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Reduced coupling of oxidative phosphorylation In Vivo precedes electron transport chain defects due to mild oxidative stress in mice
Michael P. Siegel
, Shane E. Kruse
, Gary Knowels
,
Adam Salmon
, Richard Beyer
, Hui Xie
, Holly van Remmen
, Steven R. Smith
, David J. Marcinek
Department of Molecular Medicine
Department of Cell Systems & Anatomy
Department of Cellular & Integrative Physiology
Department of Medicine
Producción científica
:
Article
›
revisión exhaustiva
38
Citas (Scopus)
Información general
Huella
Huella
Profundice en los temas de investigación de 'Reduced coupling of oxidative phosphorylation In Vivo precedes electron transport chain defects due to mild oxidative stress in mice'. En conjunto forman una huella única.
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Ponderación
Alfabéticamente
Medicine and Dentistry
Oxidative Stress
100%
Paraquat
66%
Oxidative Phosphorylation
50%
Therapeutic Procedure
50%
Phosphorylation
33%
Skeletal Muscle
33%
Adenosine Triphosphate
33%
Respiratory Chain
33%
Oxygen
16%
Energy Transfer
16%
Nuclear Magnetic Resonance Spectroscopy
16%
Ex Vivo
16%
Transgenic Mouse
16%
Mitochondrial Respiration
16%
Stress
16%
Copper Zinc Superoxide Dismutase
16%
Cell Energy
16%
Optical Spectroscopy
16%
Association
16%
Absence
16%
Muscle
16%
Rest
16%
Neuroscience
In Vivo
100%
Oxidative Stress
100%
Oxidative Phosphorylation
50%
Mitochondrial Function
50%
Phosphorylation
33%
Skeletal Muscle
33%
Adenosine Triphosphate
33%
Electron Transport Chain
33%
Energy Transfer
16%
Mitochondrial Respiration
16%
Cell Energy
16%
SOD1
16%
Copper Zinc Superoxide Dismutase
16%
Spectroscopy
16%