A tissue interaction model for skin organ pattern formation is presented. Possible spatially patterned solutions on rectangular domains are investigated. Linear stability analysis suggests that the model can exhibit pattern formation. A weakly nonlinear two-dimensional perturbation analysis is then carried out. This demonstrates that when bifurcation occurs via a simple eigenvalue, patterns such as rolls, squares, and rhombi can be supported by the model equations. Our nonlinear analysis shows that more complex patterns are also possible if bifurcation occurs via a double eigenvalue. Surprisingly, hexagonal patterns could not develop from a primary bifurcation
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We present an in-depth study of spatio-temporal patterns in a simplified version of a mechanical mod...
AbstractA nonlinear reaction-diffusion model of pattern generation and morphogenesis during embryoni...
A tissue interaction model for skin organ pattern formation is presented. Possible spatially pattern...
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...
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...
This paper studies a simplified but biologically relevant version of a mechanical model for morphoge...
We present a mechanical model for cell aggregation in embryonic development. The model is based on t...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
The general problem of pattern formation in biological development is described. One possible type ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
Chemotaxis is known to be important in cell aggregation in a variety of contexts. We propose a simp...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We present an in-depth study of spatio-temporal patterns in a simplified version of a mechanical mod...
AbstractA nonlinear reaction-diffusion model of pattern generation and morphogenesis during embryoni...
A tissue interaction model for skin organ pattern formation is presented. Possible spatially pattern...
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...
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...
This paper studies a simplified but biologically relevant version of a mechanical model for morphoge...
We present a mechanical model for cell aggregation in embryonic development. The model is based on t...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
The general problem of pattern formation in biological development is described. One possible type ...
We consider a simple cell-chemotaxis model for spatial pattern formation on two-dimensional domains ...
We study heterogeneous steady-state solutions of a cell-chemotaxis model for generating biological s...
Chemotaxis is known to be important in cell aggregation in a variety of contexts. We propose a simp...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We present an in-depth study of spatio-temporal patterns in a simplified version of a mechanical mod...
AbstractA nonlinear reaction-diffusion model of pattern generation and morphogenesis during embryoni...