Competition between multiple totally asymmetric simple exclusion processes for a finite pool of resources
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Date
2009-09
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Volume Title
Publisher
American Physical Society
Abstract
Using Monte Carlo simulations and a domain-wall theory, we discuss the effect of coupling several totally asymmetric simple exclusion processes (TASEPs) to a finite reservoir of particles. This simple model mimics directed biological transport processes in the presence of finite resources such as protein synthesis limited by a finite pool of ribosomes. If all TASEPs have equal length, we find behavior which is analogous to a single TASEP coupled to a finite pool. For the more generic case of chains with different lengths, several unanticipated regimes emerge. A generalized domain-wall theory captures our findings in good agreement with simulation results.
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Keywords
open boundaries, lattice gases, spectral gap, model, diffusion, fluctuations, dynamics, kinetics, systems, growth, Physics
Citation
Cook, L. Jonathan ; Zia, R. K. P. ; Schmittmann, B., Sep 2009. "Competition between multiple totally asymmetric simple exclusion processes for a finite pool of resources," PHYSICAL REVIEW E 80(3): 031142. DOI: 10.1103/PhysRevE.80.031142