Protein redox modification as a cellular defense mechanism against tissue ischemic injury

Keyphrases

• Ischemic Injury 100%
• Redox Transformation 100%
• Cellular Defense Mechanism 100%
• Oxidized Proteins 60%
• Protein Function 60%
• Reversible Oxidation 40%
• Cysteine Redox State 40%
• Cysteine Residues 20%
• Therapeutic Target 20%
• Redox Signaling 20%
• Protective Behavior 20%
• Pharmacological Agents 20%
• Reactive Oxygen Species 20%
• Ischemic Tolerance 20%
• Reactive Nitrogen Species 20%
• Disulfide Bond Formation 20%
• Postconditioning 20%
• Protein Aggregation 20%
• Protein Degradation 20%
• Oxidative Modification 20%
• Stressful Conditions 20%
• S-glutathionylation 20%
• S-nitrosylation 20%
• Pharmacological Drugs 20%
• Stress Challenge 20%
• Protective Measures 20%
• S-sulfonation 20%

Biochemistry, Genetics and Molecular Biology

• Protein Function 100%
• Cellular Immunity 100%
• Cysteine 100%
• Signal Transduction 33%
• Reactive Nitrogen 33%
• Disulfide Bond 33%
• Protein Aggregation 33%
• S-Glutathionylation 33%
• Sulphonation 33%
• Protein Degradation 33%
• S-Nitrosylation 33%

Pharmacology, Toxicology and Pharmaceutical Science

• Injury 100%
• Cysteine 60%
• Reactive Oxygen Metabolite 20%
• Reactive Nitrogen Species 20%
• Disulfide Bond 20%