| scholarly article | Q13442814 |
| P50 | author | Jeremy M. Henley | Q38328313 |
| Laura Dearden | Q42059164 | ||
| Kevin A Wilkinson | Q59692803 | ||
| P2093 | author name string | Jia Luo | |
| Chun Guo | |||
| Keri L Hildick | |||
| P2860 | cites work | SUMO on the road to neurodegeneration | Q36809376 |
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| Inhibition of Drp1 provides neuroprotection in vitro and in vivo. | Q39386090 | ||
| Packaging of endogenous retroviral sequences in retroviral vectors produced by murine and human packaging cells | Q39578897 | ||
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| The endoplasmic reticulum and neurological diseases | Q48516383 | ||
| Cyclic AMP-dependent protein kinase phosphorylation of Drp1 regulates its GTPase activity and mitochondrial morphology. | Q53548157 | ||
| Mitotic phosphorylation of dynamin-related GTPase Drp1 participates in mitochondrial fission. | Q53571110 | ||
| The SUMO protease SENP5 is required to maintain mitochondrial morphology and function | Q56907347 | ||
| Transient focal cerebral ischemia induces a dramatic activation of small ubiquitin-like modifier conjugation | Q80427817 | ||
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| SUMOylation-dependent localization of IKKepsilon in PML nuclear bodies is essential for protection against DNA-damage-triggered cell death | Q24301299 | ||
| SUMOylation of the mitochondrial fission protein Drp1 occurs at multiple nonconsensus sites within the B domain and is linked to its activity cycle | Q24318317 | ||
| SENP3 is responsible for HIF-1 transactivation under mild oxidative stress via p300 de-SUMOylation | Q24328747 | ||
| Regulation of protein synthesis by hypoxia via activation of the endoplasmic reticulum kinase PERK and phosphorylation of the translation initiation factor eIF2alpha | Q24540258 | ||
| Control of PERK eIF2alpha kinase activity by the endoplasmic reticulum stress-induced molecular chaperone P58IPK. | Q24541469 | ||
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| Translational control is required for the unfolded protein response and in vivo glucose homeostasis | Q28204066 | ||
| Protein translation and folding are coupled by an endoplasmic-reticulum-resident kinase | Q28296183 | ||
| Diabetes mellitus and exocrine pancreatic dysfunction in perk-/- mice reveals a role for translational control in secretory cell survival | Q28593963 | ||
| The importance of dendritic mitochondria in the morphogenesis and plasticity of spines and synapses | Q29615239 | ||
| Mitochondria and cell death: outer membrane permeabilization and beyond | Q29615459 | ||
| The unfolded protein response: controlling cell fate decisions under ER stress and beyond | Q29615499 | ||
| Mitochondrial fission, fusion, and stress | Q29616536 | ||
| The role of dynamin-related protein 1, a mediator of mitochondrial fission, in apoptosis | Q29616568 | ||
| Mitochondrial fission factor Drp1 is essential for embryonic development and synapse formation in mice | Q29617092 | ||
| Reversible phosphorylation of Drp1 by cyclic AMP-dependent protein kinase and calcineurin regulates mitochondrial fission and cell death | Q29620448 | ||
| Bax/Bak promote sumoylation of DRP1 and its stable association with mitochondria during apoptotic cell death | Q30480587 | ||
| Elevated global SUMOylation in Ubc9 transgenic mice protects their brains against focal cerebral ischemic damage | Q34053347 | ||
| PDSM, a motif for phosphorylation-dependent SUMO modification | Q34248164 | ||
| The dynamics and mechanism of SUMO chain deconjugation by SUMO-specific proteases | Q34695640 | ||
| Arf-induced turnover of the nucleolar nucleophosmin-associated SUMO-2/3 protease Senp3. | Q34864658 | ||
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| Oxidative stress and neuronal death/survival signaling in cerebral ischemia | Q36161829 | ||
| Role of mitochondria as the gardens of cell death | Q36263117 | ||
| Lysosomal membrane permeabilization induces cell death in a mitochondrion-dependent fashion | Q36370419 | ||
| Chemical inhibition of the mitochondrial division dynamin reveals its role in Bax/Bak-dependent mitochondrial outer membrane permeabilization | Q36496658 | ||
