The complexity of morphogenesis poses a fundamental challenge to understanding the mechanisms governing the formation of biological patterns and structures. Over the past century, numerous processes have been identified as critically contributing to morphogenetic events, but the interplay between the various components and aspects of pattern formation have been much harder to grasp. The combination of traditional biology with mathematical and computational methods has had a profound effect on our current understanding of morphogenesis and led to significant insights and advancements in the field. In particular, the theoretical concepts of reaction-diffusion systems and positional information, proposed by Alan Turing and Lewis Wolpert, respe...
Multicellular organisms develop complex shapes from much simpler, single-celled zygotes through a pr...
The Turing instability in the reaction-diffusion system is a widely recognized mechanism of the morp...
(A) Proliferation models depend on the differential division of cells, either between cell types wit...
Studying the complex phenomenon of pattern formation created by the gene expression is a big challen...
(A) Archetypal Turing reaction–diffusion system with an activator and inhibitor generating repetitiv...
The hierarchical organisation of biological systems plays a crucial role in the pattern formation of...
A central goal of current biology is to decode the mechanisms that underlie the processes of morphog...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
In biology, embryological development of the structure of an organism or limb is referred to as morp...
M systems are mathematical models of morphogenesis developed to gain insights into its relations to ...
International audienceMorphogenesis is a key phenomenon occurring in multicellular organisms. It inv...
A central issue in developmental biology is the formation of pattern and form in the early embryo. ...
The Turing, or reaction-diffusion (RD), model is one of the best-known theoretical models used to ex...
Morphogenetic (M) systems are an abstract model of computation inspired by morphogenetic processes i...
htmlabstractIn the 1950s, embryology was conceptualized as four relatively independent problems: cel...
Multicellular organisms develop complex shapes from much simpler, single-celled zygotes through a pr...
The Turing instability in the reaction-diffusion system is a widely recognized mechanism of the morp...
(A) Proliferation models depend on the differential division of cells, either between cell types wit...
Studying the complex phenomenon of pattern formation created by the gene expression is a big challen...
(A) Archetypal Turing reaction–diffusion system with an activator and inhibitor generating repetitiv...
The hierarchical organisation of biological systems plays a crucial role in the pattern formation of...
A central goal of current biology is to decode the mechanisms that underlie the processes of morphog...
Self-organizing patterns arise in a variety of ways in nature, the complex patterning observed on an...
In biology, embryological development of the structure of an organism or limb is referred to as morp...
M systems are mathematical models of morphogenesis developed to gain insights into its relations to ...
International audienceMorphogenesis is a key phenomenon occurring in multicellular organisms. It inv...
A central issue in developmental biology is the formation of pattern and form in the early embryo. ...
The Turing, or reaction-diffusion (RD), model is one of the best-known theoretical models used to ex...
Morphogenetic (M) systems are an abstract model of computation inspired by morphogenetic processes i...
htmlabstractIn the 1950s, embryology was conceptualized as four relatively independent problems: cel...
Multicellular organisms develop complex shapes from much simpler, single-celled zygotes through a pr...
The Turing instability in the reaction-diffusion system is a widely recognized mechanism of the morp...
(A) Proliferation models depend on the differential division of cells, either between cell types wit...