Tissue interaction plays a major role in many morphogenetic processes, particularly those associated with skin organ primordia. We examine travelling wave solutions in a tissue interaction model for skin pattern formation which is firmly based on the known biology. From a phase space analysis we conjecture the existence of travelling waves with specific wave speeds. Subsequently, analytical approximations to the wave profiles are derived using perturbation methods. We then show numerically that such travelling wave solutions do exist and that they are in good agreement with our analytical results. Finally, the biological implications of our analysis are discussed
Invasive cells variously show changes in adhesion, protease production and motility, In this paper t...
We consider a simplified 1-dimensional PDE-model describing the effect of contact inhibition in grow...
We consider a continuum mathematical model of biological tissue formation inspired by recent experim...
Tissue interaction plays a major role in many morphogenetic processes, particularly those associated...
Tissue interaction plays a major role in many morphogenetic processes, particularly those associated...
AbstractWe analyse a tissue interaction model recently proposed to account for pattern formation in ...
We discuss the existence and the uniqueness of travelling wave solutions for a tissue interaction mo...
We analyse a tissue interaction model recently proposed to account for pattern formation in the morp...
A large variety of complex spatio-temporal patterns emerge from the processes occurring in biologica...
We examine sequential spatial pattern formation in a tissue interaction model for skin organ morphog...
1991 Mathematics Subject Classification. 34C37, 92C37, 92C40.We discuss the existence and the unique...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
Single-species reaction–diffusion equations, such as the Fisher–KPP and Porous-Fisher equations, sup...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
We consider a free boundary model of epithelial cell migration with logistic growth and nonlinear di...
Invasive cells variously show changes in adhesion, protease production and motility, In this paper t...
We consider a simplified 1-dimensional PDE-model describing the effect of contact inhibition in grow...
We consider a continuum mathematical model of biological tissue formation inspired by recent experim...
Tissue interaction plays a major role in many morphogenetic processes, particularly those associated...
Tissue interaction plays a major role in many morphogenetic processes, particularly those associated...
AbstractWe analyse a tissue interaction model recently proposed to account for pattern formation in ...
We discuss the existence and the uniqueness of travelling wave solutions for a tissue interaction mo...
We analyse a tissue interaction model recently proposed to account for pattern formation in the morp...
A large variety of complex spatio-temporal patterns emerge from the processes occurring in biologica...
We examine sequential spatial pattern formation in a tissue interaction model for skin organ morphog...
1991 Mathematics Subject Classification. 34C37, 92C37, 92C40.We discuss the existence and the unique...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
Single-species reaction–diffusion equations, such as the Fisher–KPP and Porous-Fisher equations, sup...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
We consider a free boundary model of epithelial cell migration with logistic growth and nonlinear di...
Invasive cells variously show changes in adhesion, protease production and motility, In this paper t...
We consider a simplified 1-dimensional PDE-model describing the effect of contact inhibition in grow...
We consider a continuum mathematical model of biological tissue formation inspired by recent experim...