CDC20/YGL116W Literature Guide

Other names published for CDC20: PAC5, YGL116W

CDC20 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

Gene Product Information

Related Genes/Proteins

Research Aids

Genome-wide Analysis

Proteome-wide Analysis

Large-scale protein modification

Additional Information

CDC20 - Regulatory Role (27)

Reference	Other Genes Addressed
Mallory MJ, et al. (2012) Gcn5p-dependent acetylation induces degradation of the meiotic transcriptional repressor Ume6p. Mol Biol Cell 23(9):1609-17	GCN5 \| RPD3 \| SPO13 \| SPS100 \| SPS4 \| UME6
Matyskiela ME and Morgan DO (2009) Analysis of activator-binding sites on the APC/C supports a cooperative substrate-binding mechanism. Mol Cell 34(1):68-80	CDC16 \| CDC23 \| CDC27 \| CDH1
Pondugula S, et al. (2009) Coupling phosphate homeostasis to cell cycle-specific transcription: mitotic activation of Saccharomyces cerevisiae PHO5 by Mcm1 and Forkhead proteins. Mol Cell Biol 29(18):4891-905	CDC15 \| CLB2 \| CTS1 \| FKH1 \| FKH2 \| MCM1 \| PHO4 \| PHO5 \| SDS3
Keyes BE, et al. (2008) Differential regulation of anaphase promoting complex/cyclosome substrates by the spindle assembly checkpoint in Saccharomyces cerevisiae. Genetics 178(1):589-91	CLB5 \| PDS1
Ko N, et al. (2007) Identification of Yeast IQGAP (Iqg1p) as an Anaphase-Promoting-Complex Substrate and Its Role in Actomyosin-Ring-Independent Cytokinesis. Mol Biol Cell 18(12):5139-53	AMA1 \| APC1 \| APC11 \| APC2 \| APC4 \| APC5 \| APC9 \| CDC16 \| CDC23 \| CDC26 \| CDC27 \| CDH1 \| CLB2 \| CYK3 \| MORE
Mallory MJ, et al. (2007) Meiosis-specific destruction of the Ume6p repressor by the Cdc20-directed APC/C. Mol Cell 27(6):951-61	CDC25 \| IME1 \| IME2 \| NDT80 \| SPS100 \| SPS2 \| SPS4 \| UME6
Palframan WJ, et al. (2006) Anaphase inactivation of the spindle checkpoint. Science 313(5787):680-4	CDC15 \| CDH1 \| CLB2 \| MAD1 \| MAD2 \| MPS1 \| PDS1
Nasmyth K (2005) How do so few control so many? Cell 120(6):739-46	MAD1 \| MAD2 \| PDS1
Passmore LA, et al. (2005) Purification and assay of the budding yeast anaphase-promoting complex. Methods Enzymol 398():195-219	APC1 \| APC11 \| APC2 \| APC4 \| APC5 \| APC9 \| CDC16 \| CDC23 \| CDC26 \| CDC27 \| CDH1 \| CLB2 \| DOC1 \| HSL1 \| MORE
Pan J and Chen RH (2004) Spindle checkpoint regulates Cdc20p stability in Saccharomyces cerevisiae. Genes Dev 18(12):1439-51	BUB1 \| CDH1 \| MAD2 \| MAD3 \| PDS1
Bolte M, et al. (2003) Synergistic inhibition of APC/C by glucose and activated Ras proteins can be mediated by each of the Tpk1-3 proteins in Saccharomyces cerevisiae. Microbiology 149(Pt 5):1205-16	CDC27 \| DOC1 \| RAS2 \| STE11 \| TPK1 \| TPK2 \| TPK3
Lee BH and Amon A (2003) Role of Polo-like kinase CDC5 in programming meiosis I chromosome segregation. Science 300(5618):482-6	CDC14 \| CDC5 \| MAM1 \| PDS1 \| REC8 \| SPO11 \| SPO12
