Site-specific and temporally controlled initiation of DNA replication in a human cell-free system

We have recently established a cell-free system from human cells that initiates semi-conservative DNA replication in nuclei isolated from cells which are synchronised in late G₁ phase of the cell division cycle. We now investigate origin specificity of initiation using this system. New DNA replication foci are established upon incubation of late G₁ phase nuclei in a cytosolic extract from proliferating human cells. The intranuclear sites of replication foci initiated in vitro coincide with the sites of earliest replicating DNA sequences, where DNA replication had been initiated in these nuclei in vivo upon entry into S phase of the previous cell cycle. In contrast, intranuclear sites that replicate later in S phase in vivo do not initiate in vitro. DNA replication initiates in this cell-free system site-specifically at the lamin B2 DNA replication origin, which is also activated in vivo upon release of mimosine-arrested late G₁ phase cells into early S phase. In contrast, in the later replicating ribosomal DNA locus (rDNA) we neither detected replicating rDNA in the human in vitro initiation system nor upon entry of intact mimosine-arrested cells into S phase in vivo. As a control, replicating rDNA was detected in vivo after progression into mid S phase. These data indicate that early origin activity is faithfully recapitulated in the in vitro system and that late origins are not activated under these conditions, suggesting that early and late origins may be subject to different mechanisms of control.     

Replicating by the clock

The eukaryotic genome is divided into well-defined DNA regions that are programmed to replicate at different times during S phase. Active genes are generally associated with early replication, whereas inactive genes replicate late. This expression pattern might be facilitated by the differential restructuring of chromatin at the time of replication in early or late S phase.