| Protein SUMOylation is massively increased in hibernation torpor and is critical for the cytoprotection provided by ischemic preconditioning and hypothermia in SHSY5Y cells | Q36676352 | ||
| The apoptosome: signalling platform of cell death | Q36766418 | ||
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | cell death | Q2383867 |
| P304 | page(s) | 1514-1528 | |
| P577 | publication date | 2013-03-22 | |
| P1433 | published in | The EMBO Journal | Q1278554 |
| P1476 | title | SENP3-mediated deSUMOylation of dynamin-related protein 1 promotes cell death following ischaemia | |
| P478 | volume | 32 |
| Q60143780 | Adrenergic Regulation of Drp1-Driven Mitochondrial Fission in Cardiac Physio-Pathology |
| Q38557970 | Battling Alzheimer's Disease: Targeting SUMOylation-Mediated Pathways |
| Q92912028 | CHTM1 regulates cancer cell sensitivity to metabolic stress via p38-AIF1 pathway |
| Q39386692 | Concepts and Methodologies to Study Protein SUMOylation: An Overview. |
| Q35170990 | Cyclin C mediates stress-induced mitochondrial fission and apoptosis |
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| Q49911371 | DeSUMOylation of MKK7 kinase by the SUMO2/3 protease SENP3 potentiates lipopolysaccharide-induced inflammatory signaling in macrophages |
| Q64115483 | Developmental profiles of SUMOylation pathway proteins in rat cerebrum and cerebellum |
| Q90206029 | Divide et Impera: Drp1-mediated Mitochondrial Fission in Glioma Malignancy |
| Q37631600 | Drp1-Dependent Mitochondrial Fission Plays Critical Roles in Physiological and Pathological Progresses in Mammals |
| Q57462893 | Effects of farnesoid-X-receptor SUMOylation mutation on myocardial ischemia/reperfusion injury in mice |
| Q48280468 | Expression and Cell Distribution of SENP3 in Brain Tissue After Traumatic Brain Injury in Mice: A Pilot Study |
| Q48447452 | Expression and cell distribution of SENP3 in the cerebral cortex after experimental subarachnoid hemorrhage in rats: a pilot study |
| Q39542982 | Functional Effects of Cigarette Smoke-Induced Changes in Airway Smooth Muscle Mitochondrial Morphology. |
| Q37026526 | Global SUMOylation facilitates the multimodal neuroprotection afforded by quercetin against the deleterious effects of oxygen/glucose deprivation and the restoration of oxygen/glucose. |
| Q27316713 | Glucose Starvation in Cardiomyocytes Enhances Exosome Secretion and Promotes Angiogenesis in Endothelial Cells |
| Q59351029 | ISG15, a Small Molecule with Huge Implications: Regulation of Mitochondrial Homeostasis |
| Q39442271 | Inhibition of mitochondrial fission as a molecular target for cardioprotection: critical importance of the timing of treatment. |
| Q48187158 | Localization and regulation of PML bodies in the adult mouse brain. |
| Q97884884 | Mechanisms and roles of mitochondrial localisation and dynamics in neuronal function |
| Q41949133 | Metabolic Stress and Disorders Related to Alterations in Mitochondrial Fission or Fusion |
| Q89486050 | Methylene Blue Protects Against Sevoflurane-Induced Cognitive Dysfunction by Suppressing Drp1 deSUMOylation in Aged Mice |
| Q38179990 | Mitochondria dynamism: of shape, transport and cell migration |
| Q39008813 | Mitochondrial Dynamics as a Therapeutic Target for Treating Cardiac Diseases |
| Q47993915 | Mitochondrial E3 ligase MARCH5 regulates FUNDC1 to fine-tune hypoxic mitophagy |
| Q46438173 | Mitochondrial Fission in Human Diseases |
| Q91942085 | Mitochondrial Quality Control in Cardiomyocytes: A Critical Role in the Progression of Cardiovascular Diseases |
| Q39116596 | Mitochondrial dynamics in neuronal injury, development and plasticity |
| Q90374857 | Mitochondrial dynamics: overview of molecular mechanisms |
| Q26738961 | Mitochondrial fission - a drug target for cytoprotection or cytodestruction? |
| Q38966173 | Mitochondrial fission and fusion in secondary brain damage after CNS insults |
| Q27013930 | Mitochondrial fission: regulation and ER connection |
| Q28084134 | Mitochondrial fusion and fission proteins as novel therapeutic targets for treating cardiovascular disease |
