A coupled rigid-body/Fourier-space membrane simulation framework reveals that the effective bending rigidity of clathrin lattices is geometry-dependent, with spherical deformations yielding stiffnesses an order of magnitude larger than flat-sheet buckling measurements.
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Dynamical Simulation of Membrane Bending by Flexible Protein Assemblies
A coupled rigid-body/Fourier-space membrane simulation framework reveals that the effective bending rigidity of clathrin lattices is geometry-dependent, with spherical deformations yielding stiffnesses an order of magnitude larger than flat-sheet buckling measurements.