Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin structures are laid down in an orderly and organized fashion. Although various theoretical models have been proposed for examining the morphogenetic processes responsible for the large variety of patterns observed on animal skin, these processes are still not well understood. By examining a mechanochemical tissue interaction model based on recent experimental evidence we therefore hope to contribute towards the understanding of skin morphogenesis
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
<div><p>Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue dev...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
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...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
A first necessary criterion to be met by any model for pattern formation is that it must be able to ...
Embryogenesis depends on a series of processes which generate specific patterns at each stage of dev...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
Patterns form with the break of homogeneity and lead to the emergence of new structure or arrangemen...
Many embryonic cells generate substantial contractile forces as they spread and crawl. These forces ...
The formation of self-organized patterns is key to the morphogenesis of multicellular organisms, alt...
During vertebrate development cells acquire different fates depending largely on their location in t...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
<div><p>Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue dev...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
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...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
A first necessary criterion to be met by any model for pattern formation is that it must be able to ...
Embryogenesis depends on a series of processes which generate specific patterns at each stage of dev...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
Patterns form with the break of homogeneity and lead to the emergence of new structure or arrangemen...
Many embryonic cells generate substantial contractile forces as they spread and crawl. These forces ...
The formation of self-organized patterns is key to the morphogenesis of multicellular organisms, alt...
During vertebrate development cells acquire different fates depending largely on their location in t...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
<div><p>Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue dev...