Rule-based modeling of transcriptional attenuation at the tryptophan operon

Author

Kuttler, Céline ; Houssaine, Cédric L. ; Nebut, Mirabelle

Author_Institution

Univ. of Lille 1, Villeneuve-d´´Ascq, France

fYear

2009

fDate

13-16 Dec. 2009

Firstpage

920

Lastpage

931

Abstract

Transcriptional attenuation at Ecoli´s tryptophan operon is a prime example of RNA-mediated gene regulation. In this paper, we present a discrete stochastic model of the fine-grained control of attenuation, based on chemical reactions. Stochastic simulation of our model confirms results that were previously obtained by master or differential equations. Our approach is easier to understand than master equations, although mathematically well founded. It is compact due to rule schemas that define finite sets of chemical reactions. Moreover, our model makes intense use of reaction rules with more than two reactants. As we show, such n-ary rules are essential to concisely capture the control of attenuation. Our model could not adequately be represented in object-centered modeling languages based on the pi-calculus, because these are limited to binary interactions.

Keywords

bioinformatics; chemical reactions; differential equations; knowledge based systems; macromolecules; stochastic processes; RNA-mediated gene regulation; chemical reactions; differential equations; discrete stochastic model; ecoli tryptophan operon; fine-grained control; n-ary rules; object-centered modeling languages; pi-calculus; rule-based modeling; stochastic simulation; transcriptional attenuation; Amino acids; Attenuation; Biological system modeling; Chemicals; Differential equations; Gene expression; Microorganisms; Stochastic processes; Stochastic resonance; Stochastic systems;

fLanguage

English

Publisher

ieee

Conference_Titel

Simulation Conference (WSC), Proceedings of the 2009 Winter

Conference_Location

Austin, TX

Print_ISBN

978-1-4244-5770-0

Type

conf

DOI

10.1109/WSC.2009.5429721

Filename

5429721