Role of carbonyl modifications on aging-associated protein aggregation

Keyphrases

• Aging 100%
• Protein Aggregation 100%
• Associated Proteins 100%
• Carbonyl 100%
• Aged Mice 80%
• Oxidative Stress 20%
• Biological Phenomena 20%
• Mass Spectrometry Analysis 20%
• Post-translational 20%
• Post-translational Modification 20%
• Stress-related 20%
• Proteome 20%
• Pathological Conditions 20%
• Protein Misfolding 20%
• High Molecular Weight 20%
• Physiological Condition 20%
• Bone Marrow Cells 20%
• Carbonylation 20%
• Protein Solubility 20%
• Splenic Cells 20%
• Physiological Aging 20%
• Proteostasis 20%
• Carbonyl Stress 20%

Immunology and Microbiology

• Protein Aggregation 100%
• Splenocyte 25%
• Bone Marrow Cell 25%
• Protein Misfolding 25%
• Molecular Weight 25%
• Cellular, Subcellular and Molecular Biological Phenomena and Functions 25%
• Protein Homeostasis 25%
• Carbonylation 25%
• Oxidative Stress 25%
• Post-Translational Modification 25%

Biochemistry, Genetics and Molecular Biology

• Protein Aggregation 100%
• Posttranslational Modification 25%
• Proteome 25%
• Oxidative Stress 25%
• Cellular, Subcellular and Molecular Biological Phenomena and Functions 25%
• Protein Homeostasis 25%
• Protein Misfolding 25%
• Molecular Weight 25%
• Carbonylation 25%
• Splenocyte 25%