The Turing reaction-diffusion model explains how identical cells can self-organize to form spatial patterns. It has been suggested that extracellular signaling molecules with different diffusion coefficients underlie this model, but the contribution of cell-autonomous signaling components is largely unknown. We developed an automated mathematical analysis to derive a catalog of realistic Turing networks. This analysis reveals that in the presence of cell-autonomous factors, networks can form a pattern with equally diffusing signals and even for any combination of diffusion coefficients. We provide a software (available at http://www.RDNets.com) to explore these networks and to constrain topologies with qualitative and quantitative experimen...
Synthetic biology aims to develop new biological systems and devices, from the modification of exist...
The Turing mechanism for the production of a broken spatial symmetry in an initially homogeneous s...
Turing patterns are thought to underlie the formation of many tissue structures during development. ...
The Turing reaction-diffusion model explains how identical cells can self-organize to form spatial p...
<div><p>Efforts to engineer synthetic gene networks that spontaneously produce patterning in multice...
Turing pattern provides a paradigm of non-equilibrium self-organization in reaction-diffusion system...
The Turing, or reaction-diffusion (RD), model is one of the best-known theoretical models used to ex...
It is hard to bridge the gap between mathematical formulations and biological implementations of Tur...
A major force shaping form and patterns in biology is based in the presence of amplification mechani...
Biological organisms rely on spatial variation in cell activity to coordinate diverse activities, su...
This paper proposes a control theoretic framework to model and analyze the self-organized pattern fo...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
The Turing pattern model is one of the theories used to describe organism formation patterns. Using ...
It is hard to bridge the gap between mathematical formulations and biological implementations of Tur...
Embryonic development is a largely self-organizing process, in which the adult body plan arises from...
Synthetic biology aims to develop new biological systems and devices, from the modification of exist...
The Turing mechanism for the production of a broken spatial symmetry in an initially homogeneous s...
Turing patterns are thought to underlie the formation of many tissue structures during development. ...
The Turing reaction-diffusion model explains how identical cells can self-organize to form spatial p...
<div><p>Efforts to engineer synthetic gene networks that spontaneously produce patterning in multice...
Turing pattern provides a paradigm of non-equilibrium self-organization in reaction-diffusion system...
The Turing, or reaction-diffusion (RD), model is one of the best-known theoretical models used to ex...
It is hard to bridge the gap between mathematical formulations and biological implementations of Tur...
A major force shaping form and patterns in biology is based in the presence of amplification mechani...
Biological organisms rely on spatial variation in cell activity to coordinate diverse activities, su...
This paper proposes a control theoretic framework to model and analyze the self-organized pattern fo...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
The Turing pattern model is one of the theories used to describe organism formation patterns. Using ...
It is hard to bridge the gap between mathematical formulations and biological implementations of Tur...
Embryonic development is a largely self-organizing process, in which the adult body plan arises from...
Synthetic biology aims to develop new biological systems and devices, from the modification of exist...
The Turing mechanism for the production of a broken spatial symmetry in an initially homogeneous s...
Turing patterns are thought to underlie the formation of many tissue structures during development. ...