Redox-optimized ROS balance: A unifying hypothesis

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%