digesting newly synthesized DNA with the restriction endonuclease HpaII which cleaves polyoma DNA into eight unique fragments. The terminus of in vitro DNA synthesis was identified by cleaving newly completed molecules with HpaII. The distribution of label in the restriction fragments showed that the in vitro DNA synthesis was bidirectional and had the normal terminus of replication. Analysis of replicative intermediates pulse-labeled in vitro further suggested that DNA synthesis in isolated nuclei is an ordered process similar to replication in intact cells. Replication forks moved with a constant rate from the origin towards the terminus of replication. The nonlinear course of the DNA synthesis reaction in the isolated nuclei seems to result from the random inactivation of replication forks rather than a decrease in the rate of fork movement. During the in vitro synthesis a replication fork could maximally synthesize a DNA chain about 1,000 nucleotides long. The results suggest that some replication forks might be initiated in vitro at the origin of replication.