Abstract
Models of DNA replication in yeast and Xenopus suggest that Mcm10p is required to generate the pre-initiation complex as well as progression of the replication fork during the elongation of DNA chains. In this report, we show that the Schizosaccharomyces pombe Mcm10p/Cdc23p binds to the S. pombe DNA polymerase (pol) alpha-primase complex in vitro by interacting specifically with the catalytic p180 subunit and stimulates DNA synthesis catalyzed by the pol alpha-primase complex with various primed DNA templates. We investigated the mechanism by which Mcm10p activates the polymerase activity of the pol alpha-primase complex by generating truncated derivatives of the full-length 593-amino acid Mcm10p. Their ability to stimulate pol alpha polymerase activity and bind to single-stranded DNA and to pol alpha were compared. Concomitant with increased deletion of the N-terminal region (from amino acids 95 to 415), Mcm10p derivatives lost their ability to stimulate pol alpha polymerase activity and bind to single-stranded DNA. Truncated derivatives of Mcm10p containing amino acids 1-416 retained the pol alpha binding activity, whereas the C terminus, amino acids 496-593, did not. These results demonstrate that both the single-stranded DNA binding and the pol alpha binding properties of Mcm10p play important roles in the activation. In accord with these findings, Mcm10p facilitated the binding of pol alpha-primase complex to primed DNA and formed a stable complex with pol alpha-primase on primed templates. A mutant that failed to activate or bind to DNA and pol alpha, was not observed in this complex. We suggest that the interaction of Mcm10p with the pol alpha-primase complex, its binding to single-stranded DNA, and its activation of the polymerase complex together contribute to its role in the elongation phase of DNA replication.
Highlights
Models of DNA replication in yeast and Xenopus suggest that Mcm10p is required to generate the pre-initiation complex as well as progression of the replication fork during the elongation of DNA chains
We show that the Schizosaccharomyces pombe Mcm10p/ Cdc23p binds to the S. pombe DNA polymerase ␣-primase complex in vitro by interacting with the catalytic p180 subunit and stimulates DNA synthesis catalyzed by the pol ␣-primase complex with various primed DNA templates
Studies carried out in S. cerevisiae, S. pombe, Drosophila melanogaster, and Xenopus indicate that Mcm10p is a conserved component of the pre-replication complex (pre-RC)
Summary
Models of DNA replication in yeast and Xenopus suggest that Mcm10p is required to generate the pre-initiation complex as well as progression of the replication fork during the elongation of DNA chains. We suggest that the interaction of Mcm10p with the pol ␣-primase complex, its binding to single-stranded DNA, and its activation of the polymerase complex together contribute to its role in the elongation phase of DNA replication. The DNA polymerase ␣-primase (pol ␣-primase) complex plays an essential role in initiation by synthesizing short RNA primers required to begin both leading and lagging strand DNA synthesis. Polymerase ␣-primase subunits have been reported to interact with a number of replication proteins including Cdc45 [14], Dna2 [15], RPA [16, 17], and viral initiator proteins [16, 18, 19], consistent with the idea that replication forks are large precisely assembled multiprotein complexes. Biochemical and genetic interactions have been reported between Mcm10p and memds, double-stranded; ss, single-stranded; SSB, single-stranded DNAbinding protein; RPA, replication protein A; sp, S. pombe
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