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%