Abstract
The essential cell cycle target of the Dbf4/Cdc7 kinase (DDK) is the Mcm2-7 helicase complex. Although Mcm4 has been identified as the critical DDK phosphorylation target for DNA replication, it is not well understood which of the six Mcm2-7 subunits actually mediate(s) docking of this kinase complex. We systematically examined the interaction between each Mcm2-7 subunit with Dbf4 and Cdc7 through two-hybrid and co-immunoprecipitation analyses. Strikingly different binding patterns were observed, as Dbf4 interacted most strongly with Mcm2, whereas Cdc7 displayed association with both Mcm4 and Mcm5. We identified an N-terminal Mcm2 region required for interaction with Dbf4. Cells expressing either an Mcm2 mutant lacking this docking domain (Mcm2ΔDDD) or an Mcm4 mutant lacking a previously identified DDK docking domain (Mcm4ΔDDD) displayed modest DNA replication and growth defects. In contrast, combining these two mutations resulted in synthetic lethality, suggesting that Mcm2 and Mcm4 play overlapping roles in the association of DDK with MCM rings at replication origins. Consistent with this model, growth inhibition could be induced in Mcm4ΔDDD cells through Mcm2 overexpression as a means of titrating the Dbf4-MCM ring interaction. This growth inhibition was exacerbated by exposing the cells to either hydroxyurea or methyl methanesulfonate, lending support for a DDK role in stabilizing or restarting replication forks under S phase checkpoint conditions. Finally, constitutive overexpression of each individual MCM subunit was examined, and genotoxic sensitivity was found to be specific to Mcm2 or Mcm4 overexpression, further pointing to the importance of the DDK-MCM ring interaction.
Highlights
Dbf4/Cdc7 triggers DNA replication by phosphorylating Mcm2–7 helicase
To determine the way in which Dbf4/Cdc7 kinase (DDK) associates with the Mcm2–7 helicase, we systematically examined the extent to which Dbf4 and Cdc7 are able to interact with each one of the minichromosome maintenance (MCM) subunits
We carried out co-immunoprecipitation trials using extracts from a series of budding yeast transformants overexpressing Myc-tagged Dbf4 and one each of the MCM subunits that had been tagged with HA epitopes
Summary
Dbf4/Cdc triggers DNA replication by phosphorylating Mcm helicase. Results: Disruption of both the Dbf4-Mcm and Cdc7-Mcm interactions results in growth inhibition and sensitivity to genotoxic stress. Cells expressing either an Mcm mutant lacking this docking domain (Mcm2⌬DDD) or an Mcm mutant lacking a previously identified DDK docking domain (Mcm4⌬DDD) displayed modest DNA replication and growth defects Combining these two mutations resulted in synthetic lethality, suggesting that Mcm and Mcm play overlapping roles in the association of DDK with MCM rings at replication origins. We have previously shown that two conserved regions of Dbf mediate interactions with the MCM complex (motifs C and M) [22, 23] Mutation of these Dbf domains compromises cell growth, DNA replication, and MCM phosphorylation [22,23,24,25]. Simultaneous impairment of Dbf4- and Cdc7-MCM interactions strongly inhibits growth and contributes to increased sensitivity to DNA replication stress
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
