Add to ORKGAbstract. Intracellular pathogens such as Listeria monocytogenes and Rickettsia rickettsii move within a host cell by polymerizing a comet–tail of actin fibers that ultimately pushes the cell forward. This dense network of cross–linked actin polymers typically exhibits a striking curvature that causes bacteria to move in gently looping paths. Theoretically, tail curvature has been linked to details of motility by considering force and torque balances from a finite number of polymerizing filaments. Here we track beads coated with a prokaryotic activator of actin polymerization in three dimensions to directly quantify the curvature and torsion of bead motility paths. We find that bead paths are more likely to have low rather than high curvatu...
Microtubules are highly dynamic biopolymer filaments involved in a wide variety of biological proces...
AbstractInspired by the motility of the bacteria Listeria monocytogenes, we have experimentally stud...
Cells are dynamic systems that generate and respond to forces through the complex interplay between ...
AbstractWe report an in vitro study comparing the growth of long actin tails induced by spherical be...
Using a generalized Brownian ratchet model that accounts for the interactions of actin filaments wit...
AbstractUsing a generalized Brownian ratchet model that accounts for the interactions of actin filam...
Recent experiments have reported fascinating geometrical trajectories for actin-based motility of ba...
Eukaryotic cells assemble viscoelastic networks of crosslinked actin filaments to control their shap...
Mechanical cues affect a number of important biological processes in metazoan cells, such as migrati...
AbstractThe extension of the plasma membrane during cell crawling or spreading is known to require a...
The cytoskeleton is a key regulator of cell morphogenesis. Crescentin, a bacterial intermediate fila...
peer reviewedInspired by the motility of the bacteria Listeria monocytogenes, we have experimentally...
International audienceThe growth of branched actin networks powers cell-edge protrusions and motilit...
AbstractThe motion of many intracellular pathogens is driven by the polymerization of actin filament...
Several bacterial and viral pathogens hijack the host actin cytoskeleton machinery to facilitate spr...
Microtubules are highly dynamic biopolymer filaments involved in a wide variety of biological proces...
AbstractInspired by the motility of the bacteria Listeria monocytogenes, we have experimentally stud...
Cells are dynamic systems that generate and respond to forces through the complex interplay between ...
AbstractWe report an in vitro study comparing the growth of long actin tails induced by spherical be...
Using a generalized Brownian ratchet model that accounts for the interactions of actin filaments wit...
AbstractUsing a generalized Brownian ratchet model that accounts for the interactions of actin filam...
Recent experiments have reported fascinating geometrical trajectories for actin-based motility of ba...
Eukaryotic cells assemble viscoelastic networks of crosslinked actin filaments to control their shap...
Mechanical cues affect a number of important biological processes in metazoan cells, such as migrati...
AbstractThe extension of the plasma membrane during cell crawling or spreading is known to require a...
The cytoskeleton is a key regulator of cell morphogenesis. Crescentin, a bacterial intermediate fila...
peer reviewedInspired by the motility of the bacteria Listeria monocytogenes, we have experimentally...
International audienceThe growth of branched actin networks powers cell-edge protrusions and motilit...
AbstractThe motion of many intracellular pathogens is driven by the polymerization of actin filament...
Several bacterial and viral pathogens hijack the host actin cytoskeleton machinery to facilitate spr...
Microtubules are highly dynamic biopolymer filaments involved in a wide variety of biological proces...
AbstractInspired by the motility of the bacteria Listeria monocytogenes, we have experimentally stud...
Cells are dynamic systems that generate and respond to forces through the complex interplay between ...