Add to ORKGBundles and networks of semiflexible biopolymers are key elements in cells, lending them mechanical integrity while also enabling dynamic functions. Networks have been the subject of many studies, revealing a variety of fundamental characteristics often determined via bulk measurements. Although bundles are equally important in biological systems, they have garnered much less scientific attention since they have to be probed on the mesoscopic scale. Here, we review theoretical as well as experimental approaches, which mainly employ the naturally occurring biopolymer actin, to highlight the principles behind these structures on the single bundle level
The actin cytoskeleton is a semiflexible biopolymer network whose morphology is controlled by a wide...
The mechanics of complex soft matter often cannot be understood in the classical physical frame of f...
[[abstract]]Cells and tissues are mechanical as well as biochemical machines, and cellular response ...
Bundles and networks of semiflexible biopolymers are key elements in cells, lending them mechanical ...
Bundles and networks of semiflexible biopolymers are key elements in cells, lending them mechanical ...
While actin bundles are used by living cells for structural fortification, the microscopic origin of...
Polymers and their elementary subunits, called monomers, come in an immense variety of structures an...
In the presence of condensing agents such as nonadsorbing polymer, multivalent counter ions, and spe...
In the presence of condensing agents such as non-adsorbing polymer, multivalent counter ions and spe...
Bundles of filamentous polymers are primary structural components of a broad range of cytoskeletal s...
The semiflexible polymers filamentous actin (F‑actin) and intermediate filaments (IF) both form comp...
This is an overview of theoretical approaches to semiflexible polymers and their networks. Such semi...
The mechanical properties of cytoskeletal actin bundles play an essential role in numerous physiolog...
AbstractThe mechanical properties of cytoskeletal actin bundles play an essential role in numerous p...
Here, we provide an overview of theoretical approaches to semiflexible polymers and their net-works....
The actin cytoskeleton is a semiflexible biopolymer network whose morphology is controlled by a wide...
The mechanics of complex soft matter often cannot be understood in the classical physical frame of f...
[[abstract]]Cells and tissues are mechanical as well as biochemical machines, and cellular response ...
Bundles and networks of semiflexible biopolymers are key elements in cells, lending them mechanical ...
Bundles and networks of semiflexible biopolymers are key elements in cells, lending them mechanical ...
While actin bundles are used by living cells for structural fortification, the microscopic origin of...
Polymers and their elementary subunits, called monomers, come in an immense variety of structures an...
In the presence of condensing agents such as nonadsorbing polymer, multivalent counter ions, and spe...
In the presence of condensing agents such as non-adsorbing polymer, multivalent counter ions and spe...
Bundles of filamentous polymers are primary structural components of a broad range of cytoskeletal s...
The semiflexible polymers filamentous actin (F‑actin) and intermediate filaments (IF) both form comp...
This is an overview of theoretical approaches to semiflexible polymers and their networks. Such semi...
The mechanical properties of cytoskeletal actin bundles play an essential role in numerous physiolog...
AbstractThe mechanical properties of cytoskeletal actin bundles play an essential role in numerous p...
Here, we provide an overview of theoretical approaches to semiflexible polymers and their net-works....
The actin cytoskeleton is a semiflexible biopolymer network whose morphology is controlled by a wide...
The mechanics of complex soft matter often cannot be understood in the classical physical frame of f...
[[abstract]]Cells and tissues are mechanical as well as biochemical machines, and cellular response ...