ERG11/YHR007C Literature Guide 
Other names published for ERG11: CYP51, sterol 14-demethylase, YHR007C
ERG11 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- DNA/RNA Sequence Features
- Mapping
- RNA Levels and Processing
- Transcription
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
ERG11 - Transcription (21)
| Reference | Other Genes Addressed |
|---|---|
| Slavov N and Botstein D (2013) Decoupling nutrient signaling from growth rate causes aerobic glycolysis and deregulation of cell size and gene expression. Mol Biol Cell 24(2):157-68 |
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| Gebre S, et al. (2012) Osh6 overexpression extends the lifespan of yeast by increasing vacuole fusion. Cell Cycle 11(11):2176-88 |
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| Hornung G, et al. (2012) Noise-mean relationship in mutated promoters. Genome Res 22(12):2409-17 |
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| Robbins N, et al. (2012) Lysine deacetylases Hda1 and Rpd3 regulate Hsp90 function thereby governing fungal drug resistance. Cell Rep 2(4):878-88 |
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| Shin GH, et al. (2012) Overexpression of genes of the fatty acid biosynthetic pathway leads to accumulation of sterols in Saccharomyces cerevisiae. Yeast 29(9):371-83 |
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| Vizoso-Vazquez A, et al. (2012) Ixr1p and the control of the Saccharomyces cerevisiae hypoxic response. Appl Microbiol Biotechnol 94(1):173-84 |
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| Yang J, et al. (2012) Integrated phospholipidomics and transcriptomics analysis of Saccharomyces cerevisiae with enhanced tolerance to a mixture of acetic acid, furfural, and phenol. OMICS 16(7-8):374-86 |
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| Baumann K, et al. (2011) The impact of oxygen on the transcriptome of recombinant S. cerevisiae and P. pastoris - a comparative analysis. BMC Genomics 12(1):218 |
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| Fowler DM, et al. (2011) Suppression of statin effectiveness by copper and zinc in yeast and human cells. Mol Biosyst 7(2):533-44 |
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| Montanes FM, et al. (2011) Repression of ergosterol biosynthesis is essential for stress resistance and is mediated by the Hog1 MAP kinase and the Mot3 and Rox1 transcription factors. Mol Microbiol 79(4):1008-23 |
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| Kuo D, et al. (2010) Evolutionary divergence in the fungal response to fluconazole revealed by soft clustering. Genome Biol 11(7):R77 |
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| Rintala E, et al. (2009) Low oxygen levels as a trigger for enhancement of respiratory metabolism in Saccharomyces cerevisiae. BMC Genomics 10():461 |
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| Zara G, et al. (2009) Oxygen is required to restore flor strain viability and lipid biosynthesis under fermentative conditions. FEMS Yeast Res 9(2):217-25 |
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| Hickman MJ and Winston F (2007) Heme Levels Switch the Function of Hap1 of Saccharomyces cerevisiae between Transcriptional Activator and Transcriptional Repressor. Mol Cell Biol 27(21):7414-24 |
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| Puig S, et al. (2005) Coordinated remodeling of cellular metabolism during iron deficiency through targeted mRNA degradation. Cell 120(1):99-110 |
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| Agarwal AK, et al. (2003) Genome-wide expression profiling of the response to polyene, pyrimidine, azole, and echinocandin antifungal agents in Saccharomyces cerevisiae. J Biol Chem 278(37):34998-5015 |
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| Iyer VR, et al. (2001) Genomic binding sites of the yeast cell-cycle transcription factors SBF and MBF. Nature 409(6819):533-8 |
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| Fytlovich S, et al. (1993) Evidence for an interaction between the CYP1(HAP1) activator and a cellular factor during heme-dependent transcriptional regulation in the yeast Saccharomyces cerevisiae. EMBO J 12(3):1209-18 |
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| Del Carratore R, et al. (1992) Expression of cytochrome P450 in yeast after different chemical treatments. Carcinogenesis 13(11):2175-7 |
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| Turi TG and Loper JC (1992) Multiple regulatory elements control expression of the gene encoding the Saccharomyces cerevisiae cytochrome P450, lanosterol 14 alpha-demethylase (ERG11). J Biol Chem 267(3):2046-56 |
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| Verdiere J, et al. (1991) CYP1 (HAP1) is a determinant effector of alternative expression of heme-dependent transcribed genes in yeast [corrected]. Mol Gen Genet 228(1-2):300-6 |
