Redox regulation of antioxidants, autophagy, and the response to stress: implications for electrophile therapeutics.
about
Metabolic, autophagic, and mitophagic activities in cancer initiation and progressionNovel concepts on pregnancy clocks and alarms: redundancy and synergy in human parturitionThe Role of Autophagy, Mitophagy and Lysosomal Functions in Modulating Bioenergetics and Survival in the Context of Redox and Proteotoxic Damage: Implications for Neurodegenerative DiseasesRole of redoximiRs in fibrogenesisRedox-fibrosis: Impact of TGFβ1 on ROS generators, mediators and functional consequencesCellular and Molecular Connections between Autophagy and InflammationRole of lipid peroxidation derived 4-hydroxynonenal (4-HNE) in cancer: focusing on mitochondriaHCV and Oxidative Stress: Implications for HCV Life Cycle and HCV-Associated PathogenesisGlutathione: new roles in redox signaling for an old antioxidantOxidative stress: a concept in redox biology and medicineReactive oxygen species and fibrosis: further evidence of a significant liaisonOxidative stress and autophagy: the clash between damage and metabolic needsTeaching the basics of autophagy and mitophagy to redox biologists--mechanisms and experimental approachesActivation of Proinflammatory Responses in Cells of the Airway Mucosa by Particulate Matter: Oxidant- and Non-Oxidant-Mediated Triggering MechanismsBioenergetic adaptation in response to autophagy regulators during rotenone exposureEuropean contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS).Aging and energetics' 'Top 40' future research opportunities 2010-2013.PGC-1α Modulates Telomere Function and DNA Damage in Protecting against Aging-Related Chronic Diseases.Redox signalling and mitochondrial stress responses; lessons from inborn errors of metabolism.The Redox Code.Nano-liquid Chromatography-orbitrap MS-based Quantitative Proteomics Reveals Differences Between the Mechanisms of Action of Carnosic Acid and Carnosol in Colon Cancer Cells.Look who's talking-the crosstalk between oxidative stress and autophagy supports exosomal-dependent release of HCV particles.Nitro-fatty acids in cardiovascular regulation and diseases: characteristics and molecular mechanisms.Modification of platelet proteins by 4-hydroxynonenal: Potential Mechanisms for inhibition of aggregation and metabolism(13)C metabolic flux analysis in neurons utilizing a model that accounts for hexose phosphate recycling within the pentose phosphate pathway.Protein Sulfenylation: A Novel Readout of Environmental Oxidant Stress.Activation of volume-sensitive Cl- channel mediates autophagy-related cell death in myocardial ischaemia/reperfusion injury.Interconnections between apoptotic and autophagic pathways during thiopurine-induced toxicity in cancer cells: the role of reactive oxygen species.Regulation of autophagy by protein post-translational modification.The Dual Role of Nrf2 in Nonalcoholic Fatty Liver Disease: Regulation of Antioxidant Defenses and Hepatic Lipid Metabolism.The basic chemistry of exercise-induced DNA oxidation: oxidative damage, redox signaling, and their interplay.KEAP1-NRF2 signalling and autophagy in protection against oxidative and reductive proteotoxicity.Free radicals and related reactive species as mediators of tissue injury and disease: implications for Health.The Role of MicroRNAs in Environmental Risk Factors, Noise-Induced Hearing Loss, and Mental Stress.Oxyradical Stress, Endocannabinoids, and Atherosclerosis.Induction of mitochondrial reactive oxygen species production by GSH mediated S-glutathionylation of 2-oxoglutarate dehydrogenase.Functional role of TRP channels in modulating ER stress and Autophagy.Constitutive activation of Nrf2 induces a stable reductive state in the mouse myocardium.Post-translational modifications in mitochondria: protein signaling in the powerhouse.Pyrrolidine dithiocarbamate restores gastric damages and suppressive autophagy induced by hydrogen peroxide.
P2860
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P2860
Redox regulation of antioxidants, autophagy, and the response to stress: implications for electrophile therapeutics.
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Redox regulation of antioxidan ...... for electrophile therapeutics.
@ast
Redox regulation of antioxidan ...... for electrophile therapeutics.
@en
type
label
Redox regulation of antioxidan ...... for electrophile therapeutics.
@ast
Redox regulation of antioxidan ...... for electrophile therapeutics.
@en
prefLabel
Redox regulation of antioxidan ...... for electrophile therapeutics.
@ast
Redox regulation of antioxidan ...... for electrophile therapeutics.
@en
P2860
P50
P921
P1476
Redox regulation of antioxidan ...... for electrophile therapeutics
@en
P2093
Jianhua Zhang
Victor M Darley-Usmar
P2860
P304
P356
10.1016/J.FREERADBIOMED.2014.03.025
P577
2014-03-26T00:00:00Z