Add to ORKGIn order to understand the mechanism of muscle contraction at the atomic level, it is necessary to understand how myosin binds to actin in a reversible way.We have used a novel molecular dynamics technique constrained by an EM map of the actin−myosin complex at 13−Å resolution to obtain an atomic model of the strong−binding (rigor) actin−myosin interface. The constraining force resulting from the EM map during the molecular dynamics simulation was sufficient to convert the myosin head from the initial weak−binding state to the strong−binding (rigor) state. Our actin−myosin model suggests extensive contacts between actin and the myosin head (S1). S1 binds to two actin monomers. The contact surface between actin and S1 has increased dramatica...
The mechanics of the actomyosin interaction is central in muscle contraction and intracellular traff...
It is proposed that force generation in muscle contraction occurs through a transition from a weakly...
We present Monte Carlo simulations for a molecular motor system found in virtually all eukaryotic ce...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
AbstractActin and myosin interact with one another to perform a variety of cellular functions. Centr...
Myosins are a superfamily of actin-binding motor proteins with significant variations in kinetic pro...
Myosins are a superfamily of actin-binding motor proteins with significant variations in kinetic pro...
Myosins are a superfamily of actin-binding motor proteins with significant variations in kinetic pro...
Muscle contraction is performed by arrays of contractile proteins in the sarcomere. Serious heart di...
Decorated actin provides a model system for studying the strong interaction between actin and myosin...
Force generation in muscle results from binding of myosin to F-actin. ATP binding to myosin provides...
The mechanics of the actomyosin interaction is central in muscle contraction and intracellular traff...
It is proposed that force generation in muscle contraction occurs through a transition from a weakly...
We present Monte Carlo simulations for a molecular motor system found in virtually all eukaryotic ce...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
In order to understand the mechanism of muscle contraction at the atomic level, it is necessary to u...
AbstractActin and myosin interact with one another to perform a variety of cellular functions. Centr...
Myosins are a superfamily of actin-binding motor proteins with significant variations in kinetic pro...
Myosins are a superfamily of actin-binding motor proteins with significant variations in kinetic pro...
Myosins are a superfamily of actin-binding motor proteins with significant variations in kinetic pro...
Muscle contraction is performed by arrays of contractile proteins in the sarcomere. Serious heart di...
Decorated actin provides a model system for studying the strong interaction between actin and myosin...
Force generation in muscle results from binding of myosin to F-actin. ATP binding to myosin provides...
The mechanics of the actomyosin interaction is central in muscle contraction and intracellular traff...
It is proposed that force generation in muscle contraction occurs through a transition from a weakly...
We present Monte Carlo simulations for a molecular motor system found in virtually all eukaryotic ce...