CHK1/YBR274W Literature Guide 
Other names published for CHK1: YBR274W
CHK1 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
CHK1 - Additional Literature (86)
| Reference | Other Genes Addressed |
|---|---|
| Alver B, et al. (2013) Novel checkpoint pathway organization promotes genome stability in stationary-phase yeast cells. Mol Cell Biol 33(2):457-72 |
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| Ferrari M, et al. (2013) Tid1/Rdh54 translocase is phosphorylated through a Mec1- and Rad53-dependent manner in the presence of DSB lesions in budding yeast. DNA Repair (Amst) 12(5):347-55 |
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| Kozmin SG and Jinks-Robertson S (2013) The Mechanism of Nucleotide Excision Repair-Mediated UV-Induced Mutagenesis in Nonproliferating Cells. Genetics 193(3):803-17 |
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| Collura A, et al. (2012) Abasic sites linked to dUTP incorporation in DNA are a major cause of spontaneous mutations in absence of base excision repair and Rad17-Mec3-Ddc1 (9-1-1) DNA damage checkpoint clamp in Saccharomyces cerevisiae. DNA Repair (Amst) 11(3):294-303 |
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| Eapen VV, et al. (2012) The Saccharomyces cerevisiae chromatin remodeler Fun30 regulates DNA end resection and checkpoint deactivation. Mol Cell Biol 32(22):4727-40 |
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| Chang HY, et al. (2011) Genome-wide analysis to identify pathways affecting telomere-initiated senescence in budding yeast. G3 (Bethesda) 1(3):197-208 |
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| Chen X, et al. (2011) Cell cycle regulation of DNA double-strand break end resection by Cdk1-dependent Dna2 phosphorylation.LID - 10.1038/nsmb.2105 [doi] Nat Struct Mol Biol () |
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| Fasolo J, et al. (2011) Diverse protein kinase interactions identified by protein microarrays reveal novel connections between cellular processes. Genes Dev 25(7):767-78 |
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| Gehlen LR, et al. (2011) Nuclear geometry and rapid mitosis ensure asymmetric episome segregation in yeast. Curr Biol 21(1):25-33 |
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| Searle JS, et al. (2011) Proteins in the Nutrient-Sensing and DNA Damage Checkpoint Pathways Cooperate to Restrain Mitotic Progression following DNA Damage. PLoS Genet 7(7):e1002176 |
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| Breitkreutz A, et al. (2010) A global protein kinase and phosphatase interaction network in yeast. Science 328(5981):1043-6 |
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| Janke R, et al. (2010) A truncated DNA-damage-signaling response is activated after DSB formation in the G1 phase of Saccharomyces cerevisiae. Nucleic Acids Res 38(7):2302-13 |
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| Kile AC and Koepp DM (2010) Activation of the s-phase checkpoint inhibits degradation of the f-box protein dia2. Mol Cell Biol 30(1):160-71 |
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| Taschner M, et al. (2010) A role for checkpoint kinase-dependent Rad26 phosphorylation in transcription-coupled DNA repair in Saccharomyces cerevisiae. Mol Cell Biol 30(2):436-46 |
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| Zhang K, et al. (2010) Unrestrictive identification of non-phosphorylation PTMs in yeast kinases by MS and PTMap. Proteomics 10(5):896-903 |
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| Lin YH, et al. (2009) Recruitment of rad51 and rad52 to short telomeres triggers a mec1-mediated hypersensitivity to double-stranded DNA breaks in senescent budding yeast. PLoS One 4(12):e8224 |
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| Addinall SG, et al. (2008) A Genomewide Suppressor and Enhancer Analysis of cdc13-1 Reveals Varied Cellular Processes Influencing Telomere Capping in Saccharomyces cerevisiae. Genetics 180(4):2251-66 |
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| Fasullo M and Sun M (2008) The Saccharomyces cerevisiae checkpoint genes RAD9, CHK1 and PDS1 are required for elevated homologous recombination in a mec1 (ATR) hypomorphic mutant. Cell Cycle 7(15):2418-26 |
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| Gao X, et al. (2008) Proteome-wide prediction of PKA phosphorylation sites in eukaryotic kingdom. Genomics 92(6):457-63 |
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| Grandin N and Charbonneau M (2008) Budding yeast 14-3-3 proteins contribute to the robustness of the DNA damage and spindle checkpoints. Cell Cycle 7(17):2749-61 |
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| Lee K, et al. (2008) Saccharomyces cerevisiae ATM orthologue suppresses break-induced chromosome translocations. Nature 454(7203):543-6 |
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| Matsuura K, et al. (2008) Cleavage-mediated Activation of Chk1 during Apoptosis. J Biol Chem 283(37):25485-91 |
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| McCue PP and Phang JM (2008) Identification of Human Intracellular Targets of the Medicinal Herb St. John's Wort by Chemical-Genetic Profiling in Yeast. J Agric Food Chem 56(22):11011-11017 |
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| Morin I, et al. (2008) Checkpoint-dependent phosphorylation of Exo1 modulates the DNA damage response. EMBO J 27(18):2400-10 |
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| Puddu F, et al. (2008) Phosphorylation of the budding yeast 9-1-1 complex is required for Dpb11 function in the full activation of the UV-induced DNA damage checkpoint. Mol Cell Biol 28(15):4782-93 |
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| Razidlo DF and Lahue RS (2008) Mrc1, Tof1 and Csm3 inhibit CAG.CTG repeat instability by at least two mechanisms. DNA Repair (Amst) 7(4):633-40 |
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| Yamamoto A, et al. (2008) Phenyl hydroquinone, an Ames test-negative carcinogen, induces Hog1-dependent stress response signaling. FEBS J 275(22):5733-44 |
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| Bracesco N, et al. (2007) Roles of Saccharomyces cerevisiae RAD17 and CHK1 checkpoint genes in the repair of double-strand breaks in cycling cells. Radiat Environ Biophys 46(4):401-7 |
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| Curcio MJ, et al. (2007) S-phase checkpoint pathways stimulate the mobility of the retrovirus-like transposon Ty1. Mol Cell Biol 27(24):8874-85 |
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| Grandin N and Charbonneau M (2007) Control of the yeast telomeric senescence survival pathways of recombination by the Mec1 and Mec3 DNA damage sensors and RPA. Nucleic Acids Res 35(3):822-38 |