Kitagawa R, et al. (2002) The Cdc20 homolog, FZY-1, and its interacting protein, IFY-1, are required for proper chromosome segregation in Caenorhabditis elegans. Curr Biol 12(24):2118-23	APC4 \| ESP1 \| MAD1 \| MAD2 \| MCD1 \| PDS1
Gordon DM and Roof DM (2001) Degradation of the kinesin Kip1p at anaphase onset is mediated by the anaphase-promoting complex and Cdc20p. Proc Natl Acad Sci U S A 98(22):12515-20	CDC34 \| KIP1
Huang JN, et al. (2001) Activity of the APC(Cdh1) form of the anaphase-promoting complex persists until S phase and prevents the premature expression of Cdc20p. J Cell Biol 154(1):85-94	ASE1 \| CDC16 \| CDC23 \| CDC4 \| CDH1 \| CLB2 \| CLB5 \| CLB6 \| HTB1 \| SIC1
Noton E and Diffley JF (2000) CDK inactivation is the only essential function of the APC/C and the mitotic exit network proteins for origin resetting during mitosis. Mol Cell 5(1):85-95	CDC14 \| CDC15 \| CDC16 \| CDC28 \| CDC5 \| CDC6 \| CDC7
Rudner AD, et al. (2000) Cdc28 activates exit from mitosis in budding yeast. J Cell Biol 149(7):1361-76	CDC28 \| CDH1
Yeong FM, et al. (2000) Exit from mitosis in budding yeast: biphasic inactivation of the Cdc28-Clb2 mitotic kinase and the role of Cdc20. Mol Cell 5(3):501-11	CDC28 \| CDH1 \| CLB2
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	BFA1 \| BUB1 \| BUB2 \| CDC14 \| CDC28 \| CDH1 \| CLB1 \| CLB2 \| CLB3 \| CLB4 \| MAD1 \| MAD2 \| MAD3 \| MPS1 \| MORE
Hardwick KG, et al. (1999) Lesions in many different spindle components activate the spindle checkpoint in the budding yeast Saccharomyces cerevisiae. Genetics 152(2):509-18	CDC13 \| CDC15 \| CDC16 \| CDC23 \| CIN8 \| KAR3 \| MAD1 \| MAD2 \| MAD3 \| TUB2
Shirayama M, et al. (1999) APC(Cdc20) promotes exit from mitosis by destroying the anaphase inhibitor Pds1 and cyclin Clb5. Nature 402(6758):203-7	CDC14 \| CDC28 \| CDH1 \| CLB5 \| PDS1 \| SIC1
Charles JF, et al. (1998) The Polo-related kinase Cdc5 activates and is destroyed by the mitotic cyclin destruction machinery in S. cerevisiae. Curr Biol 8(9):497-507	CDC28 \| CDC5 \| CDH1 \| CLB2 \| PDS1
Lim HH, et al. (1998) Cdc20 is essential for the cyclosome-mediated proteolysis of both Pds1 and Clb2 during M phase in budding yeast. Curr Biol 8(4):231-4	CDC23 \| CDC34 \| CLB2 \| PDS1
Schott EJ and Hoyt MA (1998) Dominant alleles of Saccharomyces cerevisiae CDC20 reveal its role in promoting anaphase. Genetics 148(2):599-610	MPS1 \| PDS1
Shirayama M, et al. (1998) The Polo-like kinase Cdc5p and the WD-repeat protein Cdc20p/fizzy are regulators and substrates of the anaphase promoting complex in Saccharomyces cerevisiae. EMBO J 17(5):1336-49	CDC23 \| CDC5 \| CDH1 \| CLB2 \| PDS1
Schwab M, et al. (1997) Yeast Hct1 is a regulator of Clb2 cyclin proteolysis. Cell 90(4):683-93	CDC23 \| CDH1 \| CLB2 \| SIC1
Visintin R, et al. (1997) CDC20 and CDH1: a family of substrate-specific activators of APC-dependent proteolysis. Science 278(5337):460-3	ASE1 \| CDH1 \| CLB2 \| PDS1