John C.W. Randell scite author profile

Loading of the Mcm2-7 DNA replicative helicase onto origin-proximal DNA is a critical and tightly regulated event during the initiation of eukaryotic DNA replication. The resulting protein-DNA assembly is called the prereplicative complex (pre-RC), and its formation requires the origin recognition complex (ORC), Cdc6, Cdt1, and ATP. ATP hydrolysis by ORC is required for multiple rounds of Mcm2-7 loading. Here, we investigate the role of ATP hydrolysis by Cdc6 during pre-RC assembly. We find that Cdc6 is an ORC- and origin DNA-dependent ATPase that functions at a step preceding ATP hydrolysis by ORC. Inhibiting Cdc6 ATP hydrolysis stabilizes Cdt1 on origin DNA and prevents Mcm2-7 loading. In contrast, the initial association of Mcm2-7 with the other pre-RC components does not require ATP hydrolysis by Cdc6. Importantly, these coordinated yet distinct functions of ORC and Cdc6 ensure the correct temporal and spatial regulation of pre-RC formation.

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ATP Hydrolysis by ORC Catalyzes Reiterative Mcm2-7 Assembly at a Defined Origin of Replication

Bowers¹,

Randell²,

et al. 2004

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The origin recognition complex (ORC) is a six-subunit, ATP-regulated, DNA binding protein that is required for the formation of the prereplicative complex (pre-RC), an essential replication intermediate formed at each origin of DNA replication. In this study, we investigate the mechanism of ORC function during pre-RC formation and how ATP influences this event. We demonstrate that ATP hydrolysis by ORC requires the coordinate function of the Orc1 and Orc4 subunits. Mutations that eliminate ORC ATP hydrolysis do not support cell viability and show defects in pre-RC formation. Pre-RC formation involves reiterative loading of the putative replicative helicase, Mcm2-7, at the origin. Importantly, preventing ORC ATP hydrolysis inhibits this repeated Mcm2-7 loading. Our findings indicate that ORC is part of a helicase-loading molecular machine that repeatedly assembles Mcm2-7 complexes onto origin DNA and suggest that the assembly of multiple Mcm2-7 complexes plays a critical role in origin function.

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Mec1 Is One of Multiple Kinases that Prime the Mcm2-7 Helicase for Phosphorylation by Cdc7

et al. 2010

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Summary Activation of the eukaryotic replicative DNA helicase, the Mcm2-7 complex, requires phosphorylation by Cdc7/Dbf4 (Dbf4-dependent kinase or DDK), which, in turn, depends on prior phosphorylation of Mcm2-7 by an unknown kinase(s). We identified DDK phosphorylation sites on Mcm4 and Mcm6 and found that phosphorylation of either subunit suffices for cell proliferation. Importantly, prior phosphorylation of either S/T-P or S/T-Q motifs on these subunits is required for DDK phosphorylation of Mcm2-7 and for normal S phase passage. Phosphomimetic mutations of DDK target sites bypass both DDK function and mutation of the priming phosphorylation sites. Mrc1 facilitates Mec1 phosphorylation of the S/T-Q motifs of chromatin-bound Mcm2-7 during S phase to activate replication. Genetic interactions between priming site mutations and MRC1 or TOF1 deletion support a role for these modifications in replication fork stability. These findings identify new mechanisms to modulate origin firing and replication fork assembly during cell cycle progression.

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John C.W. Randell

Sequential ATP Hydrolysis by Cdc6 and ORC Directs Loading of the Mcm2-7 Helicase

ATP Hydrolysis by ORC Catalyzes Reiterative Mcm2-7 Assembly at a Defined Origin of Replication

Mec1 Is One of Multiple Kinases that Prime the Mcm2-7 Helicase for Phosphorylation by Cdc7

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