Add to ORKGEukaryotic cells possess motility mechanisms allowing them not only to self-propel but also to exert forces on obstacles (to push) and to carry cargoes (to pull). To study the inherent asymmetry between active pushing and pulling we model a crawling acto-myosin cell extract as a one-dimensional layer of active gel subjected to external forces. We show that pushing is controlled by protrusion and that the macroscopic signature of the protrusion dominated motility mechanism is concavity of the force-velocity relation. In contrast, pulling is driven by protrusion only at small values of the pulling force and it is replaced by contraction when the pulling force is sufficiently large. This leads to more complex convex-concave structure of the fo...
Amoeboid motility requires spatiotemporal coordination of biochemical pathways regulating force gene...
AbstractCells migrate through a crowded environment during processes such as metastasis or wound hea...
We study a particular mechanism of cell motility allowing a precise formulation of the condition of ...
Crawling of animal cells over surfaces is based on three coupled mechanisms: protrusion of the leadi...
The ability of most eukaryotic cells to crawl is essential for embryogenesis, immune response and wo...
<p>Cell crawling is generated by the interplay between three different processes, namely, protrusion...
We propose a mechanism for the initiation of cell motility that is based on myosin-induced contracti...
Eukaryotic and prokaryotic cells use cytoskeletal proteins to regulate and modify cell shape. During...
Dynamic organization of the cell interior, which is crucial for cell function, largely depends on th...
International audienceDirectional cell locomotion requires symmetry breaking between the front and r...
AbstractCrawling of eukaryotic cells on flat surfaces is underlain by the protrusion of the actin ne...
AbstractMechanical work in cells is performed by specialized motor proteins that operate in a contin...
Amoeboid motility requires spatiotemporal coordination of biochemical pathways regulating force gene...
AbstractCells migrate through a crowded environment during processes such as metastasis or wound hea...
We study a particular mechanism of cell motility allowing a precise formulation of the condition of ...
Crawling of animal cells over surfaces is based on three coupled mechanisms: protrusion of the leadi...
The ability of most eukaryotic cells to crawl is essential for embryogenesis, immune response and wo...
<p>Cell crawling is generated by the interplay between three different processes, namely, protrusion...
We propose a mechanism for the initiation of cell motility that is based on myosin-induced contracti...
Eukaryotic and prokaryotic cells use cytoskeletal proteins to regulate and modify cell shape. During...
Dynamic organization of the cell interior, which is crucial for cell function, largely depends on th...
International audienceDirectional cell locomotion requires symmetry breaking between the front and r...
AbstractCrawling of eukaryotic cells on flat surfaces is underlain by the protrusion of the actin ne...
AbstractMechanical work in cells is performed by specialized motor proteins that operate in a contin...
Amoeboid motility requires spatiotemporal coordination of biochemical pathways regulating force gene...
AbstractCells migrate through a crowded environment during processes such as metastasis or wound hea...
We study a particular mechanism of cell motility allowing a precise formulation of the condition of ...