Add to ORKGWe examine sequential spatial pattern formation in a tissue interaction model for skin organ morphogenesis. Pattern formation occurs as a front sweeps across the domain leaving in its wake a steady state spatial pattern. Extensive numerical simulations show that these fronts travel with constant wave speed. By considering the envelope of the solution profile we present a novel method of calculating its wave speed
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
We discuss the existence and the uniqueness of travelling wave solutions for a tissue interaction mo...
We examine sequential spatial pattern formation in a tissue interaction model for skin organ morphog...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
AbstractWe analyse a tissue interaction model recently proposed to account for pattern formation in ...
We analyse a tissue interaction model recently proposed to account for pattern formation in the morp...
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 ...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
Boundary-induced pattern formation is investigated using spatially one-dimensional, two-component re...
A tissue interaction model for skin organ pattern formation is presented. Possible spatially pattern...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
We discuss the existence and the uniqueness of travelling wave solutions for a tissue interaction mo...
We examine sequential spatial pattern formation in a tissue interaction model for skin organ morphog...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
AbstractWe analyse a tissue interaction model recently proposed to account for pattern formation in ...
We analyse a tissue interaction model recently proposed to account for pattern formation in the morp...
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 ...
During morphogenesis regular patterns often develop behind a frontier of pattern formation which tra...
Boundary-induced pattern formation is investigated using spatially one-dimensional, two-component re...
A tissue interaction model for skin organ pattern formation is presented. Possible spatially pattern...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
We discuss the existence and the uniqueness of travelling wave solutions for a tissue interaction mo...