Oxygen sensitivity of mitochondrial reactive oxygen species generation depends on metabolic conditions. - Wikidata - awgldk - TriplyDB

Oxygen sensitivity of mitochondrial reactive oxygen species generation depends on metabolic conditions.

Oxygen sensitivity of mitochondrial reactive oxygen species generation depends on metabolic conditions.

http://www.wikidata.org/entity/Q42554907

about

Redox biology in pulmonary arterial hypertension (2013 Grover Conference Series)Oxidative stress and the unfulfilled promises of antioxidant agents Manganese neurotoxicity and the role of reactive oxygen species Novel mitochondrial targets for neuroprotection Computational modeling analysis of mitochondrial superoxide production under varying substrate conditions and upon inhibition of different segments of the electron transport chain.Protective mechanisms of mitochondria and heart function in diabetes Reactive oxygen species in unstimulated hemocytes of the pacific oyster Crassostrea gigas: a mitochondrial involvement Differential Cytotoxicity of Acetaminophen in Mouse Macrophage J774.2 and Human Hepatoma HepG2 Cells: Protection by Diallyl Sulfide Complex I-associated hydrogen peroxide production is decreased and electron transport chain enzyme activities are altered in n-3 enriched fat-1 mice Oxygen Use in Neonatal Care: A Two-edged Sword Direct activation of RhoA by reactive oxygen species requires a redox-sensitive motif.Mitochondria-Mediated Anticancer Effects of Non-Thermal Atmospheric Plasma.Attempting to Compensate for Reduced Neuronal Nitric Oxide Synthase Protein with Nitrate Supplementation Cannot Overcome Metabolic Dysfunction but Rather Has Detrimental Effects in Dystrophin-Deficient mdx Muscle.Electron transport chain-dependent and -independent mechanisms of mitochondrial H2O2 emission during long-chain fatty acid oxidation.PPAR/RXR Regulation of Fatty Acid Metabolism and Fatty Acid omega-Hydroxylase (CYP4) Isozymes: Implications for Prevention of Lipotoxicity in Fatty Liver Disease Glycolytic oscillations in single ischemic cardiomyocytes at near anoxia.Complex oscillatory redox dynamics with signaling potential at the edge between normal and pathological mitochondrial function.Reactive oxygen species production by forward and reverse electron fluxes in the mitochondrial respiratory chain.The sites and topology of mitochondrial superoxide production Mitochondrial dysfunction and resuscitation in sepsis.Reactive oxygen species stimulate insulin secretion in rat pancreatic islets: studies using mono-oleoyl-glycerol Stabilization of hypoxia-inducible factor-1alpha protein in hypoxia occurs independently of mitochondrial reactive oxygen species production.Post-ovulatory aging of oocytes disrupts kinase signaling pathways and lysosome biogenesis Loss of a conserved tyrosine residue of cytochrome b induces reactive oxygen species production by cytochrome bc1.Bioenergetics, mitochondria, and cardiac myocyte differentiation The mechanism of superoxide production by the antimycin-inhibited mitochondrial Q-cycle High-Resolution Respirometry for Simultaneous Measurement of Oxygen and Hydrogen Peroxide Fluxes in Permeabilized Cells, Tissue Homogenate and Isolated Mitochondria.Mitochondrial ROS Metabolism: 10 Years Later.Glutathione/thioredoxin systems modulate mitochondrial H2O2 emission: an experimental-computational study.Mitochondrial respiration protects against oxygen-associated DNA damage.Native rates of superoxide production from multiple sites in isolated mitochondria measured using endogenous reporters.Oxygen versus Reactive Oxygen in the Regulation of HIF-1α: The Balance Tips Integrating mitochondrial energetics, redox and ROS metabolic networks: a two-compartment model Tumor-suppressive maspin functions as a reactive oxygen species scavenger: importance of cysteine residues.Association between Oxidative DNA Damage and Risk of Colorectal Cancer: Sensitive Determination of Urinary 8-Hydroxy-2'-deoxyguanosine by UPLC-MS/MS Analysis Sites of superoxide and hydrogen peroxide production during fatty acid oxidation in rat skeletal muscle mitochondria.Systems biology of antioxidants.Regulation of cellular gas exchange, oxygen sensing, and metabolic control.The Yin and Yang of redox regulation.Hitting the Bull's-Eye in Metastatic Cancers-NSAIDs Elevate ROS in Mitochondria, Inducing Malignant Cell Death.

