GCN2/YDR283C Literature Guide 
Other names published for GCN2: AAS1, NDR2, AAS102, YDR283C
GCN2 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
GCN2 - Additional Literature (130)
| Reference | Other Genes Addressed |
|---|---|
| Li MW, et al. (2013) The GCN2 homologue in Arabidopsis thaliana interacts with uncharged tRNA and uses Arabidopsis eIF2a molecules as direct substrates. Plant Biol (Stuttg) 15(1):13-8 |
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| Malzer E, et al. (2013) Coordinate regulation of eIF2a phosphorylation by PPP1R15 and GCN2 is required during Drosophila development. J Cell Sci 126(Pt 6):1406-15 |
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| Seresht AK, et al. (2013) Long-term adaptation of Saccharomyces cerevisiae to the burden of recombinant insulin production. Biotechnol Bioeng () |
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| Cap M, et al. (2012) Cell differentiation within a yeast colony: metabolic and regulatory parallels with a tumor-affected organism. Mol Cell 46(4):436-48 |
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| Hofmann S, et al. (2012) Translation suppression promotes stress granule formation and cell survival in response to cold shock. Mol Biol Cell 23(19):3786-800 |
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| Reid PJ, et al. (2012) Identification of intersubunit domain interactions within eukaryotic initiation factor (eIF) 2B, the nucleotide exchange factor for translation initiation. J Biol Chem 287(11):8275-85 |
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| Visweswaraiah J, et al. (2012) Overexpression of eukaryotic translation elongation factor 3 impairs Gcn2 protein activation. J Biol Chem 287(45):37757-68 |
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| Waller T, et al. (2012) Evidence that Yih1 resides in a complex with ribosomes. FEBS J 279(10):1761-76 |
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| Alabrudzinska M, et al. (2011) Dipoid-Specific Genome Stability Genes of S. cerevisiae: Genomic Screen Reveals Haploidization as an Escape from Persisting DNA Rearrangement Stress. PLoS One 6(6):e21124 |
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| Balagopal V and Parker R (2011) Stm1 modulates translation after 80S formation in Saccharomyces cerevisiae. RNA 17(5):835-42 |
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| Ben-Shem A, et al. (2011) The structure of the eukaryotic ribosome at 3.0 ? resolution. Science 334(6062):1524-9 |
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| Dey M, et al. (2011) Requirement for kinase-induced conformational change in eukaryotic initiation factor 2alpha (eIF2alpha) restricts phosphorylation of Ser51. Proc Natl Acad Sci U S A 108(11):4316-21 |
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| Ellis JJ and Kobe B (2011) Predicting Protein Kinase Specificity: Predikin Update and Performance in the DREAM4 Challenge. PLoS One 6(7):e21169 |
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| Elsby R, et al. (2011) The alpha subunit of eukaryotic initiation factor 2B (eIF2B) is required for eIF2-mediated translational suppression of vesicular stomatitis virus. J Virol 85(19):9716-25 |
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| Fasolo J, et al. (2011) Diverse protein kinase interactions identified by protein microarrays reveal novel connections between cellular processes. Genes Dev 25(7):767-78 |
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| Franzosa EA, et al. (2011) Heterozygous yeast deletion collection screens reveal essential targets of hsp90. PLoS One 6(11):e28211 |
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| Iglesias-Gato D, et al. (2011) Guanine Nucleotide Pool Imbalance Impairs Multiple Steps of Protein Synthesis and Disrupts GCN4 Translational Control in Saccharomyces cerevisiae. Genetics 187(1):105-22 |
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| Kato K, et al. (2011) Severe ethanol stress induces assembly of stress granules in Saccharomyces cerevisiae. Yeast 28(5):339-47 |
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| Sattlegger E, et al. (2011) Gcn1 and Actin Binding to Yih1: IMPLICATIONS FOR ACTIVATION OF THE eIF2 KINASE GCN2. J Biol Chem 286(12):10341-55 |
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| Zhang F and Hinnebusch AG (2011) An upstream ORF with non-AUG start codon is translated in vivo but dispensable for translational control of GCN4 mRNA. Nucleic Acids Res 39(8):3128-40 |
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| Armache JP, et al. (2010) Cryo-EM structure and rRNA model of a translating eukaryotic 80S ribosome at 5.5-A resolution. Proc Natl Acad Sci U S A 107(46):19748-19753 |
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| Berlanga JJ, et al. (2010) Role of mitogen-activated protein kinase Sty1 in regulation of eukaryotic initiation factor 2alpha kinases in response to environmental stress in schizosaccharomyces pombe. Eukaryot Cell 9(1):194-207 |
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| Breitkreutz A, et al. (2010) A global protein kinase and phosphatase interaction network in yeast. Science 328(5981):1043-6 |
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| Elantak L, et al. (2010) The Indispensable N-Terminal Half of eIF3j/HCR1 Cooperates with its Structurally Conserved Binding Partner eIF3b/PRT1-RRM and with eIF1A in Stringent AUG Selection. J Mol Biol 396(4):1097-1116 |
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| Gallego O, et al. (2010) A systematic screen for protein-lipid interactions in Saccharomyces cerevisiae. Mol Syst Biol 6():430 |
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| Garcia-Leiro A, et al. (2010) Proteomic analysis of the oxidative stress response in Kluyveromyces lactis and effect of glutathione reductase depletion. J Proteome Res 9(5):2358-76 |
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| Jennings MD and Pavitt GD (2010) eIF5 has GDI activity necessary for translational control by eIF2 phosphorylation. Nature 465(7296):378-81 |
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| Lin CA, et al. (2010) The sua5 protein is essential for normal translational regulation in yeast. Mol Cell Biol 30(1):354-63 |
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| Mok J, et al. (2010) Deciphering protein kinase specificity through large-scale analysis of yeast phosphorylation site motifs. Sci Signal 3(109):ra12 |
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| Moravcevic K, et al. (2010) Kinase associated-1 domains drive MARK/PAR1 kinases to membrane targets by binding acidic phospholipids. Cell 143(6):966-77 |
