L. Jonathan Cook scite author profile

We revisit a totally asymmetric simple exclusion process (TASEP) with open boundaries and a global constraint on the total number of particles [Adams, et. al. 2008 J. Stat. Mech. P06009]. In this model, the entry rate of particles into the lattice depends on the number available in the reservoir. Thus, the total occupation on the lattice feeds back into its filling process. Although a simple domain wall theory provided reasonably good predictions for Monte Carlo simulation results for certain quantities, it did not account for the fluctuations of this feedback. We generalize the previous study and find dramatically improved predictions for, e.g., the density profile on the lattice and provide a better understanding of the phenomenon of "shock localization."

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Competition between multiple totally asymmetric simple exclusion processes for a finite pool of resources

Cook

Zia

Schmittmann

2009

Phys. Rev. E

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Using Monte Carlo simulations and a domain-wall theory, we discuss the effect of coupling several totally asymmetric simple exclusion processes ͑TASEPs͒ 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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Power spectra of a constrained totally asymmetric simple exclusion process

Cook¹,

Zia²

2010

J. Stat. Mech.

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To synthesize proteins in a cell, an mRNA has to work with a finite pool of ribosomes. When this constraint is included in the modeling by a totally asymmetric simple exclusion process (TASEP), non-trivial consequences emerge. Here, we consider its effects on the power spectrum of the total occupancy, through Monte Carlo simulations and analytical methods. New features, such as dramatic suppressions at low frequencies, are discovered. We formulate a theory based on a linearized Langevin equation with discrete space and time. The good agreement between its predictions and simulation results provides some insight into the effects of finite resoures on a TASEP.

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A Collaborative Vision: Partnering with STEM Faculty to Teach Visual Literacy Through Multimedia Research Presentations

Cook

Teaff

Cook

2015

Internet Reference Services Quarterly

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Power spectra of TASEPs with a localized slow site

Cook¹,

Dong²

2010

J. Stat. Mech.

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The totally asymmetric simple exclusion process (TASEP) with a localized defect is revisited in this article with attention paid to the power spectra of the particle occupancy N (t). Intrigued by the oscillatory behaviors in the power spectra of an ordinary TASEP in high/low density phase(HD/LD) observed by Adams et al. (2007 Phys. Rev. Lett. 99 020601), we introduce a single slow site with hopping rate q < 1 to the system. As the power spectrum contains time-correlation information of the particle occupancy of the system, we are particularly interested in how the defect affects fluctuation in particle number of the left and right subsystems as well as that of the entire system. Exploiting Monte Carlo simulations, we observe the disappearance of oscillations when the defect is located at the center of the system. When the defect is off center, oscillations are restored. To explore the origin of such phenomenon, we use a linearized Langevin equation to calculate the power spectrum for the sublattices and the whole lattice. We provide insights into the interactions between the sublattices coupled through the defect site for both simulation and analytical results.

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L. Jonathan Cook

Feedback and fluctuations in a totally asymmetric simple exclusion process with finite resources

Competition between multiple totally asymmetric simple exclusion processes for a finite pool of resources

Power spectra of a constrained totally asymmetric simple exclusion process

A Collaborative Vision: Partnering with STEM Faculty to Teach Visual Literacy Through Multimedia Research Presentations

Power spectra of TASEPs with a localized slow site

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