Skeletal muscles power body movement by converting free energy of ATP hydrolysis into mechanical work. During the landing phase of running or jumping some activated skeletal muscles are subjected to stretch. Upon stretch they absorb body energy quickly and effectively thus protecting joints and bones from impact damage. This is achieved because during lengthening, skeletal muscle bears higher force and has higher instantaneous stiffness than during isometric contraction, and yet consumes very little ATP. We wish to understand how the actomyosin molecules change their structure and interaction to implement these physiologically useful mechanical and thermodynamical properties. We monitored changes in the low angle x-ray diffraction pattern o...
AbstractThe duty ratio, or the part of the working cycle in which a myosin molecule is strongly atta...
AbstractThe stiffness of the single myosin motor (ɛ) is determined in skinned fibers from rabbit pso...
AbstractThe molecular mechanism of the powerstroke in muscle is examined by resonance energy transfe...
Copyright: © 2014 Ferenczi et al. Skeletal muscles power body movement by converting free energy of ...
Skeletal muscles power body movement by converting free energy of ATP hydrolysis into mechanical wor...
The aim of this thesis was to examine the molecular mechanism underlying the force response to stre...
A thermodynamic analysis is presented for the energy conversion by muscle contraction. During the cy...
Striated muscle is an elegant system for study at many levels. Much has been learned about the mecha...
Poisson-Boltzmann calculations of the distribution of electrostatic potentials around an actin filam...
Force enhancement during lengthening of an active muscle, a condition that normally occurs during lo...
Skeletal muscle uses more energy when it is shortening rapidly and less energy when it is maintainin...
AbstractRecent experimental findings suggest that the myosin cross-bridge theory may no longer be ad...
To clarify the extensibility of thin actin and thick myosin filaments in muscle, we examined the spa...
Muscle contraction is thought to be accomplished by sliding of myosin filaments along actin filament...
Muscle contraction involves the sliding of the myosin-containing thick filaments past the actin-cont...
AbstractThe duty ratio, or the part of the working cycle in which a myosin molecule is strongly atta...
AbstractThe stiffness of the single myosin motor (ɛ) is determined in skinned fibers from rabbit pso...
AbstractThe molecular mechanism of the powerstroke in muscle is examined by resonance energy transfe...
Copyright: © 2014 Ferenczi et al. Skeletal muscles power body movement by converting free energy of ...
Skeletal muscles power body movement by converting free energy of ATP hydrolysis into mechanical wor...
The aim of this thesis was to examine the molecular mechanism underlying the force response to stre...
A thermodynamic analysis is presented for the energy conversion by muscle contraction. During the cy...
Striated muscle is an elegant system for study at many levels. Much has been learned about the mecha...
Poisson-Boltzmann calculations of the distribution of electrostatic potentials around an actin filam...
Force enhancement during lengthening of an active muscle, a condition that normally occurs during lo...
Skeletal muscle uses more energy when it is shortening rapidly and less energy when it is maintainin...
AbstractRecent experimental findings suggest that the myosin cross-bridge theory may no longer be ad...
To clarify the extensibility of thin actin and thick myosin filaments in muscle, we examined the spa...
Muscle contraction is thought to be accomplished by sliding of myosin filaments along actin filament...
Muscle contraction involves the sliding of the myosin-containing thick filaments past the actin-cont...
AbstractThe duty ratio, or the part of the working cycle in which a myosin molecule is strongly atta...
AbstractThe stiffness of the single myosin motor (ɛ) is determined in skinned fibers from rabbit pso...
AbstractThe molecular mechanism of the powerstroke in muscle is examined by resonance energy transfe...