CLB1/YGR108W Literature Guide 
Other names published for CLB1: SCB1, YGR108W
CLB1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Cell Cycle Phase Involved
- Cell Growth and Metabolism
- Cellular Location
- Function/Process
- Genetic Interactions
- Mutants/Phenotypes
- Regulation of
- Regulatory Role
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
CLB1 - Cell Cycle Phase Involved (34)
| Reference | Other Genes Addressed |
|---|---|
| Barberis M, et al. (2011) Sic1 plays a role in timing and oscillatory behaviour of B-type cyclins. Biotechnol Adv 30(1):108-30 |
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| McInerny CJ (2011) Cell cycle regulated gene expression in yeasts. Adv Genet 73():51-85 |
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| Verdicchio MP and Kim S (2011) Identifying targets for intervention by analyzing basins of attraction. Pac Symp Biocomput ():350-61 |
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| Kuczera T, et al. (2010) Dissection of mitotic functions of the yeast cyclin Clb2. Cell Cycle 9(13):2611-9 |
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| To CC and Vohradsky J (2010) Measurement variation determines the gene network topology reconstructed from experimental data: a case study of the yeast cyclin network. FASEB J 24(9):3468-78 |
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| Kar S, et al. (2009) Exploring the roles of noise in the eukaryotic cell cycle. Proc Natl Acad Sci U S A 106(16):6471-6 |
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| Carlile TM and Amon A (2008) Meiosis I is established through division-specific translational control of a cyclin. Cell 133(2):280-91 |
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| Rahal R and Amon A (2008) Mitotic CDKs control the metaphase-anaphase transition and trigger spindle elongation. Genes Dev 22(11):1534-48 |
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| Ikui AE, et al. (2007) Cyclin and cyclin-dependent kinase substrate requirements for preventing rereplication reveal the need for concomitant activation and inhibition. Genetics 175(3):1011-22 |
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| Rowicka M, et al. (2007) High-resolution timing of cell cycle-regulated gene expression. Proc Natl Acad Sci U S A 104(43):16892-7 |
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| Azzam R, et al. (2004) Phosphorylation by cyclin B-Cdk underlies release of mitotic exit activator Cdc14 from the nucleolus. Science 305(5683):516-9 |
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| Bailly E, et al. (2003) Differential cellular localization among mitotic cyclins from Saccharomyces cerevisiae: a new role for the axial budding protein Bud3 in targeting Clb2 to the mother-bud neck. J Cell Sci 116(Pt 20):4119-30 |
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| Clyne RK, et al. (2003) Polo-like kinase Cdc5 promotes chiasmata formation and cosegregation of sister centromeres at meiosis I. Nat Cell Biol 5(5):480-5 |
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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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| Cooper KF, et al. (2000) Ama1p is a meiosis-specific regulator of the anaphase promoting complex/cyclosome in yeast. Proc Natl Acad Sci U S A 97(26):14548-53 |
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| Zhu G, et al. (2000) Two yeast forkhead genes regulate the cell cycle and pseudohyphal growth. Nature 406(6791):90-4 |
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| Ahn SH, et al. (1999) Regulation of G2/M progression by the STE mitogen-activated protein kinase pathway in budding yeast filamentous growth. Mol Biol Cell 10(10):3301-16 |
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| Cross FR, et al. (1999) Specialization and targeting of B-type cyclins. Mol Cell 4(1):11-9 |
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| Haase SB and Reed SI (1999) Evidence that a free-running oscillator drives G1 events in the budding yeast cell cycle. Nature 401(6751):394-7 |
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| Leu JY and Roeder GS (1999) The pachytene checkpoint in S. cerevisiae depends on Swe1-mediated phosphorylation of the cyclin-dependent kinase Cdc28. Mol Cell 4(5):805-14 |
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| Loy CJ, et al. (1999) NDD1, a high-dosage suppressor of cdc28-1N, is essential for expression of a subset of late-S-phase-specific genes in Saccharomyces cerevisiae. Mol Cell Biol 19(5):3312-27 |
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| Chu S and Herskowitz I (1998) Gametogenesis in yeast is regulated by a transcriptional cascade dependent on Ndt80. Mol Cell 1(5):685-96 |
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| Donaldson AD, et al. (1998) CLB5-dependent activation of late replication origins in S. cerevisiae. Mol Cell 2(2):173-82 |
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| Hepworth SR, et al. (1998) NDT80 and the meiotic recombination checkpoint regulate expression of middle sporulation-specific genes in Saccharomyces cerevisiae. Mol Cell Biol 18(10):5750-61 |
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| Schneider BL, et al. (1998) Yeast G1 cyclins are unstable in G1 phase. Nature 395(6697):86-9 |
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| Segal M, et al. (1998) Clb5-associated kinase activity is required early in the spindle pathway for correct preanaphase nuclear positioning in Saccharomyces cerevisiae. J Cell Biol 143(1):135-45 |
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| Blondel M and Mann C (1996) G2 cyclins are required for the degradation of G1 cyclins in yeast. Nature 384(6606):279-82 |
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| Koch C, et al. (1996) Switching transcription on and off during the yeast cell cycle: Cln/Cdc28 kinases activate bound transcription factor SBF (Swi4/Swi6) at start, whereas Clb/Cdc28 kinases displace it from the promoter in G2. Genes Dev 10(2):129-41 |
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| Piatti S, et al. (1996) Activation of S-phase-promoting CDKs in late G1 defines a "point of no return" after which Cdc6 synthesis cannot promote DNA replication in yeast. Genes Dev 10(12):1516-31 |
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| Dahmann C and Futcher B (1995) Specialization of B-type cyclins for mitosis or meiosis in S. cerevisiae. Genetics 140(3):957-63 |
