Epithelial monolayers are two-dimensional cell sheets which compartmentalize the body and organs of multicellular organisms. Their morphogenesis during development or pathology results from patterned endogenous and exogenous forces and their interplay with tissue mechanical properties. In particular, bending of epithelia is thought to result from active torques generated by the polarization of myosin motors along their apicobasal axis. However, the contribution of these out-of-plane forces to morphogenesis remains challenging to evaluate because of the lack of direct mechanical measurement. Here we use epithelial curling to characterize the out-of-plane mechanics of epithelial monolayers. We find that curls of high curvature form spontaneou...
The collective migration of cells is fundamental to epithelial biology. One of the hallmarks of coll...
Fundamental biological processes are carried out by curved epithelial sheets that enclose a pressuri...
A central goal of developmental biology is to understand how an organism shapes itself, a process re...
Epithelial monolayers are two-dimensional cell sheets which compartmentalize the body and organs of ...
Epithelia are ubiquitous tissues that display a large diversity of functions and forms, from totally...
International audienceGeneration of tissue curvature is essential to morphogenesis. However, how cel...
A general trait of cell monolayers is their ability to exert contractile stresses on their surroundi...
Three-dimensional collective epithelial rotation around a given axis represents a coordinated cellul...
International audienceThe balance between stretching and bending deformations characterizes shape tr...
International audienceEpithelial tissues function as barriers that separate the organism from the en...
The direction in which a cell divides is set by the orientation of its mitotic spindle and is import...
Epithelial monolayers are one-cell thick tissue sheets that separate internal and external environme...
Many organs are formed through folding of an epithelium. This change in shape is usually attributed ...
Actomyosin machinery endows cells with contractility at a single-cell level. However, within a monol...
The collective migration of cells is fundamental to epithelial biology. One of the hallmarks of coll...
Fundamental biological processes are carried out by curved epithelial sheets that enclose a pressuri...
A central goal of developmental biology is to understand how an organism shapes itself, a process re...
Epithelial monolayers are two-dimensional cell sheets which compartmentalize the body and organs of ...
Epithelia are ubiquitous tissues that display a large diversity of functions and forms, from totally...
International audienceGeneration of tissue curvature is essential to morphogenesis. However, how cel...
A general trait of cell monolayers is their ability to exert contractile stresses on their surroundi...
Three-dimensional collective epithelial rotation around a given axis represents a coordinated cellul...
International audienceThe balance between stretching and bending deformations characterizes shape tr...
International audienceEpithelial tissues function as barriers that separate the organism from the en...
The direction in which a cell divides is set by the orientation of its mitotic spindle and is import...
Epithelial monolayers are one-cell thick tissue sheets that separate internal and external environme...
Many organs are formed through folding of an epithelium. This change in shape is usually attributed ...
Actomyosin machinery endows cells with contractility at a single-cell level. However, within a monol...
The collective migration of cells is fundamental to epithelial biology. One of the hallmarks of coll...
Fundamental biological processes are carried out by curved epithelial sheets that enclose a pressuri...
A central goal of developmental biology is to understand how an organism shapes itself, a process re...