Oxidative modification and aggregation of creatine kinase from aged mouse skeletal muscle.

Keyphrases

• Aged Mice 100%
• Oxidative Modification 100%
• Middle-aged 100%
• Creatine Kinase 100%
• Mouse Skeletal muscle 100%
• Structural Change 66%
• Tyrosine 66%
• Quadriceps 66%
• Phosphate 33%
• Aging 33%
• Age-associated 33%
• Protein Modification 33%
• Age-related Changes 33%
• Rodents 33%
• Skeletal muscle 33%
• Enzyme Activity 33%
• Proteomic Analysis 33%
• Protein Aggregates 33%
• Energy Requirement 33%
• Functional Change 33%
• High Molecular Weight 33%
• Energy Homeostasis 33%
• Oligomerization 33%
• Differentially Expressed Proteins 33%
• Creatine Phosphate 33%
• High-energy Compounds 33%
• Insoluble Protein 33%
• Am(III) 33%
• Protein Stability 33%
• Structural Instability 33%
• Activity Stability 33%
• Muscle Creatine Kinase 33%

Neuroscience

• Adenosine Triphosphate 100%
• Nitrotyrosine 100%
• Creatine Kinase 100%
• Skeletal Muscle 100%
• Energy Transfer 50%
• Proteomics 50%
• Enzyme Activity 50%
• Enzymes 50%
• Oligomer 50%
• Creatine Phosphate 50%
• Protein Aggregate 50%
• Protein Modification 50%
• Protein Stability 50%
• Creatine Kinase MM 50%

Biochemistry, Genetics and Molecular Biology

• Skeletal Muscle 100%
• Creatine Kinase 100%
• Adenosine Triphosphate 66%
• Proteomics 33%
• Homeostasis 33%
• Energy Transfer 33%
• Molecular Weight 33%
• Protein Modification 33%
• Enzyme Activity 33%
• Oligomerization 33%
• Protein Stability 33%