Hybrid simulation and non-Euclidean elasticity theory demonstrate that clathrin coats develop adaptive rigidity and memory during growth, producing flat, stalled, or closed outcomes through two energy-landscape gates and matching experiments without fitted parameters.
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DEM simulations of 3D frictional spheres show friction-dependent trends in force distributions, coordination number, and density during unjamming via random particle removal, qualitatively matching prior observations in dense systems despite the different driving mechanism.
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Pathway variability, coat stiffening and mechanical adaptation during clathrin-mediated endocytosis
Hybrid simulation and non-Euclidean elasticity theory demonstrate that clathrin coats develop adaptive rigidity and memory during growth, producing flat, stalled, or closed outcomes through two energy-landscape gates and matching experiments without fitted parameters.
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Unjamming in a 3D Granular System: The Micromechanical Role of Friction in Force Distributions and Rheological Properties
DEM simulations of 3D frictional spheres show friction-dependent trends in force distributions, coordination number, and density during unjamming via random particle removal, qualitatively matching prior observations in dense systems despite the different driving mechanism.