The tissues of a developing embryo are simultaneously patterned, moved and differentiated according to an exchange of information between their constituent cells. We argue that these complex self-organizing phenomena can only be fully understood with quantitative mathematical frameworks that allow specific hypotheses to be formulated and tested. The quantitative and dynamic imaging of growing embryos at the molecular, cellular and tissue level is the key experimental advance required to achieve this interaction between theory and experiment. Here we describe how mathematical modelling has become an invaluable method to integrate quantitative biological information across temporal and spatial scales, serving to connect the activity of regula...
Understanding the mechanisms regulating development requires a quantitative characterization of cell...
The term ‘Development’, as usually used in biology, relates to the embryonic changes from the fertil...
The cell is the central functional unit of life. Cell behaviors, such as cell division, movements, d...
The tissues of a developing embryo are simultaneously patterned, moved and differentiated according ...
How embryos are shaped during development has inspired the work of many, embryologists, geneticists,...
Computational approaches that enable quantification of microscopy data have revolutionized the field...
International audienceWith the advent of imaging probes and live microscopy, developmental biologist...
Morphogenesis is a phenomenon of intricate balance and dynamic interplay between processes occurring...
International audienceIn developmental biology, the accumulation of qualitative phenotypic descripti...
Computational approaches are breaking new ground in understanding how embryos form. Here, we discuss...
Computational approaches are breaking new ground in understanding how embryos form. Here, we discuss...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...
Recent advances in live imaging and genetics of mammalian development which integrate observations o...
In order to contribute to the appropriate tissues during development, cells need to know their posit...
It is a challenge in developmental biology to understand how an embryo’s genes, proteins, and cells ...
Understanding the mechanisms regulating development requires a quantitative characterization of cell...
The term ‘Development’, as usually used in biology, relates to the embryonic changes from the fertil...
The cell is the central functional unit of life. Cell behaviors, such as cell division, movements, d...
The tissues of a developing embryo are simultaneously patterned, moved and differentiated according ...
How embryos are shaped during development has inspired the work of many, embryologists, geneticists,...
Computational approaches that enable quantification of microscopy data have revolutionized the field...
International audienceWith the advent of imaging probes and live microscopy, developmental biologist...
Morphogenesis is a phenomenon of intricate balance and dynamic interplay between processes occurring...
International audienceIn developmental biology, the accumulation of qualitative phenotypic descripti...
Computational approaches are breaking new ground in understanding how embryos form. Here, we discuss...
Computational approaches are breaking new ground in understanding how embryos form. Here, we discuss...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...
Recent advances in live imaging and genetics of mammalian development which integrate observations o...
In order to contribute to the appropriate tissues during development, cells need to know their posit...
It is a challenge in developmental biology to understand how an embryo’s genes, proteins, and cells ...
Understanding the mechanisms regulating development requires a quantitative characterization of cell...
The term ‘Development’, as usually used in biology, relates to the embryonic changes from the fertil...
The cell is the central functional unit of life. Cell behaviors, such as cell division, movements, d...