Stress fiber anisotropy contributes to force-mode dependent chromatin stretching and gene upregulation in living cells

Keyphrases

• Living Cells 100%
• Chromatin 100%
• Mode-dependent 100%
• Stress Fibers 100%
• Forced Mode 100%
• Gene Upregulation 100%
• Fiber Anisotropy 100%
• Cell Stiffness 80%
• Dihydrofolate Reductase Gene 60%
• Gene Transcription 40%
• Theoretical Modeling 20%
• Gene Expression 20%
• Integrin 20%
• Magnetic Beads 20%
• Myosin II 20%
• Local Forces 20%
• Anisotropic Stress 20%
• Biological Response 20%
• Living Tissue 20%
• Impact Force 20%
• Actin Stress Fibers 20%
• In-plane Stress 20%
• Complex Modes 20%
• Stress Mode 20%
• In-plane Mode 20%
• Mode-dependence 20%
• Out-of-plane Stress 20%

Biochemistry, Genetics and Molecular Biology

• Rigidity 100%
• Anisotropy 100%
• Upregulation 100%
• Stress Fiber 100%
• Dihydrofolate Reductase 75%
• Genetic Transcription 50%
• Gene Expression 25%
• Actin 25%
• Integrin 25%
• Myosin 25%