The ability of a cell to distribute contractile stresses across the extracellular matrix in a spatially heterogeneous fashion underlies many cellular behaviors, including motility and tissue assembly. Here we investigate the biophysical basis of this phenomenon by using femtosecond laser nanosurgery to measure the viscoelastic recoil and cell-shape contributions of contractile stress fibers (SFs) located in specific compartments of living cells. Upon photodisruption and recoil, myosin light chain kinase-dependent SFs located along the cell periphery display much lower effective elasticities and higher plateau retraction distances than Rho-associated kinase-dependent SFs located in the cell center, with severing of peripheral fibers uniquely...
Actin filaments assemble into diverse protrusive and contractile structures to provide force for a n...
ivascular endothelial cells. Stress fiber tension is also greatly altered in tumor endothelial cells...
The mechanical properties of biological tissues are key to the regulation of their physical integrit...
AbstractThe ability of a cell to distribute contractile stresses across the extracellular matrix in ...
AbstractCells change their form and function by assembling actin stress fibers at their base and exe...
ABSTRACT Cells change their form and function by assembling actin stress fibers at their base and ex...
AbstractStress fibers are cellular contractile actomyosin machines central to wound healing, shear s...
Stress fibers are actomyosin-based bundles whose structural and contractile properties underlie nume...
The mechanics of the actin cytoskeleton have a central role in the regulation of cells and tissues, ...
One of the most exciting recent developments in cell biology is the recognition that the geometry, t...
AbstractStress fibers are actomyosin-based bundles whose structural and contractile properties under...
Actomyosin stress fibers (SFs) play key roles in driving polarized motility and generating traction ...
Cell migration is a key process underlying embryogenesis, wound healing, and cancer progression. The...
Three-dimensional dissection of a single actin stress fiber in a living cell was performed based on ...
While is widely acknowledged that nonmuscle myosin II (NMMII) enables stress fibers (SFs) to generat...
Actin filaments assemble into diverse protrusive and contractile structures to provide force for a n...
ivascular endothelial cells. Stress fiber tension is also greatly altered in tumor endothelial cells...
The mechanical properties of biological tissues are key to the regulation of their physical integrit...
AbstractThe ability of a cell to distribute contractile stresses across the extracellular matrix in ...
AbstractCells change their form and function by assembling actin stress fibers at their base and exe...
ABSTRACT Cells change their form and function by assembling actin stress fibers at their base and ex...
AbstractStress fibers are cellular contractile actomyosin machines central to wound healing, shear s...
Stress fibers are actomyosin-based bundles whose structural and contractile properties underlie nume...
The mechanics of the actin cytoskeleton have a central role in the regulation of cells and tissues, ...
One of the most exciting recent developments in cell biology is the recognition that the geometry, t...
AbstractStress fibers are actomyosin-based bundles whose structural and contractile properties under...
Actomyosin stress fibers (SFs) play key roles in driving polarized motility and generating traction ...
Cell migration is a key process underlying embryogenesis, wound healing, and cancer progression. The...
Three-dimensional dissection of a single actin stress fiber in a living cell was performed based on ...
While is widely acknowledged that nonmuscle myosin II (NMMII) enables stress fibers (SFs) to generat...
Actin filaments assemble into diverse protrusive and contractile structures to provide force for a n...
ivascular endothelial cells. Stress fiber tension is also greatly altered in tumor endothelial cells...
The mechanical properties of biological tissues are key to the regulation of their physical integrit...