System size expansion using Feynman rules and diagrams

P. Thomas, C. Fleck, R. Grima, N. Popovic

Research output: Contribution to journalArticleAcademicpeer-review

8 Citations (Scopus)

Abstract

Few analytical methods exist for quantitative studies of large fluctuations in stochastic systems. In this article, we develop a simple diagrammatic approach to the chemical master equation that allows us to calculate multi-time correlation functions which are accurate to any desired order in van Kampen's system size expansion. Specifically, we present a set of Feynman rules from which this diagrammatic perturbation expansion can be constructed algorithmically. We then apply the methodology to derive in closed form the leading order corrections to the linear noise approximation of the intrinsic noise power spectrum for general biochemical reaction networks. Finally, we illustrate our results by describing noise-induced oscillations in the Brusselator reaction scheme which are not captured by the common linear noise approximation.
Original languageEnglish
Article number455007
JournalJournal of Physics. A, Mathematical and Theoretical
Volume47
Issue number45
DOIs
Publication statusPublished - 2014

Keywords

  • linear noise approximation
  • stochastic gene-expression
  • birth-death processes
  • poisson representation
  • master equation
  • fluctuations
  • oscillations
  • networks

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