P2860

Q26772286-3CC8775B-8727-4835-9350-04CE397A8BC9 Q26797300-0F437684-CA8A-46BB-813B-0A3DD0626E0C Q26853665-A4A31A18-2536-4072-B6C5-62284FC0CBEC Q27023108-527C7D79-086B-439E-8545-A51F41C2FBD0 Q27332136-CE7CB17F-981B-44AF-B132-8337F6BC6FB9 Q28395215-29999DB9-862A-47CB-BD92-8032487A891E Q28484208-456DE3CB-87EC-46CD-A504-C2B80DE40B2F Q28551818-7156785A-5576-4D9B-B531-C8BCB2F19327 Q28749296-E10C544C-AD23-482F-8A56-8E74540CA377 Q30365148-1F99FFBE-0381-4BCE-87D4-C27526A6EAA2 Q30944927-A9A6E22F-F07A-4B3D-BA98-0213D6DE5B32 Q33468117-D79C5CAB-328C-48B7-BA95-C4DA79AB97B5 Q33586004-F36B3DBE-1960-4124-A4D4-4BE271D8313B Q33648511-D21C934E-0C4F-40A2-978E-B9E3E7AAE754 Q33734125-2D0441C1-2D19-4EE3-B7FC-92D7451088D2 Q33763167-658983FA-51AB-4E73-9C8D-D5E57852AB3C Q33858835-79F83FAC-70AF-4076-8C1A-085C1763E69A Q33869041-781E3DF6-FAE0-4708-B339-4031922B9D6F Q33888976-4C79D659-6078-4716-840B-287BC3061342 Q34014042-9103D734-A7C4-4C03-83F6-5EA8D4535D23 Q34137563-C2B248D8-0353-4948-B8EF-8D32F35E2B6B Q34181294-CA32863E-E3F0-485E-A35A-6666EA547122 Q34413047-4446014F-1B15-4C37-B064-93774ACBB8FD Q34979090-AA4817E6-833F-44B1-8D00-AF7110FD234F Q34987772-423F1BD1-AE9A-4728-A2AB-1215AACEE330 Q35213244-DE56AA23-DD86-4386-B0FF-F90E38951AC2 Q35679750-ED64BA31-2011-4D07-9F1F-709A693EC522 Q35879792-B7C95B91-BDDD-4C10-9AAD-D18CF1811347 Q35995736-CD94744C-EAAE-44B8-B1D6-8FF3F9788DA6 Q36085696-1008A1C5-5BD9-404F-B245-B46DB734F195 Q36319827-4745CF02-D45B-42EE-99ED-A80F8851EEE5 Q36326686-F13D2713-9A16-4A9C-8ED0-BB835BB0FD1F Q36554309-6472BE7A-4420-4BA3-8449-4DA254549F70 Q36779628-6983A35D-7FC3-4307-9CB3-80081F813949 Q37227694-AE726A2F-BA45-4A78-AFA8-95C52B54B1B0 Q37412145-DB03AD1D-7739-4E4B-863E-8BB4C8CD68AC Q38001768-E986FEB0-FF11-456B-96A3-770F9E47CF83 Q38125147-3C49EA95-DF49-4273-82D2-E6FE7874918E Q38151364-8F7CAC13-B1CB-4080-80D6-B343AB9E105F Q38358175-5337FFD9-8367-4539-AB6D-14FBF7CBE49F

P2860

Oxygen sensitivity of mitochondrial reactive oxygen species generation depends on metabolic conditions.

