Regulation of mouse satellite DNA replication time.

The satellite DNA sequences located near the centromeric regions of mouse chromosomes replicate very late in S in both fibroblast and lymphocyte cells and are heavily methylated at CpG residues. F9 teratocarcinoma cells, on the other hand, contain satellite sequences which are undermethylated and replicate much earlier in S. DNA methylation probably plays some role in the control of satellite replication time since 5-azacytidine treatment of RAG fibroblasts causes a dramatic temporal shift of replication to mid S. In contrast to similar changes accompanying the inactivation of the X-chromosome, early replication of satellite DNA is not associated with an increase in local chromosomal DNase I sensitivity. Fusion of F9 with mouse lymphocytes caused a dramatic early shift in the timing of the normally late replicating lymphocyte satellite heterochromatin, suggesting that trans-activating factors may be responsible for the regulation of replication timing.