Add to ORKGCytokinesis in many eukaryotic cells is orchestrated by a contractile actomyosin ring. While many of the proteins involved are known, the mechanism of constriction remains unclear. Informed by the existing literature and new three-dimensional (3D) molecular details from electron cryotomography, here we develop 3D coarse-grained models of actin filaments, unipolar and bipolar myosins, actin cross-linkers, and membranes and simulate their interactions. Assuming that local force on the membrane results in inward growth of the cell wall, we explored a matrix of possible actomyosin configurations and found that node-based architectures like those presently described for ring assembly result in membrane puckers not seen in electron microscope ima...
Experimental data and simulation codes for the paper "A tug of war between filament treadmilling and...
Actin cytoskeleton arranges into distinct architectures to enable cell functions under different mec...
Actomyosin structures are involved in many cell functions. Understanding their organization and coll...
Cytokinesis in many eukaryotic cells is orchestrated by a contractile actomyosin ring. While many of...
Cytokinesis is orchestrated by a contractile actomyosin ring, but its structure and mechanism remain...
Cytokinesis in fission yeast requires the presence of the actomyosin ring that constricts the membra...
Division in eukaryotic cells depends on an actomyosin ring that forms at the midcell and then contra...
Cell division in many eukaryotes is driven by a ring containing actin and myosin. While much is know...
AbstractDuring fission yeast cytokinesis, actin filaments nucleated by cortical formin Cdc12 are cap...
One of the grand challenges of bottom-up synthetic biology is the development of minimal machineries...
SummaryActin filaments and myosin II are evolutionarily conserved force-generating components of the...
AbstractWe investigate computationally the self-organization and contraction of an initially random ...
Actomyosin structures are involved in many cell functions. Understanding their organization and coll...
Eukaryotic cells use a multitude of protein machines to regulate their own structure. In this thesis...
The actomyosin ring generates force to ingress the cytokinetic cleavage furrow in animal cells, yet ...
Experimental data and simulation codes for the paper "A tug of war between filament treadmilling and...
Actin cytoskeleton arranges into distinct architectures to enable cell functions under different mec...
Actomyosin structures are involved in many cell functions. Understanding their organization and coll...
Cytokinesis in many eukaryotic cells is orchestrated by a contractile actomyosin ring. While many of...
Cytokinesis is orchestrated by a contractile actomyosin ring, but its structure and mechanism remain...
Cytokinesis in fission yeast requires the presence of the actomyosin ring that constricts the membra...
Division in eukaryotic cells depends on an actomyosin ring that forms at the midcell and then contra...
Cell division in many eukaryotes is driven by a ring containing actin and myosin. While much is know...
AbstractDuring fission yeast cytokinesis, actin filaments nucleated by cortical formin Cdc12 are cap...
One of the grand challenges of bottom-up synthetic biology is the development of minimal machineries...
SummaryActin filaments and myosin II are evolutionarily conserved force-generating components of the...
AbstractWe investigate computationally the self-organization and contraction of an initially random ...
Actomyosin structures are involved in many cell functions. Understanding their organization and coll...
Eukaryotic cells use a multitude of protein machines to regulate their own structure. In this thesis...
The actomyosin ring generates force to ingress the cytokinetic cleavage furrow in animal cells, yet ...
Experimental data and simulation codes for the paper "A tug of war between filament treadmilling and...
Actin cytoskeleton arranges into distinct architectures to enable cell functions under different mec...
Actomyosin structures are involved in many cell functions. Understanding their organization and coll...