Many biomolecular machines need to be both fast and efficient. How has evolution optimized these machines along the tradeoff between speed and efficiency? We explore this question using optimizable dynamical models along coordinates that are plausible evolutionary degrees of freedom. Data on 11 motors and ion pumps are consistent with the hypothesis that evolution seeks an optimal balance of speed and efficiency, where any further small increase in one of these quantities would come at great expense to the other. For FoF1-ATPases in different species, we also find apparent optimization of the number of subunits in the c-ring, which determines the number of protons pumped per ATP synthesized. Interestingly, these ATPases appear to more optim...
Rotary ATPases are involved in numerous physiological processes, with the three distinct types (F/A/...
AbstractMost genomes are much more complex than required for the minimum chemistry of life. Evolutio...
Biomolecular machines transduce between different forms of energy. These machines make directed prog...
How does a biomolecular machine achieve high speed at high efficiency? We explore optimization princ...
An efficient molecular motor would deliver cargo to the target site at a high speed and in a punctua...
Biomolecular machines consume free energy to break symmetry and make directed progress. Nonequilibri...
A major goal in the design of synthetic molecular machines is the creation of pumps that can use the...
The pump process of the ratchet model inspired by the $F_o$ rotatory motor of ATP synthase is invest...
Molecular machines are stochastic systems capable of converting between different forms of energy su...
ATP-driven proton pumps, which are critical to the operation of a cell, maintain cytosolic and organ...
We show that the molecular motor ATP synthase has evolved in accordance with the statistical selecti...
International audienceEnzymes speed up reactions that would otherwise be too slow to sustain the met...
F$_{1}$-ATPase is a rotary molecular motor that \emph{in vivo} is subject to strong nonequilibrium d...
Abstract Recent theoretical work on the energy conversion by molecular motors coupled to nucleotide ...
The bacterial flagellar motor (BFM) is an ion-powered nanomachine that drives swimming in many bacte...
Rotary ATPases are involved in numerous physiological processes, with the three distinct types (F/A/...
AbstractMost genomes are much more complex than required for the minimum chemistry of life. Evolutio...
Biomolecular machines transduce between different forms of energy. These machines make directed prog...
How does a biomolecular machine achieve high speed at high efficiency? We explore optimization princ...
An efficient molecular motor would deliver cargo to the target site at a high speed and in a punctua...
Biomolecular machines consume free energy to break symmetry and make directed progress. Nonequilibri...
A major goal in the design of synthetic molecular machines is the creation of pumps that can use the...
The pump process of the ratchet model inspired by the $F_o$ rotatory motor of ATP synthase is invest...
Molecular machines are stochastic systems capable of converting between different forms of energy su...
ATP-driven proton pumps, which are critical to the operation of a cell, maintain cytosolic and organ...
We show that the molecular motor ATP synthase has evolved in accordance with the statistical selecti...
International audienceEnzymes speed up reactions that would otherwise be too slow to sustain the met...
F$_{1}$-ATPase is a rotary molecular motor that \emph{in vivo} is subject to strong nonequilibrium d...
Abstract Recent theoretical work on the energy conversion by molecular motors coupled to nucleotide ...
The bacterial flagellar motor (BFM) is an ion-powered nanomachine that drives swimming in many bacte...
Rotary ATPases are involved in numerous physiological processes, with the three distinct types (F/A/...
AbstractMost genomes are much more complex than required for the minimum chemistry of life. Evolutio...
Biomolecular machines transduce between different forms of energy. These machines make directed prog...