Add to ORKGWe describe a model of cytoskeletal mechanics based on the force-induced conformational change of protein cross-links in a stressed polymer network. Slow deformation of simulated networks containing cross-links that undergo repeated, serial domain unfolding leads to an unusual state — with many cross-links accumulating near the critical force for further unfolding. This state is robust to thermalization and does not occur in similar protein unbinding based simulations. Moreover, we note that the unusual configuration of near-critical protein cross-links in the fragile state provides a physical mechanism for the chemical transduction of cell-level mechanical strain and extra-cellular matrix stiffness
AbstractIn this article, we will summarize recent progress in understanding the mechanical origins o...
A model of crosslinker unbinding is implemented in a highly coarsegrained granular model of F-actin ...
A model of crosslinker unbinding is implemented in a highly coarse-grained granular model of F-actin...
AbstractThe intracellular cytoskeleton is an active dynamic network of filaments and associated bind...
It is well-known that the mechanical response of live cells is largely determined by the cytoskeleto...
AbstractWe develop a computational model to compare the relative importance of unbinding and unfoldi...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2015, Tutora: ...
Transiently cross linked networks of semiflexible filaments make up the principal structural compone...
AbstractNetworks of the cytoskeletal biopolymer actin cross-linked by the compliant protein filamin ...
Transiently cross linked networks of semiflexible filaments make up the principal structural compone...
Actin filament networks enable the cytoskeleton to adjust to internal and external forcing. These dy...
Actin filaments are thought to be the major structural components of most eukaryotic cells, but reco...
Actin filament networks enable the cytoskeleton to adjust to internal and external forcing. These dy...
The structural integrity of a cell depends on its cytoskeleton, which includes an actin network. Thi...
Active networks of interlinked protein filaments comprising the cytoskeleton largely control cellula...
AbstractIn this article, we will summarize recent progress in understanding the mechanical origins o...
A model of crosslinker unbinding is implemented in a highly coarsegrained granular model of F-actin ...
A model of crosslinker unbinding is implemented in a highly coarse-grained granular model of F-actin...
AbstractThe intracellular cytoskeleton is an active dynamic network of filaments and associated bind...
It is well-known that the mechanical response of live cells is largely determined by the cytoskeleto...
AbstractWe develop a computational model to compare the relative importance of unbinding and unfoldi...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2015, Tutora: ...
Transiently cross linked networks of semiflexible filaments make up the principal structural compone...
AbstractNetworks of the cytoskeletal biopolymer actin cross-linked by the compliant protein filamin ...
Transiently cross linked networks of semiflexible filaments make up the principal structural compone...
Actin filament networks enable the cytoskeleton to adjust to internal and external forcing. These dy...
Actin filaments are thought to be the major structural components of most eukaryotic cells, but reco...
Actin filament networks enable the cytoskeleton to adjust to internal and external forcing. These dy...
The structural integrity of a cell depends on its cytoskeleton, which includes an actin network. Thi...
Active networks of interlinked protein filaments comprising the cytoskeleton largely control cellula...
AbstractIn this article, we will summarize recent progress in understanding the mechanical origins o...
A model of crosslinker unbinding is implemented in a highly coarsegrained granular model of F-actin ...
A model of crosslinker unbinding is implemented in a highly coarse-grained granular model of F-actin...