scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1010107638 |
P356 | DOI | 10.1038/NATURE11055 |
P932 | PMC publication ID | 4974072 |
P698 | PubMed publication ID | 22678294 |
P5875 | ResearchGate publication ID | 225283265 |
P2093 | author name string | Arnim Pause | |
Martin Holcik | |||
Stephen Lee | |||
Marc R Fabian | |||
Aleksandra Franovic | |||
James Uniacke | |||
Chet E Holterman | |||
Mathieu D Jacob | |||
Gabriel Lachance | |||
Josianne Payette | |||
P2860 | cites work | Hypoxia inducible factor activates the transforming growth factor-alpha/epidermal growth factor receptor growth stimulatory pathway in VHL(-/-) renal cell carcinoma cells | Q34536583 |
Hypoxia-induced energy stress regulates mRNA translation and cell growth | Q35155445 | ||
Translational up-regulation of the EGFR by tumor hypoxia provides a nonmutational explanation for its overexpression in human cancer | Q35928801 | ||
Human cancers converge at the HIF-2alpha oncogenic axis. | Q37482150 | ||
mRNA helicases: the tacticians of translational control | Q37856199 | ||
Hypoxia-mediated selective mRNA translation by an internal ribosome entry site-independent mechanism | Q39026199 | ||
A hypoxia-controlled cap-dependent to cap-independent translation switch in breast cancer. | Q40053351 | ||
Eukaryotic protein synthesis: still a mystery | Q42737395 | ||
Expression of hypoxia-inducible carbonic anhydrase-9 relates to angiogenic pathways and independently to poor outcome in non-small cell lung cancer | Q43787483 | ||
Genomics illuminates a deadly brain cancer | Q48278547 | ||
Widespread hypoxia-inducible expression of HIF-2alpha in distinct cell populations of different organs. | Q48422889 | ||
Silencing of epidermal growth factor receptor suppresses hypoxia-inducible factor-2-driven VHL-/- renal cancer | Q95807715 | ||
HIFalpha targeted for VHL-mediated destruction by proline hydroxylation: implications for O2 sensing | Q24291102 | ||
Cell stress modulates the function of splicing regulatory protein RBM4 in translation control | Q24296006 | ||
Gene expression during acute and prolonged hypoxia is regulated by distinct mechanisms of translational control | Q24304179 | ||
Rapid and systematic analysis of the RNA recognition specificities of RNA-binding proteins | Q24308775 | ||
Cloning and characterization of 4EHP, a novel mammalian eIF4E-related cap-binding protein | Q24315103 | ||
RNA-binding motif protein 4 translocates to cytoplasmic granules and suppresses translation via argonaute2 during muscle cell differentiation | Q24321467 | ||
Insulin-dependent stimulation of protein synthesis by phosphorylation of a regulator of 5'-cap function | Q24324452 | ||
Regulation of mTOR function in response to hypoxia by REDD1 and the TSC1/TSC2 tumor suppressor complex | Q24559347 | ||
Sequencing of 50 human exomes reveals adaptation to high altitude | Q24599025 | ||
Transcriptome-wide identification of RNA-binding protein and microRNA target sites by PAR-CLIP | Q24630900 | ||
Targeting of HIF-alpha to the von Hippel-Lindau ubiquitylation complex by O2-regulated prolyl hydroxylation | Q27860876 | ||
Untangling the ErbB signalling network | Q27860884 | ||
Regulation of translation initiation in eukaryotes: mechanisms and biological targets | Q28111696 | ||
Regulation of mammalian O2 homeostasis by hypoxia-inducible factor 1 | Q28141355 | ||
Molecular mechanisms of translational control | Q29614568 | ||
Translational control in stress and apoptosis | Q29615497 | ||
Oxygen sensing by metazoans: the central role of the HIF hydroxylase pathway | Q29617805 | ||
Regulation of cap-dependent translation by eIF4E inhibitory proteins | Q29622831 | ||
RNAcontext: a new method for learning the sequence and structure binding preferences of RNA-binding proteins | Q30985446 | ||
Attenuation of proteasome-induced proteolysis in skeletal muscle by {beta}-hydroxy-{beta}-methylbutyrate in cancer-induced muscle loss | Q33984500 | ||
Characterizing the interaction of the mammalian eIF4E-related protein 4EHP with 4E-BP1. | Q34314566 | ||
P433 | issue | 7401 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 126-129 | |
P577 | publication date | 2012-05-06 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | An oxygen-regulated switch in the protein synthesis machinery | |
P478 | volume | 486 |
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Q91961385 | Activation of Hypoxia-Inducible Factor Signaling Modulates the RNA Protein Interactome in Caenorhabditis elegans |
Q50967876 | Analysis of Cap-binding Proteins in Human Cells Exposed to Physiological Oxygen Conditions. |
Q37583517 | Anthrax lethal toxin inhibits translation of hypoxia-inducible factor 1α and causes decreased tolerance to hypoxic stress |
Q37562355 | Anti-angiogenic Therapy in Cancer: Downsides and New Pivots for Precision Medicine |
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Q49391561 | Hypoxia activates cadherin-22 synthesis via eIF4E2 to drive cancer cell migration, invasion and adhesion |
Q41282753 | Hypoxia and Hypoglycemia synergistically regulate mRNA stability. |
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Q38913214 | Hypoxia, pseudohypoxia and cellular differentiation |
Q55419613 | Hypoxia-Inducible Factor 2-Dependent Pathways Driving Von Hippel-Lindau-Deficient Renal Cancer. |
Q35237075 | Hypoxia-induced gene expression results from selective mRNA partitioning to the endoplasmic reticulum. |
Q38078689 | Hypoxia-inducible factor prolyl hydroxylases as targets for neuroprotection by "antioxidant" metal chelators: From ferroptosis to stroke. |
Q36967260 | Hypoxia-inducible factor-1α (HIF-1α) promotes cap-dependent translation of selective mRNAs through up-regulating initiation factor eIF4E1 in breast cancer cells under hypoxia conditions |
Q37620078 | Hypoxia-inducible factors link iron homeostasis and erythropoiesis |
Q49569525 | Hypoxia-mediated translational activation of ITGB3 in breast cancer cells enhances TGF-β signaling and malignant features in vitro and in vivo |
Q28384176 | Insulin promotes glucose consumption via regulation of miR-99a/mTOR/PKM2 pathway |
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Q47753117 | Major splice variants and multiple polyadenylation site utilization in mRNAs encoding human translation initiation factors eIF4E1 and eIF4E3 regulate the translational regulators? |
Q92615623 | Metabolic stress activates an ERK/hnRNPK/DDX3X pathway in pancreatic β cells |
Q59137532 | Metformin blocks MYC protein synthesis in colorectal cancer via mTOR-4EBP-eIF4E and MNK1-eIF4G-eIF4E signaling |
Q28387581 | Mitochondrial Cytochrome c Oxidase Biogenesis Is Regulated by the Redox State of a Heme-Binding Translational Activator |
Q35106440 | Mitochondrial respiratory function induces endogenous hypoxia |
Q38700673 | Modifying the maker: Oxygenases target ribosome biology |
Q41432736 | N6-methyladenosine is required for the hypoxic stabilization of specific mRNAs. |
Q33853235 | New frontiers in translational control of the cancer genome |
Q44403569 | No Escaping the Rat Race: Simulated Night Shift Work Alters the Time-of-Day Variation in BMAL1 Translational Activity in the Prefrontal Cortex |
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Q47177113 | Oxygen-Sensitive Remodeling of Central Carbon Metabolism by Archaic eIF5B. |
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