Characterization of the Yeast Cdc7p/Dbf4p Complex Purified from Insect Cells

Kihara, Makoto; Nakai, Wataru; Asano, Satoshi; Suzuki, Akiko; Kitada, Koji; Kawasaki, Yasuo; Johnston, Leland H.; Sugino, Akio

doi:10.1074/jbc.m003491200

Cited by 68 publications

(77 citation statements)

References 50 publications

(77 reference statements)

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“…The binding of MCM2 to Cdc7 is consistent with the published data that MCM2 protein is the major physiological substrate of Cdc7 (16,35,36) (Fig. 1B, MCM2).…”

Section: Resultssupporting

confidence: 80%

Importin-β Mediates Cdc7 Nuclear Import by Binding to the Kinase Insert II Domain, Which Can Be Antagonized by Importin-α

Kim

Lee

2006

Journal of Biological Chemistry

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We investigated the nuclear import mechanism of Cdc7, which is essential for the initiation of DNA replication. Here we report that importin-␤ binds directly to Cdc7 via the Kinase Insert II domain, promoting its nuclear import. Although both importin-␣ and -␤ bind to Cdc7 via the Kinase Insert II domain in a mutually independent manner, the binding affinity of Cdc7 for importin-␤ is ϳ10 times higher than for importin-␣ at low protein concentrations of an equimolar ratio. Immunodepletion of importin-␤, but not importin-␣, abrogates Cdc7 nuclear import, and the addition of importin-␤ to the importin-depleted cytosol restores Cdc7 nuclear import. Furthermore, transduction of anti-importin-␤, but not anti-importin-␣ antibodies, into live cells inhibits Cdc7 nuclear import. Unexpectedly, we found that Cdc7 nuclear import is inhibited by competitive binding of importin-␣ to Cdc7. Further studies by site-directed mutagenesis suggest that Lys 306 and Lys 309 within the Kinase Insert II domain are critical for Cdc7 nuclear localization.

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“…The binding of MCM2 to Cdc7 is consistent with the published data that MCM2 protein is the major physiological substrate of Cdc7 (16,35,36) (Fig. 1B, MCM2).…”

Section: Resultssupporting

confidence: 80%

Importin-β Mediates Cdc7 Nuclear Import by Binding to the Kinase Insert II Domain, Which Can Be Antagonized by Importin-α

Kim

Lee

2006

Journal of Biological Chemistry

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“…Our original hypothesis was that this lethality results from reduced protein levels of Dbf4, the regulatory subunit of DDK. Consistent with this hypothesis, Rad53 binds (Dohrmann et al 1999;Duncker et al 2002) and phosphorylates Dbf4 (Weinreich and Stillman 1999;Kihara et al 2000). However, we show in this report that the original hypothesis is incorrect and propose a new role for Rad53 in the initiation of DNA replication that is independent of Rad53's known roles in checkpoint or deoxynucleotide regulation.…”

Section: Laborate Regulatory Mechanisms Have Evolvedsupporting

confidence: 47%

Novel Role for Checkpoint Rad53 Protein Kinase in the Initiation of Chromosomal DNA Replication inSaccharomyces cerevisiae

Dohrmann

Sclafani

2006

Genetics

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A novel role for Rad53 in the initiation of DNA replication that is independent of checkpoint or deoxynucleotide regulation is proposed. Rad53 kinase is part of a signal transduction pathway involved in the DNA damage and replication checkpoints, while Cdc7-Dbf4 kinase (DDK) is important for the initiation of DNA replication. In addition to the known cdc7-rad53 synthetic lethality, rad53 mutations suppress mcm5-bob1, a mutation in the replicative MCM helicase that bypasses DDK's essential role. Rad53 kinase activity but neither checkpoint FHA domain is required. Conversely, Rad53 kinase can be activated without DDK. Rad53's role in replication is independent of both DNA and mitotic checkpoints because mutations in other checkpoint genes that act upstream or downstream of RAD53 or in the mitotic checkpoint do not exhibit these phenotypes. Because Rad53 binds an origin of replication mainly through its kinase domain and rad53 null mutants display a minichromosome loss phenotype, Rad53 is important in the initiation of DNA replication, as are DDK and Mcm2-7 proteins. This unique requirement for Rad53 can be suppressed by the deletion of the major histone H3/H4 gene pair, indicating that Rad53 may be regulating initiation by controlling histone protein levels and/or by affecting origin chromatin structure.