| Q38939582 | Modification of DBC1 by SUMO2/3 is crucial for p53-mediated apoptosis in response to DNA damage |
| Q38115818 | Molecular targets underlying SUMO-mediated neuroprotection in brain ischemia |
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| Q34295237 | Neuronal SUMOylation: mechanisms, physiology, and roles in neuronal dysfunction |
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| Q64056855 | Protective role of the deSUMOylating enzyme SENP3 in myocardial ischemia-reperfusion injury |
| Q47965761 | Quantitative high-throughput screening identifies cytoprotective molecules that enhance SUMO conjugation via the inhibition of SUMO-specific protease (SENP)2. |
| Q38128213 | Receptor trafficking and the regulation of synaptic plasticity by SUMO. |
| Q47943084 | Regulation of Mitochondrial Dynamics and Autophagy by the Mitochondria-Associated Membrane |
| Q58784390 | Regulation of axon repulsion by MAX-1 SUMOylation and AP-3 |
| Q39343356 | Regulation of dynamin family proteins by post-translational modifications |
| Q35929111 | Regulators of mitochondrial dynamics in cancer |
| Q64762196 | Role of GTPases in the regulation of mitochondrial dynamics in Parkinson's disease |
| Q92175147 | Roles and mechanisms of SUMOylation on key proteins in myocardial ischemia/reperfusion injury |
| Q38927612 | SENP3-mediated deSUMOylation of Drp1 facilitates interaction with Mff to promote cell death |
| Q50641117 | SENP5, a SUMO isopeptidase, induces apoptosis and cardiomyopathy. |
| Q37297379 | SUMO and Alzheimer's disease |
| Q38115253 | SUMO and ischemic tolerance |
| Q39108925 | SUMO and the robustness of cancer |
| Q99616863 | SUMO promotes longevity and maintains mitochondrial homeostasis during ageing in Caenorhabditis elegans |
| Q38132691 | SUMO rules: regulatory concepts and their implication in neurologic functions. |
| Q36898510 | SUMO wrestling with Drp1 at mitochondria |
| Q38757045 | SUMO-regulated mitochondrial function in Parkinson's disease |
| Q37603287 | SUMO-specific protease 1 protects neurons from apoptotic death during transient brain ischemia/reperfusion |
| Q37419220 | SUMO-specific protease 3 is a key regulator for hepatic lipid metabolism in non-alcoholic fatty liver disease. |
| Q38260216 | SUMO-specific proteases/isopeptidases: SENPs and beyond |
| Q97884803 | SUMOylation and calcium signalling: potential roles in the brain and beyond |
| Q47392649 | SUMOylation in brain ischemia: Patterns, targets, and translational implications. |
| Q97516927 | SUMOylation in α-Synuclein Homeostasis and Pathology |
| Q35275798 | SUMOylation occurs in acute kidney injury and plays a cytoprotective role |
| Q47761796 | Significance of Mitochondrial Protein Post-translational Modifications in Pathophysiology of Brain Injury |
| Q28390513 | Specific interaction with cardiolipin triggers functional activation of Dynamin-Related Protein 1 |
| Q26747536 | Sumoylation in Synaptic Function and Dysfunction |
| Q47799714 | Sumoylation: Implications for Neurodegenerative Diseases |
| Q41678635 | Targeting the SUMO pathway for neuroprotection in brain ischaemia |
| Q36247924 | The Rice Dynamin-Related Protein OsDRP1E Negatively Regulates Programmed Cell Death by Controlling the Release of Cytochrome c from Mitochondria |
| Q39136006 | The Roles of SUMO in Metabolic Regulation |
| Q36192590 | The SUMO Protease SENP3 Orchestrates G2-M Transition and Spindle Assembly in Mouse Oocytes |
| Q55314869 | The transcription factor MEF2A plays a key role in the differentiation/maturation of rat neural stem cells into neurons. |
| Q34825960 | Transient assembly of F-actin on the outer mitochondrial membrane contributes to mitochondrial fission |
| Q35122358 | UPR, autophagy, and mitochondria crosstalk underlies the ER stress response |
| Q52374464 | Understanding the Unfolded Protein Response in the Pathogenesis of Asthma. |
| Q38182534 | Wrestling with stress: roles of protein SUMOylation and deSUMOylation in cell stress response |
| Q92713372 | Zinc-Induced SUMOylation of Dynamin-Related Protein 1 Protects the Heart against Ischemia-Reperfusion Injury |
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