GAL80/YML051W Literature Guide 
Other names published for GAL80: YML051W
GAL80 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
GAL80 - Regulatory Role (33)
| Reference | Other Genes Addressed |
|---|---|
| Ang K, et al. (2012) Mediator acts upstream of the transcriptional activator gal4. PLoS Biol 10(3):e1001290 |
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| Venturelli OS, et al. (2012) Synergistic dual positive feedback loops established by molecular sequestration generate robust bimodal response. Proc Natl Acad Sci U S A 109(48):E3324-33 |
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| Vinh NX, et al. (2012) Issues impacting genetic network reverse engineering algorithm validation using small networks. Biochim Biophys Acta 1824(12):1434-41 |
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| Aburatani S (2011) Application of structure equation modeling for inferring a serial transcriptional regulation in yeast. Gene Regul Syst Bio 5():75-88 |
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| Barnard E and Timson DJ (2011) The GAL genetic switch: visualisation of the interacting proteins by split-EGFP bimolecular fluorescence complementation. J Basic Microbiol 51(3):312-7 |
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| Egriboz O, et al. (2011) Rapid GAL gene switch of Saccharomyces cerevisiae depends on nuclear Gal3, not nucleocytoplasmic trafficking of Gal3 and Gal80. Genetics 189(3):825-36 |
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| Acar M, et al. (2010) A general mechanism for network-dosage compensation in gene circuits. Science 329(5999):1656-60 |
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| Jiang F, et al. (2009) Gene activation by dissociation of an inhibitor from a transcriptional activation domain. Mol Cell Biol 29(20):5604-10 |
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| Sellick CA, et al. (2009) The effect of ligand binding on the galactokinase activity of yeast gal1p and its ability to activate transcription. J Biol Chem 284(1):229-36 |
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| Kumar PR, et al. (2008) NADP regulates the yeast GAL induction system. Science 319(5866):1090-2 |
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| Hawkins KM and Smolke CD (2006) The regulatory roles of the galactose permease and kinase in the induction response of the GAL network in Saccharomyces cerevisiae. J Biol Chem 281(19):13485-92 |
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| Ramsey SA, et al. (2006) Dual feedback loops in the GAL regulon suppress cellular heterogeneity in yeast. Nat Genet 38(9):1082-7 |
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| Smidtas S, et al. (2006) The adaptive filter of the yeast galactose pathway. J Theor Biol 242(2):372-81 |
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| Acar M, et al. (2005) Enhancement of cellular memory by reducing stochastic transitions. Nature 435(7039):228-32 |
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| Bhat PJ and Venkatesh KV (2005) Stochastic variation in the concentration of a repressor activates GAL genetic switch: implications in evolution of regulatory network. FEBS Lett 579(3):597-603 |
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| Pilauri V, et al. (2005) Gal80 dimerization and the yeast GAL gene switch. Genetics 169(4):1903-14 |
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| Scott MS, et al. (2005) Identifying regulatory subnetworks for a set of genes. Mol Cell Proteomics 4(5):683-92 |
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| Siddharthan R, et al. (2005) PhyloGibbs: a Gibbs sampling motif finder that incorporates phylogeny. PLoS Comput Biol 1(7):e67 |
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| Gunji W, et al. (2004) Global analysis of the regulatory network structure of gene expression in Saccharomyces cerevisiae. DNA Res 11(3):163-77 |
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| Ruhela A, et al. (2004) Autoregulation of regulatory proteins is key for dynamic operation of GAL switch in Saccharomyces cerevisiae. FEBS Lett 576(1-2):119-26 |
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| Tanay A, et al. (2004) A global view of the selection forces in the evolution of yeast cis-regulation. Genome Res 14(5):829-34 |
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| Carrozza MJ, et al. (2002) Gal80 confers specificity on HAT complex interactions with activators. J Biol Chem 277(27):24648-52 |
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| Peng G and Hopper JE (2002) Gene activation by interaction of an inhibitor with a cytoplasmic signaling protein. Proc Natl Acad Sci U S A 99(13):8548-53 |
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| Biggar SR and Crabtree GR (2001) Cell signaling can direct either binary or graded transcriptional responses. EMBO J 20(12):3167-76 |
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| Melcher K and Xu HE (2001) Gal80-Gal80 interaction on adjacent Gal4p binding sites is required for complete GAL gene repression. EMBO J 20(4):841-51 |
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| Ostergaard S, et al. (2001) The impact of GAL6, GAL80, and MIG1 on glucose control of the GAL system in Saccharomyces cerevisiae. FEMS Yeast Res 1(1):47-55 |
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| Peng G and Hopper JE (2000) Evidence for Gal3p's cytoplasmic location and Gal80p's dual cytoplasmic-nuclear location implicates new mechanisms for controlling Gal4p activity in Saccharomyces cerevisiae. Mol Cell Biol 20(14):5140-8 |
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| Frolova E, et al. (1999) Binding of the glucose-dependent Mig1p repressor to the GAL1 and GAL4 promoters in vivo: regulationby glucose and chromatin structure. Nucleic Acids Res 27(5):1350-8 |
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| Sil AK, et al. (1999) The Gal3p-Gal80p-Gal4p transcription switch of yeast: Gal3p destabilizes the Gal80p-Gal4p complex in response to galactose and ATP. Mol Cell Biol 19(11):7828-40 |
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| Venkatesh KV, et al. (1999) Quantitative model for Gal4p-mediated expression of the galactose/melibiose regulon in Saccharomyces cerevisiae. Biotechnol Prog 15(1):51-7 |