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“…In vivo, Dbf4 is phosphorylated and displaced from chromatin in a Rad53-dependent manner in response to HU to prevent Cdc45 and polymerase ␣ loading onto origins and new origin activation (60,61). Mcm2-7 are suggested to be direct targets of the Cdc7-Dbf4 kinase from in vitro studies (58,59,62), and it is speculated that their phosphorylation by Cdc7-Dbf4 may allow Mcm2-7 to bind Cdc45 required for replication initiation (42). The interaction of Dbf4 with the FHA1 may therefore be required to bring the Rad53 kinase close to Cdc7-Dbf4 for its inhibitory phosphorylation in the intra-S checkpoint (27).…”

Section: Fha1 Functions In the Mrc1 Pathwaymentioning

confidence: 99%

“…The most plausible candidate would be the Cdc7 kinase regulatory subunit Dbf4 that can directly bind to the FHA1 domain in co-immunoprecipitation and yeast two-hybrid assays (27). Cdc7-Dbf4 is required for initiation of DNA replication (56, 57) and a likely Rad53 target to inhibit late origin firing, as activated Rad53 can phosphorylate Cdc7-Dbf4 and inhibit its kinase activity in vitro (58,59). In vivo, Dbf4 is phosphorylated and displaced from chromatin in a Rad53-dependent manner in response to HU to prevent Cdc45 and polymerase ␣ loading onto origins and new origin activation (60,61).…”

Section: Fha1 Functions In the Mrc1 Pathwaymentioning

confidence: 99%

Rad53 Kinase Activation-independent Replication Checkpoint Function of the N-terminal Forkhead-associated (FHA1) Domain

Pike

Tenis

Heierhorst

2004

Journal of Biological Chemistry

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Saccharomyces cerevisiae Rad53 has crucial functions in many aspects of the cellular response to DNA damage and replication blocks. To coordinate these diverse roles, Rad53 has two forkhead-associated (FHA) phosphothreonine-binding domains in addition to a kinase domain. Here, we show that the conserved N-terminal FHA1 domain is essential for the function of Rad53 to prevent the firing of late replication origins in response to replication blocks. However, the FHA1 domain is not required for Rad53 activation during S phase, and as a consequence of defective downstream signaling, Rad53 containing an inactive FHA1 domain is hyperphosphorylated in response to replication blocks. The FHA1 mutation dramatically hypersensitizes strains with defects in the cell cycle-wide checkpoint pathways (rad9⌬ and rad17⌬) to DNA damage, but it is largely epistatic with defects in the replication checkpoint (mrc1⌬). Altogether, our data indicate that the FHA1 domain links activated Rad53 to downstream effectors in the replication checkpoint. The results reveal an important mechanistic difference to the homologous Schizosaccharomyces pombe FHA domain that is required for Mrc1-dependent activation of the corresponding Cds1 kinase. Surprisingly, despite the severely impaired replication checkpoint and also G 2 /M checkpoint functions, the FHA1 mutation by itself leads to only moderate viability defects in response to DNA damage, highlighting the importance of functionally redundant pathways.

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Characterization of the Yeast Cdc7p/Dbf4p Complex Purified from Insect Cells

Cited by 68 publications

References 50 publications

Importin-β Mediates Cdc7 Nuclear Import by Binding to the Kinase Insert II Domain, Which Can Be Antagonized by Importin-α

Importin-β Mediates Cdc7 Nuclear Import by Binding to the Kinase Insert II Domain, Which Can Be Antagonized by Importin-α

Novel Role for Checkpoint Rad53 Protein Kinase in the Initiation of Chromosomal DNA Replication inSaccharomyces cerevisiae

Rad53 Kinase Activation-independent Replication Checkpoint Function of the N-terminal Forkhead-associated (FHA1) Domain

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