Active networks composed of filaments and motor proteins can self-organize into a variety of architectures. Computer simulations in two or three spatial dimensions and including or omitting steric interactions between filaments can be used to model active networks. Here we examine how these modelling choices affect the state space of network self-organization. We compare the networks generated by different models of a system of dynamic microtubules and microtubule-crosslinking motors. We find that a thin 3D model that includes steric interactions between filaments is the most versatile, capturing a variety of network states observed in recent experiments. In contrast, 2D models either with or without steric interactions which prohibit micro...
Biological polymers that build up the eukaryotic cytoskeleton exhibit a rich dynamical behaviour tha...
Actomyosin networks are major structural components of the cell. They provide mechanical integrity a...
We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...
Active networks composed of filaments and motor proteins can self-organize into a variety of archite...
The microtubule cytoskeleton is a self-organising system of microtubule filaments, molecular motors ...
Simulation configuration files and documentation for the data presented in 'Effects of spatial dimen...
Microtubules are highly dynamic polymers and components of the cellular cytoskeleton of all eukaryot...
Microtubules and motor proteins form active filament networks that are critical for a variety of fun...
AbstractMicrotubule (MT) networks play key roles in cell division, intracellular transport, and cell...
In cells, cytoskeletal filament networks are responsible for cell movement, growth, and division. Fi...
During cell division, mitotic motors organize microtubules in the bipolar spindle into either polar ...
During cell division, cross-linking motors determine the architecture of the spindle, a dynamic micr...
Molecular motors facilitate force generation in the cytoskeletal network necessary for the distribut...
Cytoskeletal networks, which are essentially motor-filament assemblies, play a major role in many de...
We model the stable self-organized patterns obtained in the nonequilibrium steady states of mixtures...
Biological polymers that build up the eukaryotic cytoskeleton exhibit a rich dynamical behaviour tha...
Actomyosin networks are major structural components of the cell. They provide mechanical integrity a...
We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...
Active networks composed of filaments and motor proteins can self-organize into a variety of archite...
The microtubule cytoskeleton is a self-organising system of microtubule filaments, molecular motors ...
Simulation configuration files and documentation for the data presented in 'Effects of spatial dimen...
Microtubules are highly dynamic polymers and components of the cellular cytoskeleton of all eukaryot...
Microtubules and motor proteins form active filament networks that are critical for a variety of fun...
AbstractMicrotubule (MT) networks play key roles in cell division, intracellular transport, and cell...
In cells, cytoskeletal filament networks are responsible for cell movement, growth, and division. Fi...
During cell division, mitotic motors organize microtubules in the bipolar spindle into either polar ...
During cell division, cross-linking motors determine the architecture of the spindle, a dynamic micr...
Molecular motors facilitate force generation in the cytoskeletal network necessary for the distribut...
Cytoskeletal networks, which are essentially motor-filament assemblies, play a major role in many de...
We model the stable self-organized patterns obtained in the nonequilibrium steady states of mixtures...
Biological polymers that build up the eukaryotic cytoskeleton exhibit a rich dynamical behaviour tha...
Actomyosin networks are major structural components of the cell. They provide mechanical integrity a...
We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...