Geometrical Details Matter for Mechanical Modeling of Cell Morphogenesis
- PMID: 31265810
- DOI: 10.1016/j.devcel.2019.05.001
Geometrical Details Matter for Mechanical Modeling of Cell Morphogenesis
Abstract
Morphogenesis of wavy epidermal pavement cells in plants has fascinated researchers for decades. A mechanical mechanism had been proposed in which the anticlinal cell walls, forming the in-plane cell borders, feature contiguous stiff and soft zones that generate waves upon stretching. We replicated this model as designed and also expanded on it to test its validity for three-dimensional (3D) cell geometry. Our results suggest that both the assumptions going into and the predictions arising from this hypothesis do not stand closer scrutiny and may misguide experimentalists. Unlike what the published data seem to suggest, we observed that only waves of negligible magnitude can be formed by this anticlinal stretch model and that these are virtually eliminated when full 3D geometry of the cell is considered. Further, the model produces cell wall stresses that do not match the experimental evidence.
Keywords: cell mechanics; cell morphogenesis; cell wall; finite element analysis; mechanical modeling; pavement cell; plant cell; plant development; strain; stress.
Copyright © 2019 Elsevier Inc. All rights reserved.
Comment in
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Mechanical Asymmetry of the Cell Wall Predicts Changes in Pavement Cell Geometry.Dev Cell. 2019 Jul 1;50(1):9-10. doi: 10.1016/j.devcel.2019.06.002. Dev Cell. 2019. PMID: 31265814 No abstract available.
Comment on
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Mechanochemical Polarization of Contiguous Cell Walls Shapes Plant Pavement Cells.Dev Cell. 2017 Nov 6;43(3):290-304.e4. doi: 10.1016/j.devcel.2017.10.017. Dev Cell. 2017. PMID: 29112850
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