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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
Research output
:
Contribution to journal
›
Article
›
peer-review
38
Scopus citations
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Dive into the research topics of 'Reduced coupling of oxidative phosphorylation In Vivo precedes electron transport chain defects due to mild oxidative stress in mice'. Together they form a unique fingerprint.
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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%