Models for contact-mediated pattern formation: cells that form parallel arrays |
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| Authors: | Leah Edelstein-Keshet G Bard Ermentrout |
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| Institution: | (1) Mathematics Department, University of British Columbia, V6T IY4V6T Vancouver, BC, Canada;(2) Mathematics Department, University of Pittsburgh, 15260 Pittsburgh, PA, USA |
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| Abstract: | Kinetic continuum models are derived for cells that crawl over a 2D substrate, undergo random reorientation, and turn in response to contact with a neighbor. The integro-partial differential equations account for changes in the distribution of orientations in the population. It is found that behavior depends on parameters such as total mass, random motility, adherence, and sloughing rates, as well as on broad aspects of the contact response. Linear stability analysis, and numerical, and cellular automata simulations reveal that as parameters are varied, a bifurcation leads to loss of stability of a uniform (isotropic) steady state, in favor of an (anisotropic) patterned state in which cells are aligned in parallel arrays. |
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| Keywords: | Cell motion Contact response Pattern formation Cell alignment Parallel arrays Biological cellular automata Integro-partial differential equation models |
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