Dynamic Blockage in an Exclusion Process

Mamata Sahoo; Jiajia Dong; Stefan Klumpp

doi:10.1088/1751-8113/48/1/015007

Dynamic Blockage in an Exclusion Process

Mamata Sahoo, Jiajia Dong, Stefan Klumpp

Bucknell University

Research output: Contribution to journal › Article › peer-review

Abstract

We study an asymmetric exclusion model with one dynamic roadblock particle. The roadblock particle is allowed to move diffusively as well as by longrange jumps mimicking an unbinding/rebinding process. Using Monte Carlo simulations and analytical arguments, the two types of roadblock moves are considered both separately and in combination. Several interesting dynamic phenomena are observed. The long-range jumps of the roadblock lead to a current that depends on the number of particles in the system rather than on the particle density, and thus scales linearly with the system size (up to a critical size). This behavior can be explained by a collective motion of all particles following the roadblock. The diffusive roadblock movements on the other hand lead to a ratcheting motion with the active (driven) particles pushing the roadblock forward.

Original language	American English
Journal	Default journal
Volume	48
DOIs	https://doi.org/10.1088/1751-8113/48/1/015007
State	Published - Jan 1 2015

Keywords

exclusion process
transport
molecular motors

Disciplines

Physics
Statistical, Nonlinear, and Soft Matter Physics

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10.1088/1751-8113/48/1/015007License: CC BY

Cite this

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title = "Dynamic Blockage in an Exclusion Process",

abstract = " We study an asymmetric exclusion model with one dynamic roadblock particle. The roadblock particle is allowed to move diffusively as well as by longrange jumps mimicking an unbinding/rebinding process. Using Monte Carlo simulations and analytical arguments, the two types of roadblock moves are considered both separately and in combination. Several interesting dynamic phenomena are observed. The long-range jumps of the roadblock lead to a current that depends on the number of particles in the system rather than on the particle density, and thus scales linearly with the system size (up to a critical size). This behavior can be explained by a collective motion of all particles following the roadblock. The diffusive roadblock movements on the other hand lead to a ratcheting motion with the active (driven) particles pushing the roadblock forward.",

keywords = "exclusion process, transport, molecular motors",

author = "Mamata Sahoo and Jiajia Dong and Stefan Klumpp",

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T1 - Dynamic Blockage in an Exclusion Process

AU - Sahoo, Mamata

AU - Dong, Jiajia

AU - Klumpp, Stefan

PY - 2015/1/1

Y1 - 2015/1/1

N2 - We study an asymmetric exclusion model with one dynamic roadblock particle. The roadblock particle is allowed to move diffusively as well as by longrange jumps mimicking an unbinding/rebinding process. Using Monte Carlo simulations and analytical arguments, the two types of roadblock moves are considered both separately and in combination. Several interesting dynamic phenomena are observed. The long-range jumps of the roadblock lead to a current that depends on the number of particles in the system rather than on the particle density, and thus scales linearly with the system size (up to a critical size). This behavior can be explained by a collective motion of all particles following the roadblock. The diffusive roadblock movements on the other hand lead to a ratcheting motion with the active (driven) particles pushing the roadblock forward.

AB - We study an asymmetric exclusion model with one dynamic roadblock particle. The roadblock particle is allowed to move diffusively as well as by longrange jumps mimicking an unbinding/rebinding process. Using Monte Carlo simulations and analytical arguments, the two types of roadblock moves are considered both separately and in combination. Several interesting dynamic phenomena are observed. The long-range jumps of the roadblock lead to a current that depends on the number of particles in the system rather than on the particle density, and thus scales linearly with the system size (up to a critical size). This behavior can be explained by a collective motion of all particles following the roadblock. The diffusive roadblock movements on the other hand lead to a ratcheting motion with the active (driven) particles pushing the roadblock forward.

KW - exclusion process

KW - transport

KW - molecular motors

UR - https://digitalcommons.bucknell.edu/fac_journ/920

UR - https://digitalcommons.bucknell.edu/fac_journ/942

U2 - 10.1088/1751-8113/48/1/015007

DO - 10.1088/1751-8113/48/1/015007

M3 - Article

VL - 48

JO - Default journal

JF - Default journal

ER -

Dynamic Blockage in an Exclusion Process

Abstract

Keywords

Disciplines

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