Add to ORKGOrgans are sculpted by extracellular as well as cell-intrinsic forces, but how collective cell dynamics are orchestrated in response to environmental cues is poorly understood. Here we apply advanced image analysis to reveal extracellular matrix-responsive cell behaviors that drive elongation of the Drosophila follicle, a model system in which basement membrane stiffness instructs three-dimensional tissue morphogenesis. Through in toto morphometric analyses of wild type and round egg mutants, we find that neither changes in average cell shape nor oriented cell division are required for appropriate organ shape. Instead, a major element is the reorientation of elongated cells at the follicle anterior. Polarized reorientation is regulated by m...
As tissues and organs are formed they acquire a specific shape that plays an integral role in their ...
International audienceMechanical forces play important roles during tissue organization in developin...
Abstract Biological tissues acquire reproducible shapes during development through dynamic cell beha...
Organs are sculpted by extracellular as well as cell-intrinsic forces, but how collective cell dynam...
International audienceThe regulation of morphogenesis by the basement membrane (BM) may rely on chan...
Elongation of a tissue along one body axis is a conserved morphogenetic process that happens repeate...
International audienceTissue elongation is known to be controlled by oriented cell division, elongat...
Regulation of cell growth and cell division plays fundamental roles in tissue morphogenesis. However...
The cellular and molecular mechanisms generating the diversity of animal morphologies are still a re...
Epithelial sheets define organ architecture during development. Here, we employed an iterative multi...
Epithelial cell morphogenesis is an essential process for animal development. Epithelia are composed...
International audienceTissue elongation and its control by spatiotemporal signals is a major develop...
During development, organs with different shape and functionality form from a single fertilized egg ...
The final size and shape of organs results from volume expansion by growth and shape changes by cont...
It is increasingly evident that mechanical forces play a vital role in regulating tissue development...
As tissues and organs are formed they acquire a specific shape that plays an integral role in their ...
International audienceMechanical forces play important roles during tissue organization in developin...
Abstract Biological tissues acquire reproducible shapes during development through dynamic cell beha...
Organs are sculpted by extracellular as well as cell-intrinsic forces, but how collective cell dynam...
International audienceThe regulation of morphogenesis by the basement membrane (BM) may rely on chan...
Elongation of a tissue along one body axis is a conserved morphogenetic process that happens repeate...
International audienceTissue elongation is known to be controlled by oriented cell division, elongat...
Regulation of cell growth and cell division plays fundamental roles in tissue morphogenesis. However...
The cellular and molecular mechanisms generating the diversity of animal morphologies are still a re...
Epithelial sheets define organ architecture during development. Here, we employed an iterative multi...
Epithelial cell morphogenesis is an essential process for animal development. Epithelia are composed...
International audienceTissue elongation and its control by spatiotemporal signals is a major develop...
During development, organs with different shape and functionality form from a single fertilized egg ...
The final size and shape of organs results from volume expansion by growth and shape changes by cont...
It is increasingly evident that mechanical forces play a vital role in regulating tissue development...
As tissues and organs are formed they acquire a specific shape that plays an integral role in their ...
International audienceMechanical forces play important roles during tissue organization in developin...
Abstract Biological tissues acquire reproducible shapes during development through dynamic cell beha...