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Redox-optimized ROS balance: A unifying hypothesis
M. A. Aon, S. Cortassa,
B. O'Rourke
School of Medicine
Research output
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Contribution to journal
›
Article
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peer-review
240
Scopus citations
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Medicine & Life Sciences
Oxidation-Reduction
100%
Reactive Oxygen Species
83%
Mitochondria
73%
Oxidative Stress
32%
Electron Transport
32%
NADP
32%
NAD
30%
Antioxidants
22%
Glutathione Disulfide
18%
Mitochondrial Membrane Potential
15%
Superoxides
14%
Workload
14%
Cardiac Myocytes
13%
Guinea Pigs
13%
Electrons
11%
Hypoxia
11%
Ischemia
11%
Heart
9%
Chemical Compounds
Reactive Oxygen Metabolite
97%
Oxidative Stress
44%
Redox Potential
42%
Antioxidant Agent
22%
Redox State
17%
Membrane Potential
16%
Reduction Potential
15%
Superoxide
14%
Reduction
13%
Electron Particle
8%
Energy
6%
Oxidation Reaction
6%