PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
about
The phosphorylation-dependent regulation of mitochondrial proteins in stress responsesRole of Nrf2 in oxidative stress and toxicityMitochondrial phosphoglycerate mutase 5 uses alternate catalytic activity as a protein serine/threonine phosphatase to activate ASK1Advances in mechanisms of anti-oxidationNRF2, a Key Regulator of Antioxidants with Two Faces towards CancerThe spatiotemporal regulation of the Keap1-Nrf2 pathway and its importance in cellular bioenergeticsReactive oxygen species and mitochondria: A nexus of cellular homeostasisFueling the flames: Mammalian programmed necrosis in inflammatory diseasesRedox regulation of mitochondrial biogenesisThe conserved SKN-1/Nrf2 stress response pathway regulates synaptic function in Caenorhabditis elegansStress-activated cap'n'collar transcription factors in aging and human diseaseThe electrophile responsive proteome: integrating proteomics and lipidomics with cellular functionProteasome dysfunction in Drosophila signals to an Nrf2-dependent regulatory circuit aiming to restore proteostasis and prevent premature aging.Regulation of proteasome activity in health and diseaseCytoprotection "gone astray": Nrf2 and its role in cancerNrf2-dysregulation correlates with reduced synthesis and low glutathione levels in experimental autoimmune encephalomyelitisMechanisms of activation of the transcription factor Nrf2 by redox stressors, nutrient cues, and energy status and the pathways through which it attenuates degenerative diseaseRedox biology and the interface between bioenergetics, autophagy and circadian control of metabolismInhibitor of Nrf2 (INrf2 or Keap1) protein degrades Bcl-xL via phosphoglycerate mutase 5 and controls cellular apoptosisNrf2 protects mitochondrial decay by oxidative stressImpaired nuclear Nrf2 translocation undermines the oxidative stress response in Friedreich ataxiaMitochondrial Protein PGAM5 Regulates Mitophagic Protection against Cell NecroptosisUniversal features of post-transcriptional gene regulation are critical for Plasmodium zygote developmentComputational classification of mitochondrial shapes reflects stress and redox state.Frequency Modulated Translocational Oscillations of Nrf2 Mediate the Antioxidant Response Element Cytoprotective Transcriptional Response.The loss of PGAM5 suppresses the mitochondrial degeneration caused by inactivation of PINK1 in Drosophila.A conserved motif mediates both multimer formation and allosteric activation of phosphoglycerate mutase 5.Prevention of apoptosis by mitochondrial phosphatase PGAM5 in the mushroom body is crucial for heat shock resistance in Drosophila melanogasterThe BCL2L1 and PGAM5 axis defines hypoxia-induced receptor-mediated mitophagy.Nuclear cytoplasmic trafficking of proteins is a major response of human fibroblasts to oxidative stressThe ubiquitin-conjugating enzyme UBE2E3 and its import receptor importin-11 regulate the localization and activity of the antioxidant transcription factor NRF2.Genetic deficiency of the mitochondrial protein PGAM5 causes a Parkinson's-like movement disorder.Fumarate is cardioprotective via activation of the Nrf2 antioxidant pathway.Activation of mitochondrial biogenesis by heme oxygenase-1-mediated NF-E2-related factor-2 induction rescues mice from lethal Staphylococcus aureus sepsisThe Mitochondrial Phosphatase PGAM5 Is Dispensable for Necroptosis but Promotes Inflammasome Activation in Macrophages.Effects of Local Heart Irradiation in a Glutathione S-Transferase Alpha 4-Null Mouse ModelSpatial and temporal dynamics of the cardiac mitochondrial proteome.Bax-PGAM5L-Drp1 complex is required for intrinsic apoptosis executionSubstrates of IAP ubiquitin ligases identified with a designed orthogonal E3 ligase, the NEDDylatorSKN-1/Nrf, stress responses, and aging in Caenorhabditis elegans.
P2860
Q21285141-A5CF74A9-93FC-458F-BA42-494A0C0A4354Q23919669-63052B52-8F44-4B6D-8049-D2B8780B5BC5Q24312673-0804E0F5-E053-4320-8B59-330F3738E452Q24704009-3A1C8082-CCB1-4E12-B47D-5F5C440D6D46Q26747249-E9C0ECA1-D7D4-448C-A5CF-48C9458BADF1Q26778368-B85AC4CB-D432-4349-AC01-32D566661F86Q26782529-27C6FE4B-283F-44DD-931A-90BECA10463EQ26830515-D02A0964-4688-4157-A58E-54AD41B764B5Q26849213-5245CB36-B047-43FD-AB09-4EF4CDD50322Q27324113-288AD864-F183-4DDA-A956-4F056DFD312BQ28384783-E02859BE-3012-42E0-998A-FBABFDCD941BQ28388959-00CC1BBF-6549-4DB8-A84D-8AD7120EE967Q28390091-B2268100-7556-4ED1-8D83-A8582F36E0E3Q28392708-0012865B-0C88-470F-A513-5AE942F18109Q28393784-B7F07C9F-FA6E-4283-993A-63D25DC1C257Q28394597-8F2C566F-0A6D-48C1-B32A-CFB954E9C8D1Q28394732-B2B6C2E3-9DE1-4F8E-93F5-FBCCD5764210Q28394996-5EAEE595-BFB2-440E-A891-DCF8DF4894ADQ28395156-6B9FA5FB-3CAD-4C7E-A36B-1E79293D3D39Q28396758-3D3C1359-4C83-4770-8DFE-70336E13EA53Q28474531-0306E16B-ED57-4523-80FE-3FB66C7FEF32Q28552780-2F37B860-7E00-430F-A9E4-55BCA3A4151BQ30038970-EA26E759-8153-41C3-BF63-07C6747D5405Q30534481-DB6E67DE-DA4A-4604-BDA2-E23BBCD42E82Q30663205-061C3CD2-6646-44DC-967C-A30442B63DC3Q33769553-81164C97-D3BC-478F-BC55-2CA2B5DC8D25Q34139093-F7D94903-F5D6-4F0A-9C35-C6D125AAF2D3Q34162494-A1C44949-8DB8-4207-AE08-AE53FF0DCB32Q34344659-5CA2C2CE-2EE4-411B-BDB8-C094480D5142Q34651070-77B7D46B-C698-4CC4-B25B-D71DCEF326A0Q34960760-7974D0AC-ADE3-4AD0-A33C-FC4F85DD564FQ35688037-1C9BE8A2-E467-455A-BD7E-BB21E51032A1Q35859412-F765F11E-4A8A-4DBC-A849-0771517D9BBBQ35988956-2C455629-8018-4F92-A96B-92232B104693Q36386948-568676C6-72AD-42A2-915B-EF011854E7B4Q36395493-2C425C64-66FC-4FAF-B1F9-CF0935028F14Q36487099-43F2BAB4-4C23-4963-BC42-C522CD473328Q36557495-FD49DEA1-29B2-4B66-9779-DE4F21C6FCE0Q36569330-DB8A9F3F-3A38-4FFB-88C5-E5D8221C9D01Q36733239-21E52EB1-09E5-4A22-9FB1-ABD0E2CA7B63
P2860
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
description
2008 nî lūn-bûn
@nan
2008 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@ast
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@en
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@nl
type
label
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@ast
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@en
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@nl
prefLabel
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@ast
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@en
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@nl
P2860
P3181
P1476
PGAM5 tethers a ternary complex containing Keap1 and Nrf2 to mitochondria
@en
P2093
Mark Hannink
Shih-Ching Lo
P2860
P304
P3181
P356
10.1016/J.YEXCR.2008.02.014
P407
P577
2008-05-01T00:00:00Z