CDC34/YDR054C Literature Guide 
Other names published for CDC34: DNA6, UBC3, SCF E2 ubiquitin-protein ligase catalytic subunit CDC34, YDR054C
CDC34 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
CDC34 - Function/Process (72)
| Reference | Other Genes Addressed |
|---|---|
| Khong JH, et al. (2012) "Reductional anaphase" in replication-defective cells is caused by ubiquitin-conjugating enzyme Cdc34-mediated deregulation of the spindle. Cell Cycle 11(15):2896-910 |
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| Cocklin R, et al. (2011) New insight into the role of the Cdc34 ubiquitin-conjugating enzyme in cell cycle regulation via Ace2 and Sic1. Genetics 187(3):701-15 |
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| Lass A, et al. (2011) The loop-less tmCdc34 E2 mutant defective in polyubiquitination in vitro and in vivo supports yeast growth in a manner dependent on Ubp14 and Cka2. Cell Div 6(1):7 |
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| Tumusiime S, et al. (2011) Differential regulation of transcription factors Stp1 and Stp2 in the Ssy1-Ptr3-Ssy5 amino acid sensing pathway. J Biol Chem 286(6):4620-31 |
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| Cappell SD, et al. (2010) Systematic analysis of essential genes reveals important regulators of G protein signaling. Mol Cell 38(5):746-57 |
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| Garrenton LS, et al. (2009) Nucleus-specific and cell cycle-regulated degradation of mitogen-activated protein kinase scaffold protein Ste5 contributes to the control of signaling competence. Mol Cell Biol 29(2):582-601 |
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| Kleiger G, et al. (2009) Rapid E2-E3 assembly and disassembly enable processive ubiquitylation of cullin-RING ubiquitin ligase substrates. Cell 139(5):957-68 |
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| Kleiger G, et al. (2009) The Acidic Tail of the Cdc34 Ubiquitin-conjugating Enzyme Functions in Both Binding to and Catalysis with Ubiquitin Ligase SCFCdc4. J Biol Chem 284(52):36012-23 |
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| Aviram S, et al. (2008) Autophosphorylation-induced degradation of the Pho85 cyclin Pcl5 is essential for response to amino acid limitation. Mol Cell Biol 28(22):6858-69 |
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| Zaidi IW, et al. (2008) Rtt101 and Mms1 in budding yeast form a CUL4(DDB1)-like ubiquitin ligase that promotes replication through damaged DNA. EMBO Rep 9(10):1034-40 |
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| Hwang GW (2007) A Ubiquitin-proteasome System as a Factor that Determine the Sensitivity to Methylmercury. Yakugaku Zasshi 127(3):463-8 |
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| Hwang GW, et al. (2007) Ubiquitin-conjugating enzyme Cdc34 mediates cadmium resistance in budding yeast through ubiquitination of the transcription factor Met4. Biochem Biophys Res Commun 363(3):873-8 |
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| Ii T, et al. (2007) The yeast Slx5-Slx8 DNA integrity complex displays ubiquitin ligase activity. Cell Cycle 6(22):2800-9 |
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| Sadowski M, et al. (2007) Cdc34 C-terminal tail phosphorylation regulates Skp1/cullin/F-box (SCF)-mediated ubiquitination and cell cycle progression. Biochem J 405(3):569-81 |
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| Scaglione KM, et al. (2007) SCF E3-mediated autoubiquitination negatively regulates activity of Cdc34 E2 but plays a nonessential role in the catalytic cycle in vitro and in vivo. Mol Cell Biol 27(16):5860-70 |
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| Hiraishi H, et al. (2006) Enhancement of Stress Tolerance in Saccharomyces cerevisiae by Overexpression of Ubiquitin Ligase Rsp5 and Ubiquitin-Conjugating Enzymes. Biosci Biotechnol Biochem 70(11):2762-5 |
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| Petroski MD, et al. (2006) Evaluation of a diffusion-driven mechanism for substrate ubiquitination by the SCF-Cdc34 ubiquitin ligase complex. Mol Cell 24(4):523-34 |
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| Yu L, et al. (2006) A survey of essential gene function in the yeast cell division cycle. Mol Biol Cell 17(11):4736-47 |
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| Altmann K and Westermann B (2005) Role of essential genes in mitochondrial morphogenesis in Saccharomyces cerevisiae. Mol Biol Cell 16(11):5410-7 |
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| Arnason TG, et al. (2005) Novel interaction between Apc5p and Rsp5p in an intracellular signaling pathway in Saccharomyces cerevisiae. Eukaryot Cell 4(1):134-46 |
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| Gardner RG, et al. (2005) Degradation-mediated protein quality control in the nucleus. Cell 120(6):803-15 |
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| Petroski MD and Deshaies RJ (2005) Mechanism of lysine 48-linked ubiquitin-chain synthesis by the cullin-RING ubiquitin-ligase complex SCF-Cdc34. Cell 123(6):1107-20 |
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| Purnapatre K, et al. (2005) Glucose inhibits meiotic DNA replication through SCFGrr1p-dependent destruction of Ime2p kinase. Mol Cell Biol 25(1):440-50 |
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| Bao MZ, et al. (2004) Pheromone-dependent destruction of the Tec1 transcription factor is required for MAP kinase signaling specificity in yeast. Cell 119(7):991-1000 |
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| Flick K, et al. (2004) Proteolysis-independent regulation of the transcription factor Met4 by a single Lys 48-linked ubiquitin chain. Nat Cell Biol 6(7):634-41 |
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| Kus BM, et al. (2004) Functional interaction of 13 yeast SCF complexes with a set of yeast E2 enzymes in vitro. Proteins 54(3):455-67 |
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| Deffenbaugh AE, et al. (2003) Release of ubiquitin-charged Cdc34-S - Ub from the RING domain is essential for ubiquitination of the SCF(Cdc4)-bound substrate Sic1. Cell 114(5):611-22 |
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| Ke PY, et al. (2003) Degradation of human thymidine kinase is dependent on serine-13 phosphorylation: involvement of the SCF-mediated pathway. Biochem J 370(Pt 1):265-73 |
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| Petroski MD and Deshaies RJ (2003) Context of multiubiquitin chain attachment influences the rate of Sic1 degradation. Mol Cell 11(6):1435-44 |
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| Singer T, et al. (2003) Sit4 phosphatase is functionally linked to the ubiquitin-proteasome system. Genetics 164(4):1305-21 |
