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Journal Abstract Search

262 related items for PubMed ID: 15271990

  • 21. Molecular basis of the essential s phase function of the rad53 checkpoint kinase.
    Hoch NC, Chen ES, Buckland R, Wang SC, Fazio A, Hammet A, Pellicioli A, Chabes A, Tsai MD, Heierhorst J.
    Mol Cell Biol; 2013 Aug; 33(16):3202-13. PubMed ID: 23754745
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  • 22. Use of quantitative mass spectrometric analysis to elucidate the mechanisms of phospho-priming and auto-activation of the checkpoint kinase Rad53 in vivo.
    Chen ES, Hoch NC, Wang SC, Pellicioli A, Heierhorst J, Tsai MD.
    Mol Cell Proteomics; 2014 Feb; 13(2):551-65. PubMed ID: 24302356
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  • 23. Genetic interaction of RAD53 protein kinase with histones is important for DNA replication.
    Holzen TM, Sclafani R.
    Cell Cycle; 2010 Dec 01; 9(23):4735-47. PubMed ID: 21099362
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  • 24. Checkpoint-dependent inhibition of DNA replication initiation by Sld3 and Dbf4 phosphorylation.
    Zegerman P, Diffley JF.
    Nature; 2010 Sep 23; 467(7314):474-8. PubMed ID: 20835227
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  • 26. Activation of Mrc1, a mediator of the replication checkpoint, by telomere erosion.
    Grandin N, Bailly A, Charbonneau M.
    Biol Cell; 2005 Oct 23; 97(10):799-814. PubMed ID: 15760303
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  • 27. Phospho-Priming Confers Functionally Relevant Specificities for Rad53 Kinase Autophosphorylation.
    Chen ES, Weng JH, Chen YH, Wang SC, Liu XX, Huang WC, Matsui T, Kawano Y, Liao JH, Lim LH, Bessho Y, Huang KF, Wu WJ, Tsai MD.
    Biochemistry; 2017 Sep 26; 56(38):5112-5124. PubMed ID: 28858528
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  • 28. Mrc1 is a replication fork component whose phosphorylation in response to DNA replication stress activates Rad53.
    Osborn AJ, Elledge SJ.
    Genes Dev; 2003 Jul 15; 17(14):1755-67. PubMed ID: 12865299
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  • 30. Helicase Subunit Cdc45 Targets the Checkpoint Kinase Rad53 to Both Replication Initiation and Elongation Complexes after Fork Stalling.
    Can G, Kauerhof AC, Macak D, Zegerman P.
    Mol Cell; 2019 Feb 07; 73(3):562-573.e3. PubMed ID: 30595439
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  • 31. The ligand specificity of yeast Rad53 FHA domains at the +3 position is determined by nonconserved residues.
    Yongkiettrakul S, Byeon IJ, Tsai MD.
    Biochemistry; 2004 Apr 06; 43(13):3862-9. PubMed ID: 15049693
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  • 32. Cds1 phosphorylation by Rad3-Rad26 kinase is mediated by forkhead-associated domain interaction with Mrc1.
    Tanaka K, Russell P.
    J Biol Chem; 2004 Jul 30; 279(31):32079-86. PubMed ID: 15173168
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  • 33. Limiting amounts of budding yeast Rad53 S-phase checkpoint activity results in increased resistance to DNA alkylation damage.
    Cordón-Preciado V, Ufano S, Bueno A.
    Nucleic Acids Res; 2006 Jul 30; 34(20):5852-62. PubMed ID: 17062626
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  • 34. Rad53 regulates replication fork restart after DNA damage in Saccharomyces cerevisiae.
    Szyjka SJ, Aparicio JG, Viggiani CJ, Knott S, Xu W, Tavaré S, Aparicio OM.
    Genes Dev; 2008 Jul 15; 22(14):1906-20. PubMed ID: 18628397
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  • 35. The molecular basis of FHA domain:phosphopeptide binding specificity and implications for phospho-dependent signaling mechanisms.
    Durocher D, Taylor IA, Sarbassova D, Haire LF, Westcott SL, Jackson SP, Smerdon SJ, Yaffe MB.
    Mol Cell; 2000 Nov 15; 6(5):1169-82. PubMed ID: 11106755
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  • 39. Prevention of DNA Rereplication Through a Meiotic Recombination Checkpoint Response.
    Najor NA, Weatherford L, Brush GS.
    G3 (Bethesda); 2016 Dec 07; 6(12):3869-3881. PubMed ID: 27678521
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  • 40. Regulation of tolerance to DNA alkylating damage by Dot1 and Rad53 in Saccharomyces cerevisiae.
    Conde F, Ontoso D, Acosta I, Gallego-Sánchez A, Bueno A, San-Segundo PA.
    DNA Repair (Amst); 2010 Oct 05; 9(10):1038-49. PubMed ID: 20674515
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