Transition from Stochastic to Deterministic Behaviour in Calcium Oscillations

doi:10.1529/biophysj.104.057216

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Biophys. J. BioFAST: First Published July 1, 2005. doi:10.1529/biophysj.104.057216
© 2005 by the Biophysical Society.

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	Author home page(s): Ursula Kummer Jürgen Pahle Anne K. Green Marko Marhl


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BIOPHYSICAL THEORY AND MODELING

Transition from Stochastic to Deterministic Behaviour in Calcium Oscillations

Ursula Kummer ¹^*, Borut Krajnc ², Jürgen Pahle ¹, Anne K. Green ³, C. Jane Dixon ⁴ and Marko Marhl ²

¹ EML Research
² University of Maribor
³ University of Warwick
⁴ De Montfort University

^* To whom correspondence should be addressed. E-mail: ursula.kummer{at}eml-r.villa-bosch.de.

Submitted on November 30, 2004
Revised on December 23, 2004
Accepted on 16 June 2005

Abstract
Simulation and modeling is becoming more and more importantwhen studying complex biochemical systems. Most often, ordinarydifferential equations (ODEs) are employed for this purpