Add to ORKGThe cytoskeleton is a collection of protein assemblies that dynamically impose spatial structure in cells and coordinate processes such as cell division and mechanical regulation. Biopolymer filaments, cross-linking proteins, and enzymatically active motor proteins collectively self-organize into various precise cytoskeletal assemblies critical for specific biological functions. An outstanding question is how the precise spatial organization arises from the component macromolecules. We develop a system to investigate simple physical mechanisms of self-organization in biological assemblies. Using a minimal set of purified proteins, we create droplets of cross-linked biopolymer filaments. Through the addition of enzymatically active motor pro...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
AbstractAll eukaryotic cells rely on the active self-organization of protein filaments to form a res...
The inherent activity of the cellular cytoskeleton is responsible for its unique properties - but at...
The inherent activity of the cellular cytoskeleton is responsible for its unique properties - but at...
AbstractAll eukaryotic cells rely on the active self-organization of protein filaments to form a res...
Life implies motion. In cells, protein-based active molecular machines drive cell locomotion and int...
The cytoskeleton forms a variety of steady-state, subcellular structures that are maintained by cont...
The cytoskeleton consists of polymeric protein filaments with periodic lattices displaying identical...
Biological materials and systems often dynamically self-assemble and disassemble, forming temporary ...
This thesis discusses circularization and supercoiling of actin biofilaments, as well as the various...
Microtubules and motor proteins form active filament networks that are critical for a variety of fun...
Microtubules and motor proteins form active filament networks that are critical for a variety of fun...
Biological polymers that build up the eukaryotic cytoskeleton exhibit a rich dynamical behaviour tha...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
AbstractAll eukaryotic cells rely on the active self-organization of protein filaments to form a res...
The inherent activity of the cellular cytoskeleton is responsible for its unique properties - but at...
The inherent activity of the cellular cytoskeleton is responsible for its unique properties - but at...
AbstractAll eukaryotic cells rely on the active self-organization of protein filaments to form a res...
Life implies motion. In cells, protein-based active molecular machines drive cell locomotion and int...
The cytoskeleton forms a variety of steady-state, subcellular structures that are maintained by cont...
The cytoskeleton consists of polymeric protein filaments with periodic lattices displaying identical...
Biological materials and systems often dynamically self-assemble and disassemble, forming temporary ...
This thesis discusses circularization and supercoiling of actin biofilaments, as well as the various...
Microtubules and motor proteins form active filament networks that are critical for a variety of fun...
Microtubules and motor proteins form active filament networks that are critical for a variety of fun...
Biological polymers that build up the eukaryotic cytoskeleton exhibit a rich dynamical behaviour tha...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...
<p>Spontaneous self-organization of active matter has been demonstrated in a number of biological sy...