Add to ORKGMixtures of filaments and molecular motors form active materials with diverse dynamical behaviors that vary based on their constituents' molecular properties. To develop a multiscale of these materials, we map the nonequilibrium phase diagram of microtubules and tip-accumulating kinesin-4 molecular motors. We find that kinesin-4 can drive either global contractions or turbulentlike extensile dynamics, depending on the concentrations of both microtubules and a bundling agent. We also observe a range of spatially heterogeneous nonequilibrium phases, including finite-sized radial asters, 1D wormlike chains, extended 2D bilayers, and system-spanning 3D active foams. Finally, we describe intricate kinetic pathways that yield microphase separated...
Active matter is an assembly of individual components able to move separately, though their coupling...
Active networks of biopolymers and motor proteins in vitro self-organize and exhibit dynamic structu...
Robust self-organization of subcellular structures is a key principle governing the dynamics and evo...
Abstract. We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...
We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...
In the presence of adenosine triphosphate, molecular motors generate active force dipoles that drive...
The cytoskeleton of biological cells relies on a diverse population of motors, filaments, and bindin...
Active matter is a field that continues to grow in interest because of its widespread relevance to f...
Background: Robust self-organization of subcellular structures is a key principle governing the dyna...
Dynamic lane formation and long-range active nematic alignment are reported using a geometry in whic...
Microtubule-based active fluids exhibit turbulent-like autonomous flows, which are driven by the mol...
Raw video files associated with the paper described as follows: The cellular cytoskeleton relies on...
This thesis discusses circularization and supercoiling of actin biofilaments, as well as the various...
In cellular phenomena, such as cytoplasmic streaming, molecular motors translocate along microtubule...
In a dividing cell, multiple subfamilies of kinesin and dynein motors work together to form the mito...
Active matter is an assembly of individual components able to move separately, though their coupling...
Active networks of biopolymers and motor proteins in vitro self-organize and exhibit dynamic structu...
Robust self-organization of subcellular structures is a key principle governing the dynamics and evo...
Abstract. We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...
We study molecular motor-induced microtubule self-organization in dilute and semi-dilute f...
In the presence of adenosine triphosphate, molecular motors generate active force dipoles that drive...
The cytoskeleton of biological cells relies on a diverse population of motors, filaments, and bindin...
Active matter is a field that continues to grow in interest because of its widespread relevance to f...
Background: Robust self-organization of subcellular structures is a key principle governing the dyna...
Dynamic lane formation and long-range active nematic alignment are reported using a geometry in whic...
Microtubule-based active fluids exhibit turbulent-like autonomous flows, which are driven by the mol...
Raw video files associated with the paper described as follows: The cellular cytoskeleton relies on...
This thesis discusses circularization and supercoiling of actin biofilaments, as well as the various...
In cellular phenomena, such as cytoplasmic streaming, molecular motors translocate along microtubule...
In a dividing cell, multiple subfamilies of kinesin and dynein motors work together to form the mito...
Active matter is an assembly of individual components able to move separately, though their coupling...
Active networks of biopolymers and motor proteins in vitro self-organize and exhibit dynamic structu...
Robust self-organization of subcellular structures is a key principle governing the dynamics and evo...