SKN1/YGR143W Literature Guide 
Other names published for SKN1: YGR143W
SKN1 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
- Literature Curation Summary
- Pubmed Search
- Expanded Pubmed Search
- All genome-wide analysis papers
- Search Google Scholar
| Reference | Other Genes Addressed |
|---|---|
| Free SJ (2013) Fungal cell wall organization and biosynthesis. Adv Genet 81():33-82 |
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| Jazwinski SM (2013) The retrograde response: when mitochondrial quality control is not enough. Biochim Biophys Acta 1833(2):400-9 |
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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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| Jazwinski SM and Kriete A (2012) The yeast retrograde response as a model of intracellular signaling of mitochondrial dysfunction. Front Physiol 3():139 |
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| Kurita T, et al. (2012) Action of multiple endoplasmic reticulum chaperon-like proteins is required for proper folding and polarized localization of Kre6 protein essential in yeast cell wall ?-1,6-glucan synthesis. J Biol Chem 287(21):17415-24 |
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| Orlean P (2012) Architecture and Biosynthesis of the Saccharomyces cerevisiae Cell Wall. Genetics 192(3):775-818 |
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| Short MK, et al. (2012) The yeast magmas ortholog pam16 has an essential function in fermentative growth that involves sphingolipid metabolism. PLoS One 7(7):e39428 |
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| Stead BE, et al. (2012) Mcm2 phosphorylation and the response to replicative stress. BMC Genet 13(1):36 |
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| Jung PP, et al. (2011) Ploidy influences cellular responses to gross chromosomal rearrangements in Saccharomyces cerevisiae. BMC Genomics 12(1):331 |
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| Levin DE (2011) Regulation of Cell Wall Biogenesis in Saccharomyces cerevisiae: The Cell Wall Integrity Signaling Pathway. Genetics 189(4):1145-75 |
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| Spitzer M, et al. (2011) Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole. Mol Syst Biol 7():499 |
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| Bink A, et al. (2010) A fungicidal piperazine-1-carboxamidine induces mitochondrial fission-dependent apoptosis in yeast. FEMS Yeast Res 10(7):812-8 |
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| Ruiz-Herrera J and Ortiz-Castellanos L (2010) Analysis of the phylogenetic relationships and evolution of the cell walls from yeasts and fungi. FEMS Yeast Res 10(3):225-43 |
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| Thevissen K, et al. (2010) Skn1 and Ipt1 negatively regulate autophagy in Saccharomyces cerevisiae. FEMS Microbiol Lett 303(2):163-8 |
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| Francois IE, et al. (2009) Membrane rafts are involved in intracellular miconazole accumulation in yeast cells. J Biol Chem 284(47):32680-5 |
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| Kitamura A, et al. (2009) Discovery of a Small-Molecule Inhibitor of {beta}-1,6-Glucan Synthesis. Antimicrob Agents Chemother 53(2):670-677 |
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| Coronado JE, et al. (2007) Conserved processes and lineage-specific proteins in fungal cell wall evolution. Eukaryot Cell 6(12):2269-77 |
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| Wright CM, et al. (2007) The Hsp40 molecular chaperone Ydj1p, along with the protein kinase C pathway, affects cell-wall integrity in the yeast Saccharomyces cerevisiae. Genetics 175(4):1649-64 |
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| Aerts AM, et al. (2006) Level of M(IP)2C sphingolipid affects plant defensin sensitivity, oxidative stress resistance and chronological life-span in yeast. FEBS Lett 580(7):1903-7 |
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| Dickson RC, et al. (2006) Functions and metabolism of sphingolipids in Saccharomyces cerevisiae. Prog Lipid Res 45(6):447-65 |
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| Lesage G and Bussey H (2006) Cell wall assembly in Saccharomyces cerevisiae. Microbiol Mol Biol Rev 70(2):317-43 |
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| Byrne KP and Wolfe KH (2005) The Yeast Gene Order Browser: combining curated homology and syntenic context reveals gene fate in polyploid species. Genome Res 15(10):1456-61 |
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| Thevissen K, et al. (2005) Fungal sphingolipids as targets for the development of selective antifungal therapeutics. Curr Drug Targets 6(8):923-8 |
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| Thevissen K, et al. (2005) SKN1, a novel plant defensin-sensitivity gene in Saccharomyces cerevisiae, is implicated in sphingolipid biosynthesis. FEBS Lett 579(9):1973-7 |
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| Daran-Lapujade P, et al. (2004) Role of transcriptional regulation in controlling fluxes in central carbon metabolism of Saccharomyces cerevisiae. A chemostat culture study. J Biol Chem 279(10):9125-38 |
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| Tong AH, et al. (2004) Global mapping of the yeast genetic interaction network. Science 303(5659):808-13 |
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| Friedman R and Hughes AL (2001) Gene duplication and the structure of eukaryotic genomes. Genome Res 11(3):373-81 |
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| Simon I, et al. (2001) Serial regulation of transcriptional regulators in the yeast cell cycle. Cell 106(6):697-708 |
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| Lee J, et al. (1999) Yap1 and Skn7 control two specialized oxidative stress response regulons in yeast. J Biol Chem 274(23):16040-6 |
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| Montijn RC, et al. (1999) Localization of synthesis of beta1,6-glucan in Saccharomyces cerevisiae. J Bacteriol 181(24):7414-20 |
