Carol Cooley scite author profile

SummaryThe firing of eukaryotic origins of DNA replication requires CDK and DDK kinase activities. DDK, in particular, is involved in setting the temporal program of origin activation, a conserved feature of eukaryotes. Rif1, originally identified as a telomeric protein, was recently implicated in specifying replication timing in yeast and mammals. We show that this function of Rif1 depends on its interaction with PP1 phosphatases. Mutations of two PP1 docking motifs in Rif1 lead to early replication of telomeres in budding yeast and misregulation of origin firing in fission yeast. Several lines of evidence indicate that Rif1/PP1 counteract DDK activity on the replicative MCM helicase. Our data suggest that the PP1/Rif1 interaction is downregulated by the phosphorylation of Rif1, most likely by CDK/DDK. These findings elucidate the mechanism of action of Rif1 in the control of DNA replication and demonstrate a role of PP1 phosphatases in the regulation of origin firing.

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Roles of Vertebrate Smc5 in Sister Chromatid Cohesion and Homologous Recombinational Repair

Stephan

Kliszczak

Dodson

et al. 2011

Molecular and Cellular Biology

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The structural maintenance of chromosomes (Smc) family members Smc5 and Smc6 are both essential in budding and fission yeasts. Yeast smc5/6 mutants are hypersensitive to DNA damage, and Smc5/6 is recruited to HO-induced double-strand breaks (DSBs), facilitating intersister chromatid recombinational repair. To determine the role of the vertebrate Smc5/6 complex during the normal cell cycle, we generated an Smc5-deficient chicken DT40 cell line using gene targeting. Surprisingly, Smc5؊ cells were viable, although they proliferated more slowly than controls and showed mitotic abnormalities. Smc5-deficient cells were sensitive to methyl methanesulfonate and ionizing radiation (IR) and showed increased chromosome aberration levels upon irradiation. Formation and resolution of Rad51 and gamma-H2AX foci after irradiation were altered in Smc5 mutants, suggesting defects in homologous recombinational (HR) repair of DNA damage. Ku70 ؊/؊ Smc5؊ cells were more sensitive to IR than either single mutant, with Rad54 ؊/؊ Smc5 ؊ cells being no more sensitive than Rad54 ؊/؊ cells, consistent with an HR function for the vertebrate Smc5/6 complex. Although gene targeting occurred at wild-type levels, recombinational repair of induced double-strand breaks was reduced in Smc5 ؊ cells. Smc5 loss increased sister chromatid exchanges and sister chromatid separation distances in mitotic chromosomes. We conclude that Smc5/6 regulates recombinational repair by ensuring appropriate sister chromatid cohesion.

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Trf1 Is Not Required for Proliferation or Functional Telomere Maintenance in Chicken DT40 Cells

Cooley

Baird

Faure

et al. 2009

MBoC

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The telomere end-protection complex prevents the ends of linear eukaryotic chromosomes from degradation or inappropriate DNA repair. The homodimeric double-stranded DNA-binding protein, Trf1, is a component of this complex and is essential for mouse embryonic development. To define the requirement for Trf1 in somatic cells, we deleted Trf1 in chicken DT40 cells by gene targeting. Trf1-deficient cells proliferated as rapidly as control cells and showed telomeric localization of Trf2, Rap1, and Pot1. Telomeric G-strand overhang lengths were increased in late-passage Trf1-deficient cells, although telomere lengths were unaffected by Trf1 deficiency, as determined by denaturing Southern and quantitative FISH analysis. Although we observed some clonal variation in terminal telomere fragment lengths, this did not correlate with cellular Trf1 levels. Trf1 was not required for telomere seeding, indicating that de novo telomere formation can proceed without Trf1. The Pin2 isoform and a novel exon 4, 5-deleted isoform localized to telomeres in Trf1-deficient cells. Trf1-deficient cells were sensitive to DNA damage induced by ionizing radiation. Our data demonstrate that chicken DT40 B cells do not require Trf1 for functional telomere structure and suggest that Trf1 may have additional, nontelomeric roles involved in maintaining genome stability.

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Ku70 prevents genome instability resulting from heterozygosity of the telomerase RNA component in a vertebrate tumour line

et al. 2008

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Tel1^ATM dictates the replication timing of short yeast telomeres

et al. 2014

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Telomerase action is temporally linked to DNA replication. Although yeast telomeres are normally late replicating, telomere shortening leads to early firing of subtelomeric DNA replication origins. We show that double-strand breaks flanked by short telomeric arrays cause origin firing early in S phase at late-replicating loci and that this effect on origin firing time is dependent on the Tel1ATM checkpoint kinase. The effect of Tel1ATM on telomere replication timing extends to endogenous telomeres and is stronger than that elicited by Rif1 loss. These results establish that Tel1ATM specifies not only the extent but also the timing of telomerase recruitment.

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Carol Cooley

Protein Phosphatase 1 Recruitment by Rif1 Regulates DNA Replication Origin Firing by Counteracting DDK Activity

Roles of Vertebrate Smc5 in Sister Chromatid Cohesion and Homologous Recombinational Repair

Trf1 Is Not Required for Proliferation or Functional Telomere Maintenance in Chicken DT40 Cells

Ku70 prevents genome instability resulting from heterozygosity of the telomerase RNA component in a vertebrate tumour line

Tel1^ATM dictates the replication timing of short yeast telomeres

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Carol Cooley

Protein Phosphatase 1 Recruitment by Rif1 Regulates DNA Replication Origin Firing by Counteracting DDK Activity

Roles of Vertebrate Smc5 in Sister Chromatid Cohesion and Homologous Recombinational Repair

Trf1 Is Not Required for Proliferation or Functional Telomere Maintenance in Chicken DT40 Cells

Ku70 prevents genome instability resulting from heterozygosity of the telomerase RNA component in a vertebrate tumour line

Tel1ATM dictates the replication timing of short yeast telomeres

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Product

Resources

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Tel1^ATM dictates the replication timing of short yeast telomeres