Add to ORKGIndividual plant cells are the building blocks for all plantae and artificially constructed plant biomaterials, like biocomposites. Secondary cell walls (SCWs) are a key component for mediating mechanical strength and stiffness in both living vascular plants and biocomposite materials. In this paper, we study the structure and biomechanics of cultured plant cells during the cellular developmental stages associated with SCW formation. We use a model culture system that induces transdifferentiation of Arabidopsis thaliana cells to xylem vessel elements, upon treatment with dexamethasone (DEX). We group the transdifferentiation process into three distinct stages, based on morphological observations of the cell walls. The first stage includes c...
The mechanisms through which plant cells control growth and shape are the result of the coordinated ...
The development of an organ or organism is a complex process that includes many interact- ing compon...
International audienceCell-to-cell heterogeneity prevails in many systems, as exemplified by cell gr...
Individual plant cells are the building blocks for all plantae and artificially constructed plant bi...
A combination of osmotic treatments, micro-indentation with cellular force microscopy, and inverse f...
Plant cell walls are complex and dynamic structures mainly composed of a network of extended polysac...
Cell-wall mechanical properties play a key role in the growth and the protection of plants. However,...
International audienceA crucial question in developmental biology is how cell growth is coordinated ...
International audienceThe rapid cell growth that is associated with the formation of new lateral org...
Plant development results from controlled cell divisions, structural modifications, and reorganizati...
The growth of plant organs is a complex process powered by osmosis that attracts water inside the ce...
Plant morphogenesis is governed by the mechanics of the cell wall–a stiff and thin polymeric box tha...
The cell wall has long been acknowledged as an important physical mediator of growth in plants. Rece...
Although growth and morphogenesis are controlled by genetics, physical shape change in plant tissue ...
The mechanisms through which plant cells control growth and shape are the result of the coordinated ...
The development of an organ or organism is a complex process that includes many interact- ing compon...
International audienceCell-to-cell heterogeneity prevails in many systems, as exemplified by cell gr...
Individual plant cells are the building blocks for all plantae and artificially constructed plant bi...
A combination of osmotic treatments, micro-indentation with cellular force microscopy, and inverse f...
Plant cell walls are complex and dynamic structures mainly composed of a network of extended polysac...
Cell-wall mechanical properties play a key role in the growth and the protection of plants. However,...
International audienceA crucial question in developmental biology is how cell growth is coordinated ...
International audienceThe rapid cell growth that is associated with the formation of new lateral org...
Plant development results from controlled cell divisions, structural modifications, and reorganizati...
The growth of plant organs is a complex process powered by osmosis that attracts water inside the ce...
Plant morphogenesis is governed by the mechanics of the cell wall–a stiff and thin polymeric box tha...
The cell wall has long been acknowledged as an important physical mediator of growth in plants. Rece...
Although growth and morphogenesis are controlled by genetics, physical shape change in plant tissue ...
The mechanisms through which plant cells control growth and shape are the result of the coordinated ...
The development of an organ or organism is a complex process that includes many interact- ing compon...
International audienceCell-to-cell heterogeneity prevails in many systems, as exemplified by cell gr...