AbstractDevelopment of multicellular organisms is commonly associated with the response of individual cells to concentrations of chemical substances called morphogens. Concentration fields of morphogens form a basis for biological patterning and ensure its properties including ability to scale with the size of the organism. While mechanisms underlying the formation of morphogen gradients are reasonably well understood, little is known about processes responsible for their scaling. Here, we perform a formal analysis of scaling for chemical patterns forming in continuous systems. We introduce a quantity representing the sensitivity of systems to changes in their size and use it to analyse scaling properties of patterns forming in a few differ...
The patterning of many developing tissues is organized by morphogens. Genetic and environmental pert...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
Successful biological development via spatial and temporal regulations of cell differentiation relie...
AbstractDevelopment of multicellular organisms is commonly associated with the response of individua...
We investigate a simple generic model of a reaction–diffusion system consisting of an activator and ...
International audienceAbstract Morphogen gradients are a central concept in developmental biology. T...
Successful biological development via spatial and temporal regulations of cell differentiation relie...
We discuss the formation of graded morphogen profiles in a cell layer by nonlinear transport phenome...
The formation and growth of multi-cellular organisms and tissues from several genetically identical ...
The Turing instability in the reaction-diffusion system is a widely recognized mechanism of the morp...
<div><p>The Turing instability in the reaction-diffusion system is a widely recognized mechanism of ...
The fundamental processes of biological development are governed by multiple signaling molecules tha...
A number of models for pattern formation and regulation are based on the hypothesis that a diffusibl...
In biology, embryological development of the structure of an organism or limb is referred to as morp...
Morphogens are signaling molecules that play a key role in animal development. They spread from a re...
The patterning of many developing tissues is organized by morphogens. Genetic and environmental pert...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
Successful biological development via spatial and temporal regulations of cell differentiation relie...
AbstractDevelopment of multicellular organisms is commonly associated with the response of individua...
We investigate a simple generic model of a reaction–diffusion system consisting of an activator and ...
International audienceAbstract Morphogen gradients are a central concept in developmental biology. T...
Successful biological development via spatial and temporal regulations of cell differentiation relie...
We discuss the formation of graded morphogen profiles in a cell layer by nonlinear transport phenome...
The formation and growth of multi-cellular organisms and tissues from several genetically identical ...
The Turing instability in the reaction-diffusion system is a widely recognized mechanism of the morp...
<div><p>The Turing instability in the reaction-diffusion system is a widely recognized mechanism of ...
The fundamental processes of biological development are governed by multiple signaling molecules tha...
A number of models for pattern formation and regulation are based on the hypothesis that a diffusibl...
In biology, embryological development of the structure of an organism or limb is referred to as morp...
Morphogens are signaling molecules that play a key role in animal development. They spread from a re...
The patterning of many developing tissues is organized by morphogens. Genetic and environmental pert...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
Successful biological development via spatial and temporal regulations of cell differentiation relie...