RTT107/YHR154W Literature Guide 
Other names published for RTT107: ESC4, YHR154W
RTT107 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Strains/Constructs
- Techniques and Reagents
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
RTT107 - Strains/Constructs (32)
| Reference | Other Genes Addressed |
|---|---|
| Li X, et al. (2012) Structure of C-terminal tandem BRCT repeats of Rtt107 protein reveals critical role in interaction with phosphorylated histone H2A during DNA damage repair. J Biol Chem 287(12):9137-46 |
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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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| Leung GP, et al. (2011) Rtt107 is required for recruitment of the SMC5/6 complex to DNA double strand breaks. J Biol Chem 286(29):26250-7 |
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| Reid RJ, et al. (2011) Selective ploidy ablation, a high-throughput plasmid transfer protocol, identifies new genes affecting topoisomerase I-induced DNA damage. Genome Res 21(3):477-86 |
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| Ullal P, et al. (2011) Rtt107 phosphorylation promotes localisation to DNA double-stranded breaks (DSBs) and recombinational repair between sister chromatids. PLoS One 6(5):e20152 |
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| Levesque N, et al. (2010) Loss of H3 K79 trimethylation leads to suppression of Rtt107-dependent DNA damage sensitivity through the translesion synthesis pathway. J Biol Chem 285(45):35113-22 |
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| Mimura S, et al. (2010) Cul8/Rtt101 forms a variety of protein complexes that regulate DNA damage response and transcriptional silencing. J Biol Chem 285(13):9858-67 |
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| Ohouo PY, et al. (2010) DNA damage signaling recruits the Rtt107-Slx4 scaffolds via Dpb11 to mediate replication stress response. Mol Cell 39(2):300-6 |
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| Paek AL, et al. (2010) The role of replication bypass pathways in dicentric chromosome formation in budding yeast. Genetics 186(4):1161-73 |
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| Fujii K, et al. (2009) A role for ubiquitin in the clearance of nonfunctional rRNAs. Genes Dev 23(8):963-74 |
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| Putnam CD, et al. (2009) Specific pathways prevent duplication-mediated genome rearrangements. Nature 460(7258):984-9 |
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| Nyswaner KM, et al. (2008) Chromatin-associated genes protect the yeast genome from ty1 insertional mutagenesis. Genetics 178(1):197-214 |
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| Roberts TM, et al. (2008) Regulation of rtt107 recruitment to stalled DNA replication forks by the cullin rtt101 and the rtt109 acetyltransferase. Mol Biol Cell 19(1):171-80 |
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| Xue X and Lehming N (2008) Nhp6p and Med3p regulate gene expression by controlling the local subunit composition of RNA polymerase II. J Mol Biol 379(2):212-30 |
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| Alvaro D, et al. (2007) Genome-wide analysis of Rad52 foci reveals diverse mechanisms impacting recombination. PLoS Genet 3(12):e228 |
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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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| St Onge RP, et al. (2007) Systematic pathway analysis using high-resolution fitness profiling of combinatorial gene deletions. Nat Genet 39(2):199-206 |
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| Suter B, et al. (2007) Examining protein protein interactions using endogenously tagged yeast arrays: The Cross-and-Capture system. Genome Res 17(12):1774-82 |
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| Chin JK, et al. (2006) Esc4/Rtt107 and the control of recombination during replication. DNA Repair (Amst) 5(5):618-28 |
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| Roberts TM, et al. (2006) Slx4 regulates DNA damage checkpoint-dependent phosphorylation of the BRCT domain protein Rtt107/Esc4. Mol Biol Cell 17(1):539-48 |
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| Woolstencroft RN, et al. (2006) Ccr4 contributes to tolerance of replication stress through control of CRT1 mRNA poly(A) tail length. J Cell Sci 119(Pt 24):5178-92 |
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| Zappulla DC, et al. (2006) Rtt107/Esc4 binds silent chromatin and DNA repair proteins using different BRCT motifs. BMC Mol Biol 7():40 |
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| Baldwin EL, et al. (2005) Mms22p protects Saccharomyces cerevisiae from DNA damage induced by topoisomerase II. Nucleic Acids Res 33(3):1021-30 |
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| Rouse J (2004) Esc4p, a new target of Mec1p (ATR), promotes resumption of DNA synthesis after DNA damage. EMBO J 23(5):1188-97 |
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| Tong AH, et al. (2004) Global mapping of the yeast genetic interaction network. Science 303(5659):808-13 |
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| Huh WK, et al. (2003) Global analysis of protein localization in budding yeast. Nature 425(6959):686-91 |
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| Begley TJ, et al. (2002) Damage recovery pathways in Saccharomyces cerevisiae revealed by genomic phenotyping and interactome mapping. Mol Cancer Res 1(2):103-12 |
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| Chang M, et al. (2002) A genome-wide screen for methyl methanesulfonate-sensitive mutants reveals genes required for S phase progression in the presence of DNA damage. Proc Natl Acad Sci U S A 99(26):16934-9 |
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| Fleming JA, et al. (2002) Complementary whole-genome technologies reveal the cellular response to proteasome inhibition by PS-341. Proc Natl Acad Sci U S A 99(3):1461-6 |
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| Hanway D, et al. (2002) Previously uncharacterized genes in the UV- and MMS-induced DNA damage response in yeast. Proc Natl Acad Sci U S A 99(16):10605-10 |
