ACO1/YLR304C Literature Guide 
Other names published for ACO1: GLU1, aconitate hydratase ACO1, YLR304C
ACO1 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
ACO1 - Omics (74)
| Reference | Other Genes Addressed |
|---|---|
| Azad GK, et al. (2013) Depletion of cellular iron by curcumin leads to alteration in histone acetylation and degradation of Sml1p in Saccharomyces cerevisiae. PLoS One 8(3):e59003 |
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| Patil VA, et al. (2013) Loss of cardiolipin leads to perturbation of mitochondrial and cellular iron homeostasis. J Biol Chem 288(3):1696-705 |
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| Picotti P, et al. (2013) A complete mass-spectrometric map of the yeast proteome applied to quantitative trait analysis. Nature 494(7436):266-70 |
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| Ray D and Ye P (2013) Characterization of the metabolic requirements in yeast meiosis. PLoS One 8(5):e63707 |
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| Darby MM, et al. (2012) The Saccharomyces cerevisiae Nrd1-Nab3 transcription termination pathway acts in opposition to Ras signaling and mediates response to nutrient depletion. Mol Cell Biol 32(10):1762-75 |
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| Dikicioglu D, et al. (2012) Short- and long-term dynamic responses of the metabolic network and gene expression in yeast to a transient change in the nutrient environment. Mol Biosyst 8(6):1760-74 |
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| 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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| Hodgins-Davis A, et al. (2012) Abundant gene-by-environment interactions in gene expression reaction norms to copper within Saccharomyces cerevisiae. Genome Biol Evol 4(11):1061-79 |
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| Achcar F, et al. (2011) A Boolean probabilistic model of metabolic adaptation to oxygen in relation to iron homeostasis and oxidative stress. BMC Syst Biol 5(1):51 |
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| Bender T, et al. (2011) Mitochondrial enzymes are protected from stress-induced aggregation by mitochondrial chaperones and the Pim1/LON protease. Mol Biol Cell 22(5):541-54 |
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| Brohee S, et al. (2011) Unraveling networks of co-regulated genes on the sole basis of genome sequences. Nucleic Acids Res 39(15):6340-58 |
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| Burtner CR, et al. (2011) A genomic analysis of chronological longevity factors in budding yeast. Cell Cycle 10(9):1385-96 |
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| Canelas AB, et al. (2011) An in vivo data-driven framework for classification and quantification of enzyme kinetics and determination of apparent thermodynamic data. Metab Eng 13(3):294-306 |
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| Gresham D, et al. (2011) System-Level Analysis of Genes and Functions Affecting Survival During Nutrient Starvation in Saccharomyces cerevisiae. Genetics 187(1):299-317 |
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| Kumar C, et al. (2011) Glutathione revisited: a vital function in iron metabolism and ancillary role in thiol-redox control. EMBO J 30(10):2044-56 |
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| Mittal N, et al. (2011) Interplay between posttranscriptional and posttranslational interactions of RNA-binding proteins. J Mol Biol 409(3):466-79 |
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| Petti AA, et al. (2011) Survival of starving yeast is correlated with oxidative stress response and nonrespiratory mitochondrial function. Proc Natl Acad Sci U S A 108(45):E1089-98 |
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| Reeder NL, et al. (2011) Zinc pyrithione inhibits yeast growth through copper influx and inactivation of iron-sulfur proteins. Antimicrob Agents Chemother 55(12):5753-60 |
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| Eliyahu E, et al. (2010) Tom20 Mediates Localization of mRNAs to Mitochondria in a Translation-Dependent Manner. Mol Cell Biol 30(1):284-94 |
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| Fournier ML, et al. (2010) Delayed Correlation of mRNA and Protein Expression in Rapamycin-treated Cells and a Role for Ggc1 in Cellular Sensitivity to Rapamycin. Mol Cell Proteomics 9(2):271-84 |
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| Guirola M, et al. (2010) Lack of DNA helicase Pif1 disrupts zinc and iron homoeostasis in yeast. Biochem J 432(3):595-605 |
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| Shakoury-Elizeh M, et al. (2010) Metabolic response to iron deficiency in Saccharomyces cerevisiae. J Biol Chem 285(19):14823-33 |
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| Bhattacharjee A, et al. (2009) In vivo protein tyrosine nitration in S. cerevisiae: Identification of tyrosine-nitrated proteins in mitochondria. Biochem Biophys Res Commun 388(3):612-7 |
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| Braun RJ, et al. (2009) 16-BAC/SDS-PAGE Analysis of Membrane Proteins of Yeast Mitochondria Purified by Free Flow Electrophoresis. Methods Mol Biol 528:83-107 |
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| Chen AK, et al. (2009) Response of Saccharomyces cerevisiae to stress-free acidification. J Microbiol 47(1):1-8 |
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| Courchesne WE, et al. (2009) Amiodarone induces stress responses and calcium flux mediated by the cell wall in Saccharomyces cerevisiae. Can J Microbiol 55(3):288-303 |
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| Lin FM, et al. (2009) Comparative proteomic analysis of tolerance and adaptation of ethanologenic Saccharomyces cerevisiae to furfural, a lignocellulosic inhibitory compound. Appl Environ Microbiol 75(11):3765-76 |
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| Lin FM, et al. (2009) Temporal quantitative proteomics of Saccharomyces cerevisiae in response to a nonlethal concentration of furfural. Proteomics 9(24):5471-83 |
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| McDonagh B, et al. (2009) Shotgun redox proteomics identifies specifically modified cysteines in key metabolic enzymes under oxidative stress in Saccharomyces cerevisiae. J Proteomics 72(4):677-89 |
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| Merz S and Westermann B (2009) Genome-wide deletion mutant analysis reveals genes required for respiratory growth, mitochondrial genome maintenance and mitochondrial protein synthesis in Saccharomyces cerevisiae. Genome Biol 10(9):R95 |
