Volume 96, Number 2, October 2011
|Number of page(s)||6|
|Section||Interdisciplinary Physics and Related Areas of Science and Technology|
|Published online||28 September 2011|
Substrate rigidity deforms and polarizes active gels
Department of Physics, Syracuse University - Syracuse, NY 13244-1130, USA
2 Syracuse Biomaterials Institute, Syracuse University - Syracuse, NY 13244-1130, USA
Accepted: 28 August 2011
We present a continuum model of the coupling between cells and substrate that accounts for some of the observed substrate-stiffness dependence of cell properties. The cell is modeled as an elastic active gel, adapting recently developed continuum theories of active viscoelastic fluids. The coupling to the substrate enters as a boundary condition that relates the cell's deformation field to local stress gradients. In the presence of activity, the coupling to the substrate yields spatially inhomogeneous contractile stresses and deformations in the cell and can enhance polarization, breaking the cell's front-rear symmetry.
PACS: 87.10.Pq – Elasticity theory / 87.17.Rt – Cell adhesion and cell mechanics
© EPLA, 2011
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