Eukaryotic DNA replication is limited to once per cell cycle because cyclin-dependent kinases (cdks), which are required to fire origins, also prevent re-replication. Components of the replication apparatus, therefore, are 'reset' by cdk inactivation at the end of mitosis. In budding yeast, assembly of Cdc6p-dependent pre-replicative complexes (pre-RCs) at origins can only occur during G1 because it is blocked by cdk1 (Cdc28) together with B cyclins (Clbs). Here we describe a second, separate process which is also blocked by Cdc28/Clb kinase and, therefore, can only occur during G1; the recruitment of DNA polymerase α-primase (pol α) to chromatin. The recruitment of pol α to chromatin during G1 is independent of pre-RC formation since it can occur in the absence of Cdc6 protein. Paradoxically, overproduction of Cdc6p can drive both dephosphorylation and chromatin association of pol α. Overproduction of a mutant in which the N-terminus of Cdc6 has been deleted is unable to drive pol α chromatin binding. Since this mutant is still competent for pre-RC formation and DNA replication, we suggest that Cdc6p overproduction resets pol α chromatin binding by a mechanism which is independent of that used in pre-RC assembly.
Evidence far a Cdc6p-independent mitotic resetting event involving DNA polymerase α / C. Desdouets, C. Santocanale, L.S. Drury, G. Perkins, M. Foiani, P. Plevani, J.F.X. Diffley. - In: EMBO JOURNAL. - ISSN 0261-4189. - 17:14(1998), pp. 4139-4146. [10.1093/emboj/17.14.4139]
Evidence far a Cdc6p-independent mitotic resetting event involving DNA polymerase α
M. Foiani;P. Plevani;
1998
Abstract
Eukaryotic DNA replication is limited to once per cell cycle because cyclin-dependent kinases (cdks), which are required to fire origins, also prevent re-replication. Components of the replication apparatus, therefore, are 'reset' by cdk inactivation at the end of mitosis. In budding yeast, assembly of Cdc6p-dependent pre-replicative complexes (pre-RCs) at origins can only occur during G1 because it is blocked by cdk1 (Cdc28) together with B cyclins (Clbs). Here we describe a second, separate process which is also blocked by Cdc28/Clb kinase and, therefore, can only occur during G1; the recruitment of DNA polymerase α-primase (pol α) to chromatin. The recruitment of pol α to chromatin during G1 is independent of pre-RC formation since it can occur in the absence of Cdc6 protein. Paradoxically, overproduction of Cdc6p can drive both dephosphorylation and chromatin association of pol α. Overproduction of a mutant in which the N-terminus of Cdc6 has been deleted is unable to drive pol α chromatin binding. Since this mutant is still competent for pre-RC formation and DNA replication, we suggest that Cdc6p overproduction resets pol α chromatin binding by a mechanism which is independent of that used in pre-RC assembly.
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