LCD1/YDR499W Literature Guide 
Other names published for LCD1: DDC2, PIE1, YDR499W
LCD1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
LCD1 - Mutants/Phenotypes (31)
| Reference | Other Genes Addressed |
|---|---|
| Douglas AC, et al. (2012) Functional analysis with a barcoder yeast gene overexpression system. G3 (Bethesda) 2(10):1279-89 |
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| Manfrini N, et al. (2012) G(1)/S and G(2)/M cyclin-dependent kinase activities commit cells to death in the absence of the S-phase checkpoint. Mol Cell Biol 32(24):4971-85 |
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| Refolio E, et al. (2011) The Ddc2/ATRIP checkpoint protein monitors meiotic recombination intermediates. J Cell Sci 124(Pt 14):2488-500 |
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| Svensson JP, et al. (2011) Genomic phenotyping of the essential and non-essential yeast genome detects novel pathways for alkylation resistance. BMC Syst Biol 5(1):157 |
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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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| Pages V, et al. (2009) Role of DNA damage-induced replication checkpoint in promoting lesion bypass by translesion synthesis in yeast. Genes Dev 23(12):1438-49 |
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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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| Breslow DK, et al. (2008) A comprehensive strategy enabling high-resolution functional analysis of the yeast genome. Nat Methods 5(8):711-8 |
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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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| Choi DH, et al. (2008) The Mutation of a Novel Saccharomyces cerevisiae SRL4 Gene Rescues the Lethality of rad53 and lcd1 Mutations by Modulating dNTP Levels. J Microbiol 46(1):75-80 |
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| Mordes DA, et al. (2008) Dpb11 activates the Mec1-Ddc2 complex. Proc Natl Acad Sci U S A 105(48):18730-4 |
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| Mordes DA, et al. (2008) TopBP1 activates ATR through ATRIP and a PIKK regulatory domain. Genes Dev 22(11):1478-89 |
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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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| Ball HL, et al. (2007) Function of a conserved checkpoint recruitment domain in ATRIP proteins. Mol Cell Biol 27(9):3367-77 |
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| Dubrana K, et al. (2007) The processing of double-strand breaks and binding of single-strand-binding proteins RPA and Rad51 modulate the formation of ATR-kinase foci in yeast. J Cell Sci 120(Pt 23):4209-20 |
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| McSherry TD, et al. (2007) Non-catalytic function for ATR in the checkpoint response. Cell Cycle 6(16):2019-30 |
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| Kanoh Y, et al. (2006) Different requirements for the association of ATR-ATRIP and 9-1-1 to the stalled replication forks. Gene 377:88-95 |
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| Snoek IS and Steensma HY (2006) Why does Kluyveromyces lactis not grow under anaerobic conditions? Comparison of essential anaerobic genes of Saccharomyces cerevisiae with the Kluyveromyces lactis genome. FEMS Yeast Res 6(3):393-403 |
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| Nakada D, et al. (2005) Role of the C terminus of Mec1 checkpoint kinase in its localization to sites of DNA damage. Mol Biol Cell 16(11):5227-35 |
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| Takata H, et al. (2005) Late S phase-specific recruitment of Mre11 complex triggers hierarchical assembly of telomere replication proteins in Saccharomyces cerevisiae. Mol Cell 17(4):573-83 |
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| Wysocki R, et al. (2005) Role of Dot1-dependent histone H3 methylation in G1 and S phase DNA damage checkpoint functions of Rad9. Mol Cell Biol 25(19):8430-43 |
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| Gibson DG, et al. (2004) Diminished S-phase cyclin-dependent kinase function elicits vital Rad53-dependent checkpoint responses in Saccharomyces cerevisiae. Mol Cell Biol 24(23):10208-22 |
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| Lahiri M, et al. (2004) Expanded CAG repeats activate the DNA damage checkpoint pathway. Mol Cell 15(2):287-93 |
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| Lee SJ, et al. (2004) A Ddc2-Rad53 fusion protein can bypass the requirements for RAD9 and MRC1 in Rad53 activation. Mol Biol Cell 15(12):5443-55 |
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| Lin J, et al. (2004) Mutant telomere sequences lead to impaired chromosome separation and a unique checkpoint response. Mol Biol Cell 15(4):1623-34 |
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| Pan X, et al. (2004) A robust toolkit for functional profiling of the yeast genome. Mol Cell 16(3):487-96 |
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| Clerici M, et al. (2001) Hyperactivation of the yeast DNA damage checkpoint by TEL1 and DDC2 overexpression. EMBO J 20(22):6485-98 |
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| Myung K, et al. (2001) Suppression of spontaneous chromosomal rearrangements by S phase checkpoint functions in Saccharomyces cerevisiae. Cell 104(3):397-408 |
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| Wakayama T, et al. (2001) Pie1, a protein interacting with Mec1, controls cell growth and checkpoint responses in Saccharomyces cerevisiae. Mol Cell Biol 21(3):755-64 |
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| Paciotti V, et al. (2000) The checkpoint protein Ddc2, functionally related to S. pombe Rad26, interacts with Mec1 and is regulated by Mec1-dependent phosphorylation in budding yeast. Genes Dev 14(16):2046-59 |
