Rule-based modelling and simulation of biochemical systems with molecular finite automata

Author

Yang, Jian ; Meng, Xi ; Hlavacek, W.S.

Author_Institution

Max Plank Soc. Partner Inst. for Comput. Biol., Chinese Acad. of Sci., Shanghai, China

Volume

4

Issue

6

fYear

2010

fDate

11/1/2010 12:00:00 AM

Firstpage

453

Lastpage

466

Abstract

The authors propose a theoretical formalism, molecular finite automata (MFA), to describe individual proteins as rule-based computing machines. The MFA formalism provides a framework for modelling individual protein behaviours and systems-level dynamics via construction of programmable and executable machines. Models specified within this formalism explicitly represent the context-sensitive dynamics of individual proteins driven by external inputs and represent protein-protein interactions as synchronised machine reconfigurations. Both deterministic and stochastic simulations can be applied to quantitatively compute the dynamics of MFA models. They apply the MFA formalism to model and simulate a simple example of a signal-transduction system that involves an MAP kinase cascade and a scaffold protein.

Keywords

biochemistry; biological techniques; biology computing; molecular biophysics; proteins; stochastic processes; biochemical systems; individual proteins; molecular finite automata; protein-protein interactions; rule-based computing machines; rule-based modelling; rule-based simulation; scaffold protein; signal-transduction system; stochastic simulations; synchronised machine reconfigurations; systems-level dynamics;

fLanguage

English

Journal_Title

Systems Biology, IET

Publisher

iet

ISSN

1751-8849

Type

jour

DOI

10.1049/iet-syb.2010.0015

Filename

5638198