CTT1/YGR088W Literature Guide 
Other names published for CTT1: SPS101, catalase T, YGR088W
CTT1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- DNA/RNA Sequence Features
- RNA Levels and Processing
- Transcription
- Translational Regulation
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
CTT1 - RNA Levels and Processing (45)
| Reference | Other Genes Addressed |
|---|---|
| Duenas-Sanchez R, et al. (2012) Transcriptional regulation of fermentative and respiratory metabolism in Saccharomyces cerevisiae industrial bakers' strains. FEMS Yeast Res 12(6):625-36 |
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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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| Collinson EJ, et al. (2011) The Yeast Homolog of Heme Oxygenase-1 Affords Cellular Antioxidant Protection via the Transcriptional Regulation of Known Antioxidant Genes. J Biol Chem 286(3):2205-14 |
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| Oba T, et al. (2011) Properties of a high malic acid-producing strains of Saccharomyces cerevisiae isolated from sake mash. Biosci Biotechnol Biochem 75(10):2025-9 |
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| Santos A and Marquina D (2011) The transcriptional response of Saccharomyces cerevisiae to proapoptotic concentrations of Pichia membranifaciens killer toxin. Fungal Genet Biol 48(10):979-89 |
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| Jimenez A, et al. (2010) The biological activity of the wine anthocyanins delphinidin and petunidin is mediated through Msn2 and Msn4 in Saccharomyces cerevisiae. FEMS Yeast Res 10(7):858-69 |
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| Phan VT, et al. (2010) The RasGAP proteins Ira2 and neurofibromin are negatively regulated by Gpb1 in yeast and ETEA in humans. Mol Cell Biol 30(9):2264-79 |
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| Garcia R, et al. (2009) The High Osmotic Response and Cell Wall Integrity Pathways Cooperate to Regulate Transcriptional Responses to Zymolyase-induced Cell Wall Stress in Saccharomyces cerevisiae. J Biol Chem 284(16):10901-11 |
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| Klopf E, et al. (2009) Cooperation between the INO80 complex and histone chaperones determines adaptation of stress gene transcription in the yeast Saccharomyces cerevisiae. Mol Cell Biol 29(18):4994-5007 |
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| Roberts GG 3rd and Hudson AP (2009) Rsf1p is required for an efficient metabolic shift from fermentative to glycerol-based respiratory growth in S. cerevisiae. Yeast 26(2):95-110 |
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| Rosonina E, et al. (2009) Sub1 Functions in Osmoregulation and in Transcription by both RNA Polymerases II and III. Mol Cell Biol 29(8):2308-21 |
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| Sahoo R, et al. (2009) A novel role of catalase in detoxification of peroxynitrite in S. cerevisiae. Biochem Biophys Res Commun 385(4):507-11 |
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| Verbelen PJ, et al. (2009) The influence of yeast oxygenation prior to brewery fermentation on yeast metabolism and the oxidative stress response. FEMS Yeast Res 9(2):226-39 |
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| Woo DK, et al. (2009) Multiple pathways of mitochondrial-nuclear communication in yeast: Intergenomic signaling involves ABF1 and affects a different set of genes than retrograde regulation. Biochim Biophys Acta 1789(2):135-45 |
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| Bandhakavi S, et al. (2008) Hsf1 Activation Inhibits Rapamycin Resistance and TOR Signaling in Yeast Revealed by Combined Proteomic and Genetic Analysis. PLoS ONE 3(2):e1598 |
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| Gibson BR, et al. (2008) The oxidative stress response of a lager brewing yeast strain during industrial propagation and fermentation. FEMS Yeast Res 8(4):574-85 |
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| Nomura W, et al. (2008) Role of Gcn4 for adaptation to methylglyoxal in Saccharomyces cerevisiae: methylglyoxal attenuates protein synthesis through phosphorylation of eIF2alpha. Biochem Biophys Res Commun 376(4):738-42 |
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| Guzy RD, et al. (2007) Mitochondrial complex III is required for hypoxia-induced ROS production and gene transcription in yeast. Antioxid Redox Signal 9(9):1317-28 |
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| Liu X, et al. (2007) Genetic and Comparative Transcriptome Analysis of Bromodomain Factor 1 in the Salt Stress Response of Saccharomyces cerevisiae. Curr Microbiol 54(4):325-30 |
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| Pagani MA, et al. (2007) Disruption of iron homeostasis in Saccharomyces cerevisiae by high zinc levels: a genome-wide study. Mol Microbiol 65(2):521-37 |
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| Zapater M, et al. (2007) Selective requirement for SAGA in Hog1-mediated gene expression depending on the severity of the external osmostress conditions. Mol Cell Biol 27(11):3900-10 |
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| Cullen PJ, et al. (2006) Genome-wide analysis of the response to protein glycosylation deficiency in yeast. FEMS Yeast Res 6(8):1264-73 |
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| Demasi AP, et al. (2006) Yeast oxidative stress response. Influences of cytosolic thioredoxin peroxidase I and of the mitochondrial functional state. FEBS J 273(4):805-16 |
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| Steinboeck F, et al. (2006) Novel regulatory properties of Saccharomyces cerevisiae Arp4. J Biochem 139(4):741-51 |
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| Andalis AA, et al. (2004) Defects arising from whole-genome duplications in Saccharomyces cerevisiae. Genetics 167(3):1109-21 |
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| De Nadal E, et al. (2004) The MAPK Hog1 recruits Rpd3 histone deacetylase to activate osmoresponsive genes. Nature 427(6972):370-4 |
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| Durchschlag E, et al. (2004) Nuclear localization destabilizes the stress-regulated transcription factor Msn2. J Biol Chem 279(53):55425-32 |
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| Kim HJ, et al. (2004) A yeast DNA microarray for the evaluation of toxicity in environmental water containing burned ash. Environ Monit Assess 92(1-3):253-72 |
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| Koc A, et al. (2004) Methionine sulfoxide reductase regulation of yeast lifespan reveals reactive oxygen species-dependent and -independent components of aging. Proc Natl Acad Sci U S A 101(21):7999-8004 |
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| Krantz M, et al. (2004) Anaerobicity prepares Saccharomyces cerevisiae cells for faster adaptation to osmotic shock. Eukaryot Cell 3(6):1381-90 |
