Statistical-Mechanical Model
Cross-source consensus on Statistical-Mechanical Model from 1 sources and 5 claims.
1 sources · 5 claims
How it works
Preparation
Highlighted claims
- The model minimizes Helmholtz free energy as a function of order parameters for three transitions. — Hierarchical phase transitions as mechanical checkpoints of intracellular organization
- The model treats local cellular regions as two-dimensional square lattices under constant volume, temperature, and particle or fiber number assumptions. — Hierarchical phase transitions as mechanical checkpoints of intracellular organization
- For PT1, increasing substrate stiffness lowers interaction energy and favors stress-fiber formation. — Hierarchical phase transitions as mechanical checkpoints of intracellular organization
- For PT2, larger numbers of stress fibers make alignment easier under the same force conditions. — Hierarchical phase transitions as mechanical checkpoints of intracellular organization
- For PT3, high binding-protein concentration stabilizes aggregated fibers. — Hierarchical phase transitions as mechanical checkpoints of intracellular organization