Aging disrupts circadian gene regulation and function in macrophages

Keyphrases

• Aging 100%
• Macrophages 100%
• Clock Genes 100%
• Gene Regulation 100%
• Gene Function 100%
• KLF4 66%
• Innate Immune Response 33%
• Gene Transcription 33%
• Transcription Factor 16%
• Neurodegeneration 16%
• Inflammatory Diseases 16%
• Genetic Variants 16%
• Immune Response 16%
• Ablation 16%
• Phagocytic Activity 16%
• Bone Marrow 16%
• Bacterial Infection 16%
• Lipopolysaccharide 16%
• Phagocytosis 16%
• Frailty 16%
• Cell Differentiation 16%
• Age-associated 16%
• Increased Vulnerability 16%
• Aging Effect 16%
• Cell Reprogramming 16%
• Chromatin Accessibility 16%
• Tissue-resident Macrophages 16%
• Immune Homeostasis 16%
• Diurnal Rhythm 16%
• Aging Susceptibility 16%
• Protective Immune Response 16%
• Macrophage Phagocytosis 16%
• Blood Response 16%
• Monocyte Trafficking 16%
• Diurnal Expression 16%

Immunology and Microbiology

• Macrophage 100%
• Gene Control 100%
• Gene Function 100%
• Kruppel Like Factor 4 50%
• Phagocytosis 37%
• Immune Response 25%
• Genetic Transcription 25%
• Infection 25%
• Transcription Factors 12%
• Homeostasis 12%
• Inflammatory Disorder 12%
• Circadian Rhythm 12%
• Atherosclerosis 12%
• Cell Differentiation 12%
• Innate Immune System 12%
• Nuclear Reprogramming 12%
• Susceptibility 12%

Neuroscience

• Gene Control 100%
• Macrophage 100%
• Gene Function 100%
• KLF4 50%
• Phagocytosis 37%
• Genetic Transcription 25%
• Transcription Factors 12%
• Neurodegeneration 12%
• Cellular Differentiation 12%
• Lipopolysaccharide 12%
• Nuclear Reprogramming 12%
• Circadian Rhythm 12%