SAE2/YGL175C Literature Guide 
Other names published for SAE2: COM1, YGL175C
SAE2 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
SAE2 - All Curated References (159)
| Reference | Other Genes Addressed |
|---|---|
| Nicolette ML, et al. (2010) Mre11-Rad50-Xrs2 and Sae2 promote 5' strand resection of DNA double-strand breaks. Nat Struct Mol Biol 17(12):1478-85 |
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| Niu H, et al. (2010) Mechanism of the ATP-dependent DNA end-resection machinery from Saccharomyces cerevisiae. Nature 467(7311):108-11 |
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| Rupnik A, et al. (2010) MRN and the race to the break. Chromosoma 119(2):115-35 |
|
| Shim EY, et al. (2010) Saccharomyces cerevisiae Mre11/Rad50/Xrs2 and Ku proteins regulate association of Exo1 and Dna2 with DNA breaks. EMBO J 29(19):3370-80 |
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| Sundararajan R, et al. (2010) Double-strand break repair pathways protect against CAG/CTG repeat expansions, contractions and repeat-mediated chromosomal fragility in Saccharomyces cerevisiae. Genetics 184(1):65-77 |
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| Szekvolgyi L and Nicolas A (2010) From meiosis to postmeiotic events: homologous recombination is obligatory but flexible. FEBS J 277(3):571-89 |
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| Wellinger RJ (2010) When the caps fall off: Responses to telomere uncapping in yeast. FEBS Lett 584(17):3734-3740 |
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| Wu HY, et al. (2010) Mek1 kinase governs outcomes of meiotic recombination and the checkpoint response. Curr Biol 20(19):1707-16 |
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| Bonetti D, et al. (2009) Multiple pathways regulate 3' overhang generation at S. cerevisiae telomeres. Mol Cell 35(1):70-81 |
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| Budd ME and Campbell JL (2009) Interplay of Mre11 nuclease with Dna2 plus Sgs1 in Rad51-dependent recombinational repair. PLoS One 4(1):e4267 |
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| Casper AM, et al. (2009) Chromosome aberrations resulting from double-strand DNA breaks at a naturally occurring yeast fragile site composed of inverted ty elements are independent of Mre11p and Sae2p. Genetics 183(2):423-39, 1SI-26SI |
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| Clemenson C and Marsolier-Kergoat MC (2009) DNA damage checkpoint inactivation: Adaptation and recovery. DNA Repair (Amst) 8(9):1101-9 |
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| Doksani Y, et al. (2009) Replicon dynamics, dormant origin firing, and terminal fork integrity after double-strand break formation. Cell 137(2):247-58 |
|
| Enserink JM, et al. (2009) Cdc28/Cdk1 positively and negatively affects genome stability in S. cerevisiae. J Cell Biol 185(3):423-37 |
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| Hartsuiker E, et al. (2009) Ctp1CtIP and Rad32Mre11 nuclease activity are required for Rec12Spo11 removal, but Rec12Spo11 removal is dispensable for other MRN-dependent meiotic functions. Mol Cell Biol 29(7):1671-81 |
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| Lee SE and Myung K (2009) Faithful after break-up: suppression of chromosomal translocations. Cell Mol Life Sci 66(19):3149-60 |
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| Lisby M and Rothstein R (2009) Choreography of recombination proteins during the DNA damage response. DNA Repair (Amst) 8(9):1068-76 |
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| Lisnic B, et al. (2009) Size-dependent palindrome-induced intrachromosomal recombination in yeast. DNA Repair (Amst) 8(3):383-9 |
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| Longhese MP, et al. (2009) DNA double-strand breaks in meiosis: checking their formation, processing and repair. DNA Repair (Amst) 8(9):1127-38 |
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| Milman N, et al. (2009) Meiotic DNA double-strand break repair requires two nucleases, MRN and Ctp1, to produce a single size class of Rec12 (Spo11)-oligonucleotide complexes. Mol Cell Biol 29(22):5998-6005 |
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| Murakami H, et al. (2009) Gel electrophoresis assays for analyzing DNA double-strand breaks in Saccharomyces cerevisiae at various spatial resolutions. Methods Mol Biol 557:117-42 |
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| Niu H, et al. (2009) Multiplicity of DNA end resection machineries in chromosome break repair. Genes Dev 23(13):1481-6 |
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| Putnam CD, et al. (2009) Perspectives on the DNA damage and replication checkpoint responses in Saccharomyces cerevisiae. DNA Repair (Amst) 8(9):974-82 |
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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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| Tittel-Elmer M, et al. (2009) The MRX complex stabilizes the replisome independently of the S phase checkpoint during replication stress. EMBO J 28(8):1142-56 |
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| Akamatsu Y, et al. (2008) Molecular characterization of the role of the Schizosaccharomyces pombe nip1+/ctp1+ gene in DNA double-strand break repair in association with the Mre11-Rad50-Nbs1 complex. Mol Cell Biol 28(11):3639-51 |
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| Barlow JH, et al. (2008) Differential regulation of the cellular response to DNA double-strand breaks in G1. Mol Cell 30(1):73-85 |
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| Cartagena-Lirola H, et al. (2008) Role of the Saccharomyces cerevisiae Rad53 checkpoint kinase in signaling double-strand breaks during the meiotic cell cycle. Mol Cell Biol 28(14):4480-93 |
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| Cote AG and Lewis SM (2008) Mus81-dependent double-strand DNA breaks at in vivo-generated cruciform structures in S. cerevisiae. Mol Cell 31(6):800-12 |
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| Huertas P, et al. (2008) CDK targets Sae2 to control DNA-end resection and homologous recombination. Nature 455(7213):689-92 |
