Intracellular transport in eukarya is attributed to motor proteins that transduce chemical energy into directed mechanical energy. This suggests that, in nonequilibrium systems, fluctuations may be oriented or organized to do work. Here we seek to understand how this is manifested by quantitative mathematical portrayals of these systems
Cells are complex structures which require considerable amounts of organization via transport of lar...
Abstract.Motor proteins are enzymes that convert chemical energy derived from the hydrolysis of ATP ...
Quantifying the flow of energy within and through fluctuating nanoscale systems poses a significant ...
Abstract. Intracellular transport in eukarya is attributed to motor proteins that transduce chemical...
Biological transport is supported by the collective dynamics of enzymatic molecules that are called ...
Molecular motors are macromolecular complexes which use some form of input energy to perform mechan...
Traffic-like collective movements are observed at almost all levels of biological systems. Molecular...
Several classes of biological molecules that transform chemical energy into mechanical work are know...
Molecular motors do not work in isolation in-vivo. We highlight some of the coordinations, cooperati...
Biological processes take place far away from equilibrium and are of interest to uncover the basic p...
Intracellular transport is a fundamental biological process during which cellular materials are driv...
Biological molecular motors transform the metabolic free energy into the directed movement. The phys...
An efficient molecular motor would deliver cargo to the target site at a high speed and in a punctua...
Some results of non-equilibrium statistical mechanics are presented, both in the context of biologic...
Molecular motors perform many kinds of activities in living organisms such as cellular transport pro...
Cells are complex structures which require considerable amounts of organization via transport of lar...
Abstract.Motor proteins are enzymes that convert chemical energy derived from the hydrolysis of ATP ...
Quantifying the flow of energy within and through fluctuating nanoscale systems poses a significant ...
Abstract. Intracellular transport in eukarya is attributed to motor proteins that transduce chemical...
Biological transport is supported by the collective dynamics of enzymatic molecules that are called ...
Molecular motors are macromolecular complexes which use some form of input energy to perform mechan...
Traffic-like collective movements are observed at almost all levels of biological systems. Molecular...
Several classes of biological molecules that transform chemical energy into mechanical work are know...
Molecular motors do not work in isolation in-vivo. We highlight some of the coordinations, cooperati...
Biological processes take place far away from equilibrium and are of interest to uncover the basic p...
Intracellular transport is a fundamental biological process during which cellular materials are driv...
Biological molecular motors transform the metabolic free energy into the directed movement. The phys...
An efficient molecular motor would deliver cargo to the target site at a high speed and in a punctua...
Some results of non-equilibrium statistical mechanics are presented, both in the context of biologic...
Molecular motors perform many kinds of activities in living organisms such as cellular transport pro...
Cells are complex structures which require considerable amounts of organization via transport of lar...
Abstract.Motor proteins are enzymes that convert chemical energy derived from the hydrolysis of ATP ...
Quantifying the flow of energy within and through fluctuating nanoscale systems poses a significant ...
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