Abstract
The committed step in DNA replication initiation is the activation of the Mcm2-7 replicative DNA helicase. Two activators, Cdc45 and GINS, associate with Mcm2-7 at origins of replication to form the CMG complex, which is the active eukaryotic replicative helicase. These activators function during both replication initiation and elongation, however, it remains unclear whether Cdc45 performs the same function(s) during both events. Here, we describe the genetic and biochemical characterization of seven Cdc45 mutations. Three of these mutations are temperature-sensitive lethal mutations in CDC45. Intriguingly, these mutants are defective for DNA replication initiation but not elongation. Consistent with an initiation defect, all three temperature-sensitive mutants are defective for CMG formation. Two of the lethal mutants are located within the RecJ-like domain of Cdc45 confirming the importance of this region for Cdc45 function. The remaining two lethal mutations localize to an intrinsically disordered region (IDR) of Cdc45 that is found in all eukaryotes. Despite the lethality of these IDR substitution mutants, Cdc45 lacking the IDR retains full function. Together, our data provide insights into the functional importance of Cdc45 domains and suggest that the requirements for Cdc45 function during DNA replication initiation are distinct from those involved in replication elongation.
Highlights
Eukaryotic DNA replication requires the sequential loading and activation of the heterohexameric replicative Mcm2-7 DNA helicase at origins of replication
We identified Cdc45 mutants selectively defective for DNA replication initiation but competent for DNA elongation in vivo
We demonstrated that Cdc45-124, Cdc45-238 and Cdc45-485 mutants are defective for DNA replication and CMG formation in vitro
Summary
Eukaryotic DNA replication requires the sequential loading and activation of the heterohexameric replicative Mcm DNA helicase at origins of replication. During G1, Mcm hexamers are loaded onto origins of replication as head-to-head double hexamers encircling doublestranded DNA (dsDNA) [1,2,3,4,5,6]. The initially loaded Mcm complexes remain inactive until the cell enters S-phase. During S-phase, Dbf4-dependent kinase (DDK) and S-phase cyclindependent kinase (S-CDK) promote the association of two helicase activators, Cdc and the GINS complex, with loaded Mcm complexes [7]. DDK phosphorylation of Mcm and Mcm promotes the association of Cdc and Sld3/7 [8,9,10,11].
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