CLN3/YAL040C Literature Guide 
Other names published for CLN3: DAF1, FUN10, WHI1, YAL040C
CLN3 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
CLN3 - Regulatory Role (35)
| Reference | Other Genes Addressed |
|---|---|
| Vohradska E and Vohradsky J (2011) Virtual mutagenesis of the yeast cyclins genetic network reveals complex dynamics of transcriptional control networks. PLoS One 6(4):e18827 |
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| Gurevich V and Kassir Y (2010) A switch from a gradient to a threshold mode in the regulation of a transcriptional cascade promotes robust execution of meiosis in budding yeast. PLoS One 5(6):e11005 |
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| Ferrezuelo F, et al. (2009) Bck2 is a phase-independent activator of cell cycle-regulated genes in yeast. Cell Cycle 8(2):239-52 |
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| Wang H, et al. (2009) Recruitment of Cln3 cyclin to promoters controls cell cycle entry via histone deacetylase and other targets. PLoS Biol 7(9):e1000189 |
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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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| Skotheim JM, et al. (2008) Positive feedback of G1 cyclins ensures coherent cell cycle entry. Nature 454(7202):291-6 |
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| Hogan GJ, et al. (2006) Cell cycle-specified fluctuation of nucleosome occupancy at gene promoters. PLoS Genet 2(9):e158 |
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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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| Miller ME, et al. (2005) Identification of novel and conserved functional and structural elements of the G1 cyclin Cln3 important for interactions with the CDK Cdc28 in Saccharomyces cerevisiae. Yeast 22(13):1021-36 |
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| Alberghina L, et al. (2004) A cell sizer network involving Cln3 and Far1 controls entrance into S phase in the mitotic cycle of budding yeast. J Cell Biol 167(3):433-43 |
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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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| Pathak R, et al. (2004) Gid8p (Dcr1p) and Dcr2p function in a common pathway to promote START completion in Saccharomyces cerevisiae. Eukaryot Cell 3(6):1627-38 |
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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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| de Bruin RA, et al. (2004) Cln3 activates G1-specific transcription via phosphorylation of the SBF bound repressor Whi5. Cell 117(7):887-98 |
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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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| Purnapatre K, et al. (2002) The CLN3/SWI6/CLN2 pathway and SNF1 act sequentially to regulate meiotic initiation in Saccharomyces cerevisiae. Genes Cells 7(7):675-91 |
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| Sudbery P (2002) Cell biology. When wee meets whi. Science 297(5580):351-2 |
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| Wijnen H, et al. (2002) The G(1) cyclin Cln3 promotes cell cycle entry via the transcription factor Swi6. Mol Cell Biol 22(12):4402-18 |
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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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| Cherkasova V, et al. (1999) Fus3p and Kss1p control G1 arrest in Saccharomyces cerevisiae through a balance of distinct arrest and proliferative functions that operate in parallel with Far1p. Genetics 151(3):989-1004 |
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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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| Koch C, et al. (1999) A role for Ctr9p and Paf1p in the regulation G1 cyclin expression in yeast. Nucleic Acids Res 27(10):2126-34 |
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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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| Hall DD, et al. (1998) Regulation of the Cln3-Cdc28 kinase by cAMP in Saccharomyces cerevisiae. EMBO J 17(15):4370-8 |
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| Jeoung DI, et al. (1998) Cln3-associated kinase activity in Saccharomyces cerevisiae is regulated by the mating factor pathway. Mol Cell Biol 18(1):433-41 |
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| Spellman PT, et al. (1998) Comprehensive identification of cell cycle-regulated genes of the yeast Saccharomyces cerevisiae by microarray hybridization. Mol Biol Cell 9(12):3273-97 |
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| Amon A (1997) Regulation of B-type cyclin proteolysis by Cdc28-associated kinases in budding yeast. EMBO J 16(10):2693-702 |
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| Gallego C, et al. (1997) The Cln3 cyclin is down-regulated by translational repression and degradation during the G1 arrest caused by nitrogen deprivation in budding yeast. EMBO J 16(23):7196-206 |
