Add to ORKGThis dissertation covers three related approaches to developing a more complete understanding of how single molecule properties of muscle myosin collectively generate unloaded shortening velocities, V. Theory, experimentation, and simulation results all contributed to answering fundamental muscle research questions. These questions focused on addressing how single myosin molecule properties scale in an ensemble to collectively perform work that results in V and how attachment kinetics affect V. Our work has resulted in the development of a model, based on quantifiable kinetic and physical parameters of myosin and actin, which provides a set of mechanisms to describe experimental data that the predominate models of muscle contraction are ...
AbstractDespite intense efforts to elucidate the molecular mechanisms that determine the maximum sho...
We describe a model that relates the maximum shortening velocity of a muscle fiber, Vm, to the kinet...
Muscular force generation in response to external stimuli is the result of thermally fluctuating, cy...
AbstractSkeletal muscle contraction is a canonical example of motor-driven force generation. Despite...
In this work, a mathematical model was developed to relate the mechanochemical characterizations of ...
ABSTRACT Skeletal muscle contraction is a canonical example of motor-driven force generation. Despit...
Almost 60 years ago Andrew Huxley with his seminal paper (Huxley, 1957) laid the foundation of moder...
Bridging the gaps between experimental systems on different hierarchical scales is needed to overcom...
Muscle contraction is an essential biological process than spans physiological size scales, ranging ...
AbstractMuscles contain a collection of motor units that can have different mechanical properties. I...
A mathematical model of skeletal muscle contraction based on two recent single myosin molecule exper...
The main objective of the study was to investigate skeletal muscle force production during isometric...
International audienceIn this paper we report, clarify and broaden various recent efforts to complem...
AbstractIn contracting muscle, individual myosin molecules function as part of a large ensemble, hyd...
In muscle, but not in single-molecule mechanics studies, actin, myosin and accessory proteins are in...
AbstractDespite intense efforts to elucidate the molecular mechanisms that determine the maximum sho...
We describe a model that relates the maximum shortening velocity of a muscle fiber, Vm, to the kinet...
Muscular force generation in response to external stimuli is the result of thermally fluctuating, cy...
AbstractSkeletal muscle contraction is a canonical example of motor-driven force generation. Despite...
In this work, a mathematical model was developed to relate the mechanochemical characterizations of ...
ABSTRACT Skeletal muscle contraction is a canonical example of motor-driven force generation. Despit...
Almost 60 years ago Andrew Huxley with his seminal paper (Huxley, 1957) laid the foundation of moder...
Bridging the gaps between experimental systems on different hierarchical scales is needed to overcom...
Muscle contraction is an essential biological process than spans physiological size scales, ranging ...
AbstractMuscles contain a collection of motor units that can have different mechanical properties. I...
A mathematical model of skeletal muscle contraction based on two recent single myosin molecule exper...
The main objective of the study was to investigate skeletal muscle force production during isometric...
International audienceIn this paper we report, clarify and broaden various recent efforts to complem...
AbstractIn contracting muscle, individual myosin molecules function as part of a large ensemble, hyd...
In muscle, but not in single-molecule mechanics studies, actin, myosin and accessory proteins are in...
AbstractDespite intense efforts to elucidate the molecular mechanisms that determine the maximum sho...
We describe a model that relates the maximum shortening velocity of a muscle fiber, Vm, to the kinet...
Muscular force generation in response to external stimuli is the result of thermally fluctuating, cy...