Differential cellular stiffness contributes to tissue elongation on an expanding surface

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Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Forces in Tissue Morphogenesis and Patterning: Cell
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Extracellular matrix stiffness cues junctional remodeling for 3D tissue elongation
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
An overview of substrate stiffness guided cellular response and its applications in tissue regeneration - ScienceDirect
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Cell Shape and Durotaxis Explained from Cell-Extracellular Matrix Forces and Focal Adhesion Dynamics - ScienceDirect
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
IJMS, Free Full-Text
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Extracellular matrix stiffness cues junctional remodeling for 3D tissue elongation
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Frontiers The Importance of Mechanical Forces for in vitro Endothelial Cell Biology
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Stiffness transitions in new walls post-cell division differ between Marchantia polymorpha gemmae and Arabidopsis thaliana leaves
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
An overview of substrate stiffness guided cellular response and its applications in tissue regeneration - ScienceDirect
Differential cellular stiffness contributes to tissue elongation on an  expanding surface
Di¡erent types of mass tissue movements, including (a) convergence and
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