Add to ORKGThe dynamic reshaping of tissues during morphogenesis results from a combination of individual cell behaviors and collective cell rearrangements. However, a comprehensive framework to unambiguously measure and link cell behavior to tissue morphogenesis is lacking. Here we introduce such a kinematic framework, bridging cell and tissue behaviors at an intermediate, mesoscopic, level of cell clusters or domains. By measuring domain deformation in terms of the relative motion of cell positions and the evolution of their shapes, we characterized the basic invariant quantities that measure fundamental classes of cell behavior, namely tensorial rates of cell shape change and cell intercalation. In doing so we introduce an explicit definition of ce...
In this article, we propose a general framework to study the dynamics and topology of cellular netwo...
Cells and the tissues they form are not passive material bodies. Cells change their behavior in resp...
Morphogenetic flows in developmental biology are characterized by the coordinated motion of thousand...
The dynamic reshaping of tissues during morphogenesis results from a combination of individual cell ...
International audienceHow the shape of embryos and organs emerges during development is a fundamenta...
Spatial tissue patterning during early morphogenesis depends on the coordinated movement and shape c...
Anyone watching a movie of embryonic development immediately appreciates the importance of morphogen...
International audienceUnderstanding the mechanisms regulating development requires a quantitative ch...
International audienceABSTRACT Within developing tissues, cell proliferation, cell motility and othe...
In plants and animals, developmental programs transform single-celled zygotes intofully formed and f...
International audienceWe present a theoretical model of animal morphogenesis construed as a self-org...
International audienceEpithelial tissues of the developing embryos elongate by different mechanisms,...
Embryonic epithelia achieve complex morphogenetic movements, including in-plane reshaping, bending a...
In this article, we propose a general framework to study the dynamics and topology of cellular netwo...
In this article, we propose a general framework to study the dynamics and topology of cellular netwo...
Cells and the tissues they form are not passive material bodies. Cells change their behavior in resp...
Morphogenetic flows in developmental biology are characterized by the coordinated motion of thousand...
The dynamic reshaping of tissues during morphogenesis results from a combination of individual cell ...
International audienceHow the shape of embryos and organs emerges during development is a fundamenta...
Spatial tissue patterning during early morphogenesis depends on the coordinated movement and shape c...
Anyone watching a movie of embryonic development immediately appreciates the importance of morphogen...
International audienceUnderstanding the mechanisms regulating development requires a quantitative ch...
International audienceABSTRACT Within developing tissues, cell proliferation, cell motility and othe...
In plants and animals, developmental programs transform single-celled zygotes intofully formed and f...
International audienceWe present a theoretical model of animal morphogenesis construed as a self-org...
International audienceEpithelial tissues of the developing embryos elongate by different mechanisms,...
Embryonic epithelia achieve complex morphogenetic movements, including in-plane reshaping, bending a...
In this article, we propose a general framework to study the dynamics and topology of cellular netwo...
In this article, we propose a general framework to study the dynamics and topology of cellular netwo...
Cells and the tissues they form are not passive material bodies. Cells change their behavior in resp...
Morphogenetic flows in developmental biology are characterized by the coordinated motion of thousand...