The central issue in development is the formation of spatial patterns of cells in the early embryo. The mechanisms which generate these patterns are unknown. Here we describe the new Oster-Murray mechanochemical approach to the problem, the elements of which are experimentally well documented. By way of illustration we derive one of the basic models from first principles and apply it to a variety of problems of current interest and research. We specifically discuss the formation of skin organ patterns, such as feather and scale germs, cartilage condensations in the developing vertebrate limb and finally wound healing. © 1988
International audiencePatterns are ubiquitous in living systems and underlie the dynamic organizatio...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
A central issue in developmental biology is the formation of spatial pattern in the early embryo. F...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
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...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
Background During embryogenesis, chemical (morphogen) and mechanical patterns develop within tiss...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
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...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Many embryonic cells generate substantial contractile forces as they spread and crawl. These forces ...
We analyze a one-dimensional mechanical model which has been proposed to account for the pattern for...
International audiencePatterns are ubiquitous in living systems and underlie the dynamic organizatio...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
A central issue in developmental biology is the formation of spatial pattern in the early embryo. F...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
The central issue in development is the formation of spatial patterns of cells in the early embryo. ...
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...
Chemical and mechanical pattern formation is fundamental during embryogenesis and tissue development...
Background During embryogenesis, chemical (morphogen) and mechanical patterns develop within tiss...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
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...
Motivated by recent experimental findings, we propose a novel mechanism of embryonic pattern formati...
Many embryonic cells generate substantial contractile forces as they spread and crawl. These forces ...
We analyze a one-dimensional mechanical model which has been proposed to account for the pattern for...
International audiencePatterns are ubiquitous in living systems and underlie the dynamic organizatio...
Mathematical modelling has become a widely accepted method for examining how and why vertebrate skin...
A central issue in developmental biology is the formation of spatial pattern in the early embryo. F...