Abstract
The origin recognition complex (ORC) plays a central role in the initiation of DNA replication in eukaryotic cells. It interacts with origins of DNA replication in chromosomal DNA and recruits additional replication proteins to form functional initiation complexes. These processes have not been well characterized at the biochemical level except in the case of Saccharomyces cerevisiae ORC. We report here the expression, purification, and initial characterization of Schizosaccharomyces pombe ORC (SpORC) containing six recombinant subunits. Purified SpORC binds efficiently to the ars1 origin of DNA replication via the essential Nterminal domain of the SpOrc4 subunit which contains nine AT-hook motifs. Competition binding experiments demonstrated that SpORC binds preferentially to DNA molecules rich in AT-tracts, but does not otherwise exhibit a high degree of sequence specificity. The complex is capable of binding to multiple sites within the ars1 origin of DNA replication with similar affinities, indicating that the sequence requirements for origin recognition in S. pombe are significantly less stringent than in S. cerevisiae. We have also demonstrated that SpORC interacts directly with Cdc18p, an essential fission yeast initiation protein, and recruits it to the ars1 origin in vitro. Recruitment of Cdc18p to chromosomal origins is a likely early step in the initiation of DNA replication in vivo. These data indicate that the purified recombinant SpORC retains at least two of its primary biological functions and that it will be useful for the eventual reconstitution of the initiation reaction with purified proteins.
Highlights
The origin recognition complex (ORC) plays a central role in the initiation of DNA replication in eukaryotic cells
We have suggested that binding of the N-terminal domain of SpOrc4p to appropriately spaced AT-tracts serves to tether the ORC complex to S. pombe origins of DNA replication
We have previously observed by rescue of an orc4 deletion that the SpOrc4p with a His6-epitope tag in this position is functional in vivo
Summary
ScORC, S. cerevisiae Origin Recognition Complex; ORC, origin recognition complex; HA, hemagglutinin; ARS, autonomously replicating sequence; MCM, minichromosome maintenance. We have suggested that binding of the N-terminal domain of SpOrc4p to appropriately spaced AT-tracts serves to tether the ORC complex to S. pombe origins of DNA replication. Consistent with this possibility, we have demonstrated that the isolated SpOrc subunit can bind to DNA containing a known S. pombe origin [24]. To understand origin recognition and the assembly of initiation complexes in S. pombe, it will be essential to characterize the biochemical properties of SpORC. For this purpose, we have expressed all six SpORC subunits in insect cells using the baculovirus system, and we have purified the complex to near homogeneity. The expression and purification of SpORC should facilitate biochemical analysis of the initiation reaction
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