Molecular motor proteins such as Myosin V, Dynein or Kinesin are no ratchets, at least not with a ashing asymmetric potential; the crucial asymmetry is in the dynamical activity. We make that explicit in terms of a simple Markov model, emphasizing the kinetic (and non-thermodynamic) aspects of stochastic transport. The analysis shows the presence of a uctuation symmetry in that part of the dynamical activity which is antisymmetric under reversal of trailing and leading head of the motor. The direction of the motor motion is determined by it.status: publishe
ABSTRACT Myosin-V is an actin-associated processive molecular motor. Single molecule experiments rev...
Motor proteins are microscopic biological machines that convert chemical energy into mechanical moti...
ABSTRACT Myosin-V is a motor protein responsible for organelle and vesicle transport in cells. Recen...
Molecular motor proteins such as Myosin V, Dynein or Kinesin are no ratchets, at least not with a a...
AbstractMyosin-V is an actin-associated processive molecular motor. Single molecule experiments reve...
AbstractMyosin-V is a motor protein responsible for organelle and vesicle transport in cells. Recent...
AbstractMolecular motors are first and foremost molecules, governed by the laws of chemistry rather ...
AbstractThe molecular motor myosin V has been studied extensively both in bulk and single molecule e...
A molecular motor is the nano-scale combustion engine of the cell: it uses a chemical reaction to dr...
Molecular motors play important roles within a biological cell, performing functions such as intrace...
The precise details of how myosin-V coordinates the biochemical reactions and mechanical motions of ...
Myosin-V is a molecular motor that moves processively along its actin track. We have used a feedback...
The mechanisms of molecular motors transport are important for understanding multiple biological pro...
AbstractThe precise details of how myosin-V coordinates the biochemical reactions and mechanical mot...
We investigate the origin of the regularity and synchrony which have been observed in numerical expe...
ABSTRACT Myosin-V is an actin-associated processive molecular motor. Single molecule experiments rev...
Motor proteins are microscopic biological machines that convert chemical energy into mechanical moti...
ABSTRACT Myosin-V is a motor protein responsible for organelle and vesicle transport in cells. Recen...
Molecular motor proteins such as Myosin V, Dynein or Kinesin are no ratchets, at least not with a a...
AbstractMyosin-V is an actin-associated processive molecular motor. Single molecule experiments reve...
AbstractMyosin-V is a motor protein responsible for organelle and vesicle transport in cells. Recent...
AbstractMolecular motors are first and foremost molecules, governed by the laws of chemistry rather ...
AbstractThe molecular motor myosin V has been studied extensively both in bulk and single molecule e...
A molecular motor is the nano-scale combustion engine of the cell: it uses a chemical reaction to dr...
Molecular motors play important roles within a biological cell, performing functions such as intrace...
The precise details of how myosin-V coordinates the biochemical reactions and mechanical motions of ...
Myosin-V is a molecular motor that moves processively along its actin track. We have used a feedback...
The mechanisms of molecular motors transport are important for understanding multiple biological pro...
AbstractThe precise details of how myosin-V coordinates the biochemical reactions and mechanical mot...
We investigate the origin of the regularity and synchrony which have been observed in numerical expe...
ABSTRACT Myosin-V is an actin-associated processive molecular motor. Single molecule experiments rev...
Motor proteins are microscopic biological machines that convert chemical energy into mechanical moti...
ABSTRACT Myosin-V is a motor protein responsible for organelle and vesicle transport in cells. Recen...