Abstract
The Mini-chromosome maintenance (Mcm) proteins are essential as central components for the DNA unwinding machinery during eukaryotic DNA replication. DNA primase activity is required at the DNA replication fork to synthesize short RNA primers for DNA chain elongation on the lagging strand. Although direct physical and functional interactions between helicase and primase have been known in many prokaryotic and viral systems, potential interactions between helicase and primase have not been explored in eukaryotes. Using purified Mcm and DNA primase complexes, a direct physical interaction is detected in pull-down assays between the Mcm2∼7 complex and the hetero-dimeric DNA primase composed of the p48 and p58 subunits. The Mcm4/6/7 complex co-sediments with the primase and the DNA polymerase α-primase complex in glycerol gradient centrifugation and forms a Mcm4/6/7-primase-DNA ternary complex in gel-shift assays. Both the Mcm4/6/7 and Mcm2∼7 complexes stimulate RNA primer synthesis by DNA primase in vitro. However, primase inhibits the Mcm4/6/7 helicase activity and this inhibition is abolished by the addition of competitor DNA. In contrast, the ATP hydrolysis activity of Mcm4/6/7 complex is not affected by primase. Mcm and primase proteins mutually stimulate their DNA-binding activities. Our findings indicate that a direct physical interaction between primase and Mcm proteins may facilitate priming reaction by the former protein, suggesting that efficient DNA synthesis through helicase-primase interactions may be conserved in eukaryotic chromosomes.
Highlights
In eukaryotic cells, the initiation of DNA replication proceeds in two steps: pre-replication complex formation and its activation that converts pre-RC into an active replication fork complex
It has been reported that the complex of Mcm2,7, Cdc45 and GINS (CMG complex) shows an efficient DNA helicase activity [7,8], leading to the suggestion that CMG is a functional form of the helicase machinery for eukaryotic DNA replication
We have explored the possibility that the Mini-chromosome maintenance (Mcm) helicase and the DNA primase physically and functionally interact with each other at the fork
Summary
The initiation of DNA replication proceeds in two steps: pre-replication complex (pre-RC) formation and its activation that converts pre-RC into an active replication fork complex. The Mcm proteins play important roles as a core component of the protein platform for replication initiation and as a key component of the helicase complex which unwinds parental DNA for duplication of leading and lagging strands [1]. It has been reported that the complex of Mcm, Cdc and GINS (CMG complex) shows an efficient DNA helicase activity [7,8], leading to the suggestion that CMG is a functional form of the helicase machinery for eukaryotic DNA replication. An archaeal GINS complex stimulates the Mcm helicase activity [12]. Human GINS complex binds to DNA polymerase a-primase and stimulates its DNA synthetic activity [13]
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