Molecular machines are stochastic systems capable of converting between different forms of energy such as chemical potential energy and mechanical work. The F1 subunit of ATP synthase couples the rotation of its central crankshaft with the synthesis or hydrolysis of ATP. This machine can reach maximal speeds of hundreds of rotations per second, and is believed to be capable of nearly 100% efficiency in near-equilibrium conditions, although a biased cycling machine is a nonequilibrium system and therefore must waste some energy in the form of dissipation. We explore the fundamental relationships among the accuracy, speed, and dissipated energy of such driven rotary molecular machines, in a simple model of F1. Simulations using Fokker-Planck ...
We combine molecular simulations and mechanical modeling to explore the mechanism of energy conversi...
Many biomolecular machines need to be both fast and efficient. How has evolution optimized these mac...
A major goal in the design of synthetic molecular machines is the creation of pumps that can use the...
Living systems at the molecular scale are composed of many coupled components with interactions vary...
F1F0 ATP synthase (ATPase) either facilitates the synthesis of ATP in a process driven by the proton...
none5noA general framework is provided that makes possible the estimation of time-dependent properti...
F1F0 ATP synthase (ATPase) either facilitates the synthesis of ATP in a process driven by the proton...
We present a chemomechanical network model of the rotary molecular motor F1-ATPase which quantitativ...
Most of the known molecular motors are fueled by ATP hydrolysis. In vivo these machines work near th...
We deal with the issue of quantifying and optimizing the rotation dynamics of synthetic molecular mo...
The pump process of the ratchet model inspired by the $F_o$ rotatory motor of ATP synthase is invest...
How does a biomolecular machine achieve high speed at high efficiency? We explore optimization princ...
Brownian rotors play an important role in biological systems and in future nanotechnological applica...
F1-ATPase is a unique enzyme. The hydrolysis (or synthesis) of ATP into ADP and Pi produces an energ...
We present a chemomechanical network model of the rotary molecular motor F1-ATPase which quantitativ...
We combine molecular simulations and mechanical modeling to explore the mechanism of energy conversi...
Many biomolecular machines need to be both fast and efficient. How has evolution optimized these mac...
A major goal in the design of synthetic molecular machines is the creation of pumps that can use the...
Living systems at the molecular scale are composed of many coupled components with interactions vary...
F1F0 ATP synthase (ATPase) either facilitates the synthesis of ATP in a process driven by the proton...
none5noA general framework is provided that makes possible the estimation of time-dependent properti...
F1F0 ATP synthase (ATPase) either facilitates the synthesis of ATP in a process driven by the proton...
We present a chemomechanical network model of the rotary molecular motor F1-ATPase which quantitativ...
Most of the known molecular motors are fueled by ATP hydrolysis. In vivo these machines work near th...
We deal with the issue of quantifying and optimizing the rotation dynamics of synthetic molecular mo...
The pump process of the ratchet model inspired by the $F_o$ rotatory motor of ATP synthase is invest...
How does a biomolecular machine achieve high speed at high efficiency? We explore optimization princ...
Brownian rotors play an important role in biological systems and in future nanotechnological applica...
F1-ATPase is a unique enzyme. The hydrolysis (or synthesis) of ATP into ADP and Pi produces an energ...
We present a chemomechanical network model of the rotary molecular motor F1-ATPase which quantitativ...
We combine molecular simulations and mechanical modeling to explore the mechanism of energy conversi...
Many biomolecular machines need to be both fast and efficient. How has evolution optimized these mac...
A major goal in the design of synthetic molecular machines is the creation of pumps that can use the...