Solvable model of a many-filament Brownian ratchet

Wood, Anthony J.; Blythe, Richard A.; Evans, Martin R.

doi:10.1103/physreve.100.042122

Cited by 8 publications

(13 citation statements)

References 41 publications

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“…In this article, we demonstrate how even in a static, structureless environment, particles can themselves be the source of inter-particle ratcheting when they have heterogeneous properties and interact via volume exclusion. This inter-particle ratchet effect underlies correlation-phenomena found in a range of models including lattice exclusion processes with particle-wise disorder [10][11][12] or driven tracers [13,14], continuous-space single-file diffusion with random diffusivities [15][16][17] or friction [18], and a recent many-filament ratchet model [19].…”

Section: Introductionmentioning

confidence: 99%

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Inter-particle ratchet effect determines global current of heterogeneous particles diffusing in confinement

Mallmin,

Blythe,

Evans

2020

Preprint

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In a model of N volume-excluding spheres in a d-dimensional tube, we consider how differences between particles in their drift velocities, diffusivities, and sizes influence the steady state distribution and axial particle current. We show that the model is exactly solvable when the geometrical constraints prevent any particle from overtaking every other-a notion we term quasi-one-dimensionality. Then, due to a ratchet effect, the current is biased towards the velocities of the least diffusive particles. We consider special cases of this model in one dimension, and derive the exact joint gap distribution for driven tracers in a passive bath. We describe the relationship between phase space structure and irreversible drift that makes the quasi-one-dimensional supposition key to the model's solvability.

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Section: Introductionmentioning

confidence: 99%

“…Lastly, we describe how the many-filament ratchet of Ref. [19] relates to the previous cases through a simple mapping.…”

Section: Introductionmentioning

confidence: 99%

Inter-particle ratchet effect determines global current of heterogeneous particles diffusing in confinement

Mallmin,

Blythe,

Evans

2020

Preprint

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“…However, membrane fluctuations have not yet been studied. In most studies reported in the literature [16][17][18][19][20][21][22][23], the membrane is modeled as a flat rigid surface; thus, no fluctuations are accounted for. Although the membrane fluctuations are assumed to be a Gaussian distribution of the membrane height in Ref.…”

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confidence: 99%

“…For example, actin filaments grow at the front side of crawling cells and push the membrane forward. This membrane motion has been intensively studied by Brownian ratchet theories and simulations [15][16][17][18][19][20][21][22][23][24][25][26][27].…”

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confidence: 99%

Undulation of a moving fluid membrane pushed by filament growth

Noguchi

Pierre-Louis

2021

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Biomembranes experience out-of-equilibrium conditions in living cells. Their undulation spectra are different from those in thermal equilibrium. Here, we report on the undulation of a fluid membrane pushed by the stepwise growth of filaments as in the leading edge of migrating cells, using three-dimensional Monte Carlo simulations. The undulations are largely modified from equilibrium behavior. When the tension is constrained, the low-wave-number modes are suppressed or enhanced at small or large growth step sizes, respectively, for high membrane surface tensions. In contrast, they are always suppressed for the tensionless membrane , wherein the wave-number range of the suppression depends on the step size. When the membrane area is constrained, in addition to these features, a specific mode is excited for zero and low surface tensions. The reduction of the undulation first induces membrane buckling at the lowest wave-number, and subsequently, other modes are excited, leading to a steady state.

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“…Two paradigmatic ratchet models, namely flashing and rocking ratchet [3,[13][14][15][16][17] models always involve an intermittent forcing to drive the system (modeled as a single particle) out of equilibrium. The work done by the system in this case is an amount of work extracted mostly from the source of directionless forcing.…”

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confidence: 99%

Conversion of heat to work: An efficient inchworm

Sharma

Bhattacharyay

2020

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The paper discusses the natural emergence of directed motion in a dimer system due to a structural symmetry breaking. A generalised solution is obtained for the transport of such a system which is driven entirely by bath fluctuations. The result shows the existence of possibility of ratcheting driven by bath fluctuations. If this component of energy conversion driven by bath is taken into account the high efficiency of molecular motors as opposed to paradigmatic ratcheting models can probably be explained.

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Solvable model of a many-filament Brownian ratchet

Cited by 8 publications

References 41 publications

Inter-particle ratchet effect determines global current of heterogeneous particles diffusing in confinement

Inter-particle ratchet effect determines global current of heterogeneous particles diffusing in confinement

Undulation of a moving fluid membrane pushed by filament growth

Conversion of heat to work: An efficient inchworm

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