GRX1/YCL035C Literature Guide 
Other names published for GRX1: YCL035C
GRX1 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
GRX1 - Omics (30)
| Reference | Other Genes Addressed |
|---|---|
| Frohlich F, et al. (2013) Native SILAC: metabolic labeling of proteins in prototroph microorganisms based on lysine synthesis regulation. Mol Cell Proteomics () |
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| Ayer A, et al. (2012) A genome-wide screen in yeast identifies specific oxidative stress genes required for the maintenance of sub-cellular redox homeostasis. PLoS One 7(9):e44278 |
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| Ding MZ, et al. (2012) Proteomic research reveals the stress response and detoxification of yeast to combined inhibitors. PLoS One 7(8):e43474 |
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| Fomenko DE and Gladyshev VN (2012) Comparative genomics of thiol oxidoreductases reveals widespread and essential functions of thiol-based redox control of cellular processes. Antioxid Redox Signal 16(3):193-201 |
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| McAlister GC, et al. (2012) Analysis of the acidic proteome with negative electron-transfer dissociation mass spectrometry. Anal Chem 84(6):2875-82 |
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| Oh YM, et al. (2012) Interaction between Saccharomyces cerevisiae glutaredoxin 5 and SPT10 and their in vivo functions. Free Radic Biol Med 52(9):1519-30 |
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| Tkach JM, et al. (2012) Dissecting DNA damage response pathways by analysing protein localization and abundance changes during DNA replication stress. Nat Cell Biol 14(9):966-76 |
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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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| Xu T, et al. (2012) A potent plant-derived antifungal acetylenic acid mediates its activity by interfering with fatty acid homeostasis. Antimicrob Agents Chemother 56(6):2894-907 |
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| Hao N and O'Shea EK (2011) Signal-dependent dynamics of transcription factor translocation controls gene expression.LID - 10.1038/nsmb.2192 [doi] Nat Struct Mol Biol () |
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| Helbig AO, et al. (2011) The diversity of protein turnover and abundance under nitrogen-limited steady-state conditions in Saccharomyces cerevisiae. Mol Biosyst 7(12):3316-26 |
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| Vogel C, et al. (2011) Protein expression regulation under oxidative stress. Mol Cell Proteomics 10(12):M111.009217 |
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| Ayer A, et al. (2010) The critical role of glutathione in maintenance of the mitochondrial genome. Free Radic Biol Med 49(12):1956-68 |
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| Yasokawa D, et al. (2010) Toxicity of methanol and formaldehyde towards Saccharomyces cerevisiae as assessed by DNA microarray analysis. Appl Biochem Biotechnol 160(6):1685-98 |
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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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| Knijnenburg TA, et al. (2009) Combinatorial effects of environmental parameters on transcriptional regulation in Saccharomyces cerevisiae: a quantitative analysis of a compendium of chemostat-based transcriptome data. BMC Genomics 10:53 |
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| Marino SM and Gladyshev VN (2009) A structure-based approach for detection of thiol oxidoreductases and their catalytic redox-active cysteine residues. PLoS Comput Biol 5(5):e1000383 |
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| Santos PM, et al. (2009) Insights into yeast adaptive response to the agricultural fungicide mancozeb: a toxicoproteomics approach. Proteomics 9(3):657-70 |
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| Del Vescovo V, et al. (2008) Role of Hog1 and Yaf9 in the transcriptional response of Saccharomyces cerevisiae to cesium chloride. Physiol Genomics 33(1):110-20 |
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| Wu WS and Li WH (2008) Identifying gene regulatory modules of heat shock response in yeast. BMC Genomics 9:439 |
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| Abe F (2007) Induction of DAN/TIR yeast cell wall mannoprotein genes in response to high hydrostatic pressure and low temperature. FEBS Lett 581(25):4993-8 |
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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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| Kim HJ, et al. (2006) Effect of textile wastewaters on Saccharomyces cerevisiae using DNA microarray as a tool for genome-wide transcriptomics analysis. Water Res 40(9):1773-82 |
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| Dembla-Rajpal N, et al. (2004) Proteasome inhibition alters the transcription of multiple yeast genes. Biochim Biophys Acta 1680(1):34-45 |
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| Fujita K, et al. (2004) Comprehensive gene expression analysis of the response to straight-chain alcohols in Saccharomyces cerevisiae using cDNA microarray. J Appl Microbiol 97(1):57-67 |
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| Ichimura T, et al. (2004) Transcriptomic and proteomic analysis of a 14-3-3 gene-deficient yeast. Biochemistry 43(20):6149-58 |
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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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| Sirisattha S, et al. (2004) Toxicity of anionic detergents determined by Saccharomyces cerevisiae microarray analysis. Water Res 38(1):61-70 |
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| Huh WK, et al. (2003) Global analysis of protein localization in budding yeast. Nature 425(6959):686-91 |
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| Lombardia LJ, et al. (2002) Genome-wide analysis of yeast transcription upon calcium shortage. Cell Calcium 32(2):83-91 |
