SummaryWhen force is applied to cell–matrix adhesion complexes, they respond by growing larger and stronger. It emerges that strengthening involves transient motion of the transmembrane integrin receptors and their eventual immobilization to the extracellular matrix
Cells can sense the density and distribution of extracellular matrix (ECM) molecules by means of ind...
SummaryBackgroundThe spatiotemporal regulation of adhesion to the extracellular matrix is important ...
Integrin-mediated mechanosensing of the extracellular environment allows cells to control adhesion a...
In living cells, adhesion structures have the astonishing ability to grow and strengthen under force...
AbstractTo move forward, migrating cells must generate traction forces through surface receptors bou...
Strong mechanical forces can, obviously, disrupt cell-cell and cell-matrix adhesions, e.g., cyclic u...
International audienceCells exert actomyosin contractility and cytoskeleton-dependent force in respo...
In this talk I describe our work to understand how cells sense and exert mechanical force across mul...
Spatial patterning of biochemical cues on the micro- and nanometer scale controls numerous cellular ...
AbstractCell-generated traction forces induce integrin activation, leading to focal adhesion growth ...
Unlike slip bonds, catch bonds experience reinforcement under tension. Cell adheres to the surface, ...
Cellular adhesions onto extracellular matrix(ECM)have been attracting more and more interest as they...
The shape of cells is altered to allow cells to adapt to their changing environments, including resp...
AbstractExtracellular matrices determine cellular fate decisions through the regulation of intracell...
rce now sio d in bi-directional signaling unit of cell adhesion. 2013 Federation of European Bioche...
Cells can sense the density and distribution of extracellular matrix (ECM) molecules by means of ind...
SummaryBackgroundThe spatiotemporal regulation of adhesion to the extracellular matrix is important ...
Integrin-mediated mechanosensing of the extracellular environment allows cells to control adhesion a...
In living cells, adhesion structures have the astonishing ability to grow and strengthen under force...
AbstractTo move forward, migrating cells must generate traction forces through surface receptors bou...
Strong mechanical forces can, obviously, disrupt cell-cell and cell-matrix adhesions, e.g., cyclic u...
International audienceCells exert actomyosin contractility and cytoskeleton-dependent force in respo...
In this talk I describe our work to understand how cells sense and exert mechanical force across mul...
Spatial patterning of biochemical cues on the micro- and nanometer scale controls numerous cellular ...
AbstractCell-generated traction forces induce integrin activation, leading to focal adhesion growth ...
Unlike slip bonds, catch bonds experience reinforcement under tension. Cell adheres to the surface, ...
Cellular adhesions onto extracellular matrix(ECM)have been attracting more and more interest as they...
The shape of cells is altered to allow cells to adapt to their changing environments, including resp...
AbstractExtracellular matrices determine cellular fate decisions through the regulation of intracell...
rce now sio d in bi-directional signaling unit of cell adhesion. 2013 Federation of European Bioche...
Cells can sense the density and distribution of extracellular matrix (ECM) molecules by means of ind...
SummaryBackgroundThe spatiotemporal regulation of adhesion to the extracellular matrix is important ...
Integrin-mediated mechanosensing of the extracellular environment allows cells to control adhesion a...
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