http://www.wikidata.org/entity/Q42554907

description

2009 nî lūn-bûn

@nan

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

2009年论文

@zh

2009年论文

@zh-cn

name

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@en

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@nl

type

label

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@en

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@nl

prefLabel

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@en

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@nl

P1433

Q42554907-A521A20B-1FAE-49B4-ADFD-03CD6DC255B9

P1476

Q42554907-B70C9DEB-2AE0-47AF-B478-F6E614C60C5D

P2093

Q42554907-D160ABA1-76E6-4A2B-AB45-90EEE43A3C91

Q42554907-F02D9E9E-2342-4944-8DAA-5BF13A980E36

P2860

Q42554907-0BE17584-EBE1-4AFC-857B-E77764EFFD05

Q42554907-1E05A61A-7CF0-4135-B20D-3A76511B6BF2

Q42554907-2465C07F-A85C-4603-8E52-EA303FB01519

Q42554907-25C98D62-9E55-49A7-91D3-AA96628936A4

Q42554907-2B8E6099-DB33-4B9F-8CA1-4CE21A8381A1

Q42554907-30977970-5860-45C8-8841-788C2B1AC45C

Q42554907-35FA92D1-F37F-4819-837D-8CFAC77FD22C

Q42554907-36E1E26E-3D09-4D70-9893-D465EE379669

Q42554907-387C7472-9296-416E-83D1-05433D67251D

Q42554907-39FD9E4E-7461-4D3D-87FF-4591D2FB1327

P304

Q42554907-22C7DE1D-F1A2-4AF7-87CE-37307D053860

P31

Q42554907-C118CA88-4726-4051-957D-82CE5EEB7D93

P356

Q42554907-2656A4F4-AD60-423E-A7CF-DEED043C629B

P407

Q42554907-195D0CA5-3E57-402B-9E38-42D741BEA517

P433

Q42554907-0DF522DC-CC78-4327-BA28-DA9FB88311DC

P478

Q42554907-9F0309AE-A803-4702-9A6F-332250C9F61A

P50

Q42554907-7CFB6883-57CB-455A-9544-235068EB1CDC

P577

Q42554907-4FC8F408-22EB-48EB-B0FA-3ED0AF7AA636

P698

Q42554907-7B27DD83-0C4B-4CCF-B24E-BCECC52ADCA0

P932

Q42554907-269B0CA1-4230-4701-9859-C30FA4B74AB1

P356

P1433

Journal of Biological Chemistry

P1476

Oxygen sensitivity of mitochon ...... pends on metabolic conditions.

@en

P2093

David L Hoffman

http://www.w3.org/2001/XMLSchema#string

Paul S Brookes

http://www.w3.org/2001/XMLSchema#string

P2860

Crystal structure of mitochondrial respiratory membrane protein complex II

Bench-to-bedside review: Mitochondrial injury, oxidative stress and apoptosis--there is nothing more practical than a good theory

Mitochondrial reactive oxygen species trigger hypoxia-induced transcription

The mitochondrial generation of hydrogen peroxide. General properties and effect of hyperbaric oxygen

Reactive oxygen species generated at mitochondrial complex III stabilize hypoxia-inducible factor-1alpha during hypoxia: a mechanism of O2 sensing

Calcium, ATP, and ROS: a mitochondrial love-hate triangle

Topology of superoxide production from different sites in the mitochondrial electron transport chain

Determination of Km for oxygen of nitric oxide synthase isoforms.

Oxidant mechanisms in gentamicin nephrotoxicity.

Inhibitors of the quinone-binding site allow rapid superoxide production from mitochondrial NADH:ubiquinone oxidoreductase (complex I).

P304

16236-16245

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1074/JBC.M809512200

http://www.w3.org/2001/XMLSchema#string

P407

P433

24

http://www.w3.org/2001/XMLSchema#string

P478

284

http://www.w3.org/2001/XMLSchema#string

P50

Paul S. Brookes

P577

2009-04-14T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

19366681

http://www.w3.org/2001/XMLSchema#string

P932

2713566

http://www.w3.org/2001/XMLSchema#string