CLB2/YPR119W Literature Guide 
Other names published for CLB2: YPR119W
CLB2 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Cross-species Expression
- Disease Gene Related
- Fungal Related Genes/Proteins
- Non-Fungal Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
CLB2 - Fungal Related Genes/Proteins (30)
| Reference | Other Genes Addressed |
|---|---|
| McInerny CJ (2011) Cell cycle regulated gene expression in yeasts. Adv Genet 73():51-85 |
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| Moriya H, et al. (2011) Overexpression limits of fission yeast cell-cycle regulators in vivo and in silico. Mol Syst Biol 7():556 |
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| Ofir A and Kornitzer D (2010) Candida albicans Cyclin Clb4 Carries S-Phase Cyclin Activity. Eukaryot Cell 9(9):1311-9 |
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| Virtudazo EV, et al. (2010) The single Cdk1-G1 cyclin of Cryptococcus neoformans is not essential for cell cycle progression, but plays important roles in the proper commitment to DNA synthesis and bud emergence in this yeast. FEMS Yeast Res 10(5):605-18 |
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| Michael S, et al. (2008) Discovery of candidate KEN-box motifs using cell cycle keyword enrichment combined with native disorder prediction and motif conservation. Bioinformatics 24(4):453-7 |
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| Morgan DO (2008) SnapShot: cell-cycle regulators I. Cell 135(4):764-764.e1 |
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| Hu F and Aparicio OM (2005) Swe1 regulation and transcriptional control restrict the activity of mitotic cyclins toward replication proteins in Saccharomyces cerevisiae. Proc Natl Acad Sci U S A 102(25):8910-5 |
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| Kadura S and Sazer S (2005) SAC-ing mitotic errors: how the spindle assembly checkpoint (SAC) plays defense against chromosome mis-segregation. Cell Motil Cytoskeleton 61(3):145-60 |
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| Loog M and Morgan DO (2005) Cyclin specificity in the phosphorylation of cyclin-dependent kinase substrates. Nature 434(7029):104-8 |
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| Wagner A (2002) Asymmetric functional divergence of duplicate genes in yeast. Mol Biol Evol 19(10):1760-8 |
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| Cueille N, et al. (2001) Flp1, a fission yeast orthologue of the s. cerevisiae CDC14 gene, is not required for cyclin degradation or rum1p stabilisation at the end of mitosis. J Cell Sci 114(Pt 14):2649-64 |
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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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| McCollum D and Gould KL (2001) Timing is everything: regulation of mitotic exit and cytokinesis by the MEN and SIN. Trends Cell Biol 11(2):89-95 |
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| Donaldson AD (2000) The yeast mitotic cyclin Clb2 cannot substitute for S phase cyclins in replication origin firing. EMBO Rep 1(6):507-12 |
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| Alexandru G, et al. (1999) Sister chromatid separation and chromosome re-duplication are regulated by different mechanisms in response to spindle damage. EMBO J 18(10):2707-21 |
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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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| 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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| Shellman YG, et al. (1999) Identification and characterization of individual cyclin-dependent kinase complexes from Saccharomyces cerevisiae. Yeast 15(4):295-309 |
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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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| Ozer J, et al. (1998) Association of transcription factor IIA with TATA binding protein is required for transcriptional activation of a subset of promoters and cell cycle progression in Saccharomyces cerevisiae. Mol Cell Biol 18(5):2559-70 |
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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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| Damagnez V and Cottarel G (1996) Candida albicans CDK1 and CYB1: cDNA homologues of the cdc2/CDC28 and cdc13/CLB1/CLB2 cell cycle control genes. Gene 172(1):137-41 |
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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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| Dahmann C, et al. (1995) S-phase-promoting cyclin-dependent kinases prevent re-replication by inhibiting the transition of replication origins to a pre-replicative state. Curr Biol 5(11):1257-69 |
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| Amon A, et al. (1993) Mechanisms that help the yeast cell cycle clock tick: G2 cyclins transcriptionally activate G2 cyclins and repress G1 cyclins. Cell 74(6):993-1007 |
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| Stueland CS, et al. (1993) Full activation of p34CDC28 histone H1 kinase activity is unable to promote entry into mitosis in checkpoint-arrested cells of the yeast Saccharomyces cerevisiae. Mol Cell Biol 13(6):3744-55 |
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| Epstein CB and Cross FR (1992) CLB5: a novel B cyclin from budding yeast with a role in S phase. Genes Dev 6(9):1695-706 |
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| Richardson H, et al. (1992) Cyclin-B homologs in Saccharomyces cerevisiae function in S phase and in G2. Genes Dev 6(11):2021-34 |
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| Surana U, et al. (1991) The role of CDC28 and cyclins during mitosis in the budding yeast S. cerevisiae. Cell 65(1):145-61 |
