CLN2/YPL256C Literature Guide 
Other names published for CLN2: YPL256C
CLN2 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
CLN2 - Regulatory Role (43)
| Reference | Other Genes Addressed |
|---|---|
| Bhaduri S and Pryciak PM (2011) Cyclin-specific docking motifs promote phosphorylation of yeast signaling proteins by G1/S Cdk complexes. Curr Biol 21(19):1615-23 |
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| Doncic A, et al. (2011) Distinct interactions select and maintain a specific cell fate. Mol Cell 43(4):528-39 |
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| Koivomagi M, et al. (2011) Cascades of multisite phosphorylation control Sic1 destruction at the onset of S phase.LID - 10.1038/nature10560 [doi] Nature () |
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| Koivomagi M, et al. (2011) Dynamics of Cdk1 Substrate Specificity during the Cell Cycle. Mol Cell 42(5):610-23 |
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| Charvin G, et al. (2009) Forced periodic expression of G1 cyclins phase-locks the budding yeast cell cycle. Proc Natl Acad Sci U S A 106(16):6632-7 |
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| Huang D, et al. (2009) Dual regulation by pairs of cyclin-dependent protein kinases and histone deacetylases controls G1 transcription in budding yeast. PLoS Biol 7(9):e1000188 |
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| Kurat CF, et al. (2009) Cdk1/Cdc28-dependent activation of the major triacylglycerol lipase Tgl4 in yeast links lipolysis to cell-cycle progression. Mol Cell 33(1):53-63 |
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| Egelhofer TA, et al. (2008) The septins function in G1 pathways that influence the pattern of cell growth in budding yeast. PLoS ONE 3(4):e2022 |
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| Kono K, et al. (2008) G1/S Cyclin-dependent Kinase Regulates Small GTPase Rho1p through Phosphorylation of RhoGEF Tus1p in Saccharomyces cerevisiae. Mol Biol Cell 19(4):1763-1771 |
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| Skotheim JM, et al. (2008) Positive feedback of G1 cyclins ensures coherent cell cycle entry. Nature 454(7202):291-6 |
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| Kaplan Y and Kupiec M (2007) A role for the yeast cell cycle/splicing factor Cdc40 in the G(1)/S transition. Curr Genet 51(2):123-40 |
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| Yu H and Gerstein M (2006) Genomic analysis of the hierarchical structure of regulatory networks. Proc Natl Acad Sci U S A 103(40):14724-31 |
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| Archambault V, et al. (2004) Targeted proteomic study of the cyclin-Cdk module. Mol Cell 14(6):699-711 |
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| Bryan BA, et al. (2004) Evidence for control of nitrogen metabolism by a START-dependent mechanism in Saccharomyces cerevisiae. Mol Genet Genomics 271(1):72-81 |
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| Costanzo M, et al. (2004) CDK activity antagonizes Whi5, an inhibitor of G1/S transcription in yeast. Cell 117(7):899-913 |
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| Jaspersen SL, et al. (2004) Cdc28/Cdk1 regulates spindle pole body duplication through phosphorylation of Spc42 and Mps1. Dev Cell 7(2):263-74 |
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| Schneider BL, et al. (2004) Growth rate and cell size modulate the synthesis of, and requirement for, G1-phase cyclins at start. Mol Cell Biol 24(24):10802-13 |
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| Willis KA, et al. (2003) The global transcriptional activator of Saccharomyces cerevisiae, Gcr1p, mediates the response to glucose by stimulating protein synthesis and CLN-dependent cell cycle progression. Genetics 165(3):1017-29 |
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| Tanaka S and Diffley JF (2002) Deregulated G1-cyclin expression induces genomic instability by preventing efficient pre-RC formation. Genes Dev 16(20):2639-49 |
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| Tang CS and Reed SI (2002) Phosphorylation of the septin cdc3 in g1 by the cdc28 kinase is essential for efficient septin ring disassembly. Cell Cycle 1(1):42-9 |
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| Edgington NP and Futcher B (2001) Relationship between the function and the location of G1 cyclins in S. cerevisiae. J Cell Sci 114(Pt 24):4599-611 |
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| Haase SB, et al. (2001) Multi-step control of spindle pole body duplication by cyclin-dependent kinase. Nat Cell Biol 3(1):38-42 |
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| Colomina N, et al. (1999) G1 cyclins block the Ime1 pathway to make mitosis and meiosis incompatible in budding yeast. EMBO J 18(2):320-9 |
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| Ho Y, et al. (1999) Regulation of transcription at the Saccharomyces cerevisiae start transition by Stb1, a Swi6-binding protein. Mol Cell Biol 19(8):5267-78 |
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| Loeb JD, et al. (1999) Saccharomyces cerevisiae G1 cyclins are differentially involved in invasive and pseudohyphal growth independent of the filamentation mitogen-activated protein kinase pathway. Genetics 153(4):1535-46 |
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| Vallen EA and Cross FR (1999) Interaction between the MEC1-dependent DNA synthesis checkpoint and G1 cyclin function in Saccharomyces cerevisiae. Genetics 151(2):459-71 |
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| Cross FR and Levine K (1998) Molecular evolution allows bypass of the requirement for activation loop phosphorylation of the Cdc28 cyclin-dependent kinase. Mol Cell Biol 18(5):2923-31 |
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| Jaquenoud M, et al. (1998) The Cdc42p effector Gic2p is targeted for ubiquitin-dependent degradation by the SCFGrr1 complex. EMBO J 17(18):5360-73 |
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| Levine K, et al. (1998) Isolation and characterization of new alleles of the cyclin-dependent kinase gene CDC28 with cyclin-specific functional and biochemical defects. Mol Cell Biol 18(1):290-302 |
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| Nishizawa M, et al. (1998) Phosphorylation of sic1, a cyclin-dependent kinase (Cdk) inhibitor, by Cdk including Pho85 kinase is required for its prompt degradation. Mol Biol Cell 9(9):2393-405 |
