Author:
Doubrovinski Konstantin,Swan Michael,Polyakov Oleg,Wieschaus Eric F.
Abstract
Many models of morphogenesis are forced to assume specific mechanical properties of cells, because the actual mechanical properties of living tissues are largely unknown. Here, we measure the rheology of epithelial cells in the cellularizingDrosophilaembryo by injecting magnetic particles and studying their response to external actuation. We establish that, on timescales relevant to epithelial morphogenesis, the cytoplasm is predominantly viscous, whereas the cellular cortex is elastic. The timescale of elastic stress relaxation has a lower bound of 4 min, which is comparable to the time required for internalization of the ventral furrow during gastrulation. The cytoplasm was measured to be ∼103-fold as viscous as water. We show that elasticity depends on the actin cytoskeleton and conclude by discussing how these results relate to existing mechanical models of morphogenesis.
Publisher
Proceedings of the National Academy of Sciences
Reference27 articles.
1. Martinez A Stewart A (2002) Molecular Principles of Animal Development (Oxford Univ Press, New York).
2. Cell surface mechanics and the control of cell shape, tissue patterns and morphogenesis
3. Time scale dependent viscoelastic and contractile regimes in fibroblasts probed by microplate manipulation;Thoumine;J Cell Sci,1997
4. Shear rheology of a cell monolayer;Fernàndez;New J Phys,2007
5. The consensus mechanics of cultured mammalian cells
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