English

On an evolution equation in a cell motility model

Analysis of PDEs 2016-03-23 v2

Abstract

This paper deals with the evolution equation of a curve obtained as the sharp interface limit of a non-linear system of two reaction-diffusion PDEs. This system was introduced as a phase-field model of (crawling) motion of eukaryotic cells on a substrate. The key issue is the evolution of the cell membrane (interface curve) which involves shape change and net motion. This issue can be addressed both qualitatively and quantitatively by studying the evolution equation of the sharp interface limit for this system. However, this equation is non-linear and non-local and existence of solutions presents a significant analytical challenge. We establish existence of solutions for a wide class of initial data in the so-called subcritical regime. Existence is proved in a two step procedure. First, for smooth (H2H^2) initial data we use a regularization technique. Second, we consider non-smooth initial data that are more relevant from the application point of view. Here, uniform estimates on the time when solution exists rely on a maximum principle type argument.

Keywords

Cite

@article{arxiv.1506.03945,
  title  = {On an evolution equation in a cell motility model},
  author = {Matthew S. Mizuhara and Leonid Berlyand and Volodymyr Rybalko and Lei Zhang},
  journal= {arXiv preprint arXiv:1506.03945},
  year   = {2016}
}
R2 v1 2026-06-22T09:52:26.698Z