Add to ORKGABSTRACT To elucidate the mechanism of force generation by actomyosin motor, a measuring system was constructed, in which an in vitro motility assay was combined with an optical trapping technique. An actin filament of several pm long was attached to a gelsolin-coated polystyrene bead, and was allowed to interact with a small number (-1/1-pm actin filament) of rabbit skeletal heavy meromyosin (an active subfragment of myosin) molecules bound to a nitrocellulose-coated coverglass. The bead position was determined at 33-ms intervals. We measured the force generation event at relatively low (100-400 nM) ATP concentration so that the occurrence of individual force generation events could be detected with our time resolution. The actin-bound bea...
AbstractWe constructed a next-generation optical trapping instrument to study the motility of single...
Heavy meromyosin (HMM), a proteolytically cleaved derivative of myosin has previously been shown to ...
Molecular motors and actin filaments play critical roles in disease processes and, more generally, i...
We have developed a new technique for measurements of piconewton forces and nanometer displacements ...
AbstractThe mechanical load borne by a molecular motor affects its force, sliding distance, and its ...
The aim of the project is to build a sarcomere-like machine consisting of a syntheticarray of myosin...
The interaction between actin filaments and myosin molecular motors is a power source of a variety o...
In vitro motility assays enabled the analysis of coupling between ATP hydrolysis and movement of myo...
AbstractThe force-extension curve of single myosin subfragment-1 molecules, interacting in the rigor...
AbstractWe have developed a technique that allows mechanical and ligand-binding events in a single m...
AbstractThe actomyosin interaction plays a key role in a number of cellular functions. Single-molecu...
AbstractMuscle contraction is brought about by the cyclical interaction of myosin with actin coupled...
ABSTRACT We constructed a next-generation optical trapping instrument to study the motility of singl...
AbstractTo bridge the gap between the contractile system in muscle and in vitro motility assay, we h...
Molecular motors and actin filaments play critical roles in disease processes and, more generally, i...
AbstractWe constructed a next-generation optical trapping instrument to study the motility of single...
Heavy meromyosin (HMM), a proteolytically cleaved derivative of myosin has previously been shown to ...
Molecular motors and actin filaments play critical roles in disease processes and, more generally, i...
We have developed a new technique for measurements of piconewton forces and nanometer displacements ...
AbstractThe mechanical load borne by a molecular motor affects its force, sliding distance, and its ...
The aim of the project is to build a sarcomere-like machine consisting of a syntheticarray of myosin...
The interaction between actin filaments and myosin molecular motors is a power source of a variety o...
In vitro motility assays enabled the analysis of coupling between ATP hydrolysis and movement of myo...
AbstractThe force-extension curve of single myosin subfragment-1 molecules, interacting in the rigor...
AbstractWe have developed a technique that allows mechanical and ligand-binding events in a single m...
AbstractThe actomyosin interaction plays a key role in a number of cellular functions. Single-molecu...
AbstractMuscle contraction is brought about by the cyclical interaction of myosin with actin coupled...
ABSTRACT We constructed a next-generation optical trapping instrument to study the motility of singl...
AbstractTo bridge the gap between the contractile system in muscle and in vitro motility assay, we h...
Molecular motors and actin filaments play critical roles in disease processes and, more generally, i...
AbstractWe constructed a next-generation optical trapping instrument to study the motility of single...
Heavy meromyosin (HMM), a proteolytically cleaved derivative of myosin has previously been shown to ...
Molecular motors and actin filaments play critical roles in disease processes and, more generally, i...