| scholarly article | Q13442814 |
| P356 | DOI | 10.1074/JBC.M109199200 |
| P698 | PubMed publication ID | 11684693 |
| P2093 | author name string | William C Merrick | |
| Jack Hensold | |||
| Antonis Koromilas | |||
| Ronald C Wek | |||
| Maria Hatzoglou | |||
| Ibrahim Yaman | |||
| James Fernandez | |||
| Rushira Sood | |||
| P2860 | cites work | Translational control during amino acid starvation | Q40614287 |
| Post-transcriptional regulation of the arginine transporter Cat-1 by amino acid availability | Q40923124 | ||
| Adaptive regulation of the cationic amino acid transporter-1 (Cat-1) in Fao cells | Q42442120 | ||
| Control of expression of the gene for the arginine transporter Cat-1 in rat liver cells by glucocorticoids and insulin | Q42466719 | ||
| Internal ribosome entry site-mediated translation of a mammalian mRNA is regulated by amino acid availability. | Q42638872 | ||
| In a nutshell | Q59020119 | ||
| Characterization of a mammalian homolog of the GCN2 eukaryotic initiation factor 2alpha kinase | Q22010589 | ||
| Pancreatic eukaryotic initiation factor-2alpha kinase (PEK) homologues in humans, Drosophila melanogaster and Caenorhabditis elegans that mediate translational control in response to endoplasmic reticulum stress | Q22253195 | ||
| Identification and characterization of a novel cell cycle-regulated internal ribosome entry site | Q22254387 | ||
| Fibroblast growth factor 2 internal ribosome entry site (IRES) activity ex vivo and in transgenic mice reveals a stringent tissue-specific regulation | Q24683914 | ||
| Multiple upstream AUG codons mediate translational control of GCN4. | Q27929995 | ||
| Dimerization by translation initiation factor 2 kinase GCN2 is mediated by interactions in the C-terminal ribosome-binding region and the protein kinase domain | Q27934914 | ||
| Gene-specific translational control of the yeast GCN4 gene by phosphorylation of eukaryotic initiation factor 2. | Q27934963 | ||
| Perk is essential for translational regulation and cell survival during the unfolded protein response | Q28140062 | ||
| PERK mediates cell-cycle exit during the mammalian unfolded protein response | Q28141519 | ||
| Translational control is required for the unfolded protein response and in vivo glucose homeostasis | Q28204066 | ||
| Transcriptional activation by tetracyclines in mammalian cells | Q28303934 | ||
| Regulated translation initiation controls stress-induced gene expression in mammalian cells | Q28506388 | ||
| Translational control: the cancer connection | Q33601620 | ||
| CREB binding protein coordinates the function of multiple transcription factors including nuclear factor I to regulate phosphoenolpyruvate carboxykinase (GTP) gene transcription | Q33855602 | ||
| A cell cycle-dependent internal ribosome entry site | Q33908317 | ||
| Cell cycle-dependent translation initiation: IRES elements prevail | Q33939840 | ||
| Glucose limitation induces GCN4 translation by activation of Gcn2 protein kinase | Q33962759 | ||
| Translation initiation factor modifications and the regulation of protein synthesis in apoptotic cells | Q33964325 | ||
| Upstream open reading frames as regulators of mRNA translation | Q33966388 | ||
| Internal ribosome initiation of translation and the control of cell death. | Q34069648 | ||
| Molecular biology of mammalian amino acid transporters | Q34397652 | ||
| The phosphorylation state of eucaryotic initiation factor 2 alters translational efficiency of specific mRNAs | Q36767369 | ||
| PKR: a new name and new roles. | Q40458311 | ||
| The eIF-2 alpha kinases: regulators of protein synthesis in starvation and stress | Q40503407 | ||
| Translational control of GCN4: an in vivo barometer of initiation-factor activity | Q40566888 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | phosphorylation | Q242736 |
| P304 | page(s) | 2050-2058 | |
| P577 | publication date | 2001-10-29 | |
| P1433 | published in | Journal of Biological Chemistry | Q867727 |
| P1476 | title | Regulation of internal ribosome entry site-mediated translation by eukaryotic initiation factor-2alpha phosphorylation and translation of a small upstream open reading frame | |
| P478 | volume | 277 |
| Q37373885 | A critical role of eEF-2K in mediating autophagy in response to multiple cellular stresses |
| Q42976044 | A feedback transcriptional mechanism controls the level of the arginine/lysine transporter cat-1 during amino acid starvation |
| Q34962101 | A network of rice genes associated with stress response and seed development |
| Q21710700 | A perspective on mammalian upstream open reading frame function |
| Q24309583 | ABC50 promotes translation initiation in mammalian cells |
| Q28508156 | Activating transcription factor 3 is integral to the eukaryotic initiation factor 2 kinase stress response |
| Q35184476 | Amino acid transporters: roles in amino acid sensing and signalling in animal cells |
| Q38223274 | Amino acids and autophagy: cross-talk and co-operation to control cellular homeostasis. |
| Q24562847 | Amino acids as regulators of gene expression |
| Q35743138 | Autophagy as a cell death and tumor suppressor mechanism |
| Q35750123 | Cellular internal ribosome entry segments: structures, trans-acting factors and regulation of gene expression |
| Q36362409 | Cellular response to endoplasmic reticulum stress: a matter of life or death |
| Q34738413 | Control of eukaryotic protein synthesis by upstream open reading frames in the 5'-untranslated region of an mRNA |
| Q38865830 | Differential action of pateamine A on translation of genomic and subgenomic mRNAs from Sindbis virus. |
| Q36228095 | Differential translation and fragile X syndrome |
| Q37340459 | Direct ribosomal binding by a cellular inhibitor of translation |
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| Q38289179 | Eukaryotic initiation factor 2alpha phosphorylation is required for B-cell maturation and function in mice |
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| Q33311590 | Functional characterization of two novel 5' untranslated exons reveals a complex regulation of NOD2 protein expression |
| Q28611181 | Gene-specific regulation by general translation factors |
| Q36354889 | Genome-wide search for novel human uORFs and N-terminal protein extensions using ribosomal footprinting |
| Q44302198 | Genomic analysis of the unfolded protein response in Arabidopsis shows its connection to important cellular processes |
| Q96225135 | Glycogen synthase kinase (GSK)-3 and the double-strand RNA-dependent kinase, PKR: When two kinases for the common good turn bad |
| Q28217791 | Human interferon-gamma mRNA autoregulates its translation through a pseudoknot that activates the interferon-inducible protein kinase PKR |
| Q50027284 | IRES-mediated translation of cofilin regulates axonal growth cone extension and turning. |
| Q27472970 | Inhibition of the protein kinase PKR by the internal ribosome entry site of hepatitis C virus genomic RNA |
| Q27477598 | Initiation of Protein Synthesis by Hepatitis C Virus Is Refractory to Reduced eIF2 · GTP · Met-tRNAiMet Ternary Complex Availability |
| Q39028088 | More than just scanning: the importance of cap-independent mRNA translation initiation for cellular stress response and cancer. |
| Q36191074 | Nutritional control of gene expression: how mammalian cells respond to amino acid limitation |
| Q43464110 | Phosphorylation of initiation factor-2 alpha is required for activation of internal translation initiation during cell differentiation. |
| Q35169632 | Phosphorylation of the alpha subunit of eukaryotic initiation factor 2 is required for activation of NF-kappaB in response to diverse cellular stresses |
| Q42112055 | Phosphorylation of the alpha subunit of translation initiation factor-2 by PKR mediates protein synthesis inhibition in the mouse brain during status epilepticus |
| Q34627223 | Polyamines upregulate the mRNA expression of cationic amino acid transporter-1 in human retinal pigment epithelial cells |
| Q36852796 | Potent activation of FGF-2 IRES-dependent mechanism of translation during brain development |
| Q40173950 | Protein kinase C regulates internal initiation of translation of the GATA-4 mRNA following vasopressin-induced hypertrophy of cardiac myocytes |
| Q38019544 | RNA binding protein/RNA element interactions and the control of translation |
| Q24802750 | Regulation of ribonucleotide reductase M2 expression by the upstream AUGs |
| Q34168260 | Regulation of xCT expression and system x (c) (-) function in neuronal cells. |
| Q40565127 | Role of eIF3 p170 in controlling synthesis of ribonucleotide reductase M2 and cell growth |
| Q35200807 | Sepsis-induced changes in amino acid transporters and leucine signaling via mTOR in skeletal muscle |
| Q92518977 | Signal Transduction in Ribosome Biogenesis: A Recipe to Avoid Disaster |
| Q34720944 | Stress-induced translation of ATF5 mRNA is regulated by the 5'-untranslated region |
| Q36785025 | Structure and function of cationic amino acid transporters (CATs). |
| Q28573015 | The hnRNA-binding proteins hnRNP L and PTB are required for efficient translation of the Cat-1 arginine/lysine transporter mRNA during amino acid starvation |
| Q34966201 | The mammalian endoplasmic reticulum as a sensor for cellular stress |
| Q42599660 | The zipper model of translational control: a small upstream ORF is the switch that controls structural remodeling of an mRNA leader. |
| Q42610027 | Transcriptional control of the arginine/lysine transporter, cat-1, by physiological stress. |
| Q34525975 | Translation directed by hepatitis A virus IRES in the absence of active eIF4F complex and eIF2 |
| Q28580378 | Translation mediated by the internal ribosome entry site of the cat-1 mRNA is regulated by glucose availability in a PERK kinase-dependent manner |
| Q28479039 | Translation of viral mRNA without active eIF2: the case of picornaviruses |
| Q39792645 | Translational control of protein kinase Ceta by two upstream open reading frames |
| Q47147251 | Two distinct nodes of translational inhibition in the Integrated Stress Response. |
| Q36535498 | Up-regulation of a cellular protein at the translational level by a retrovirus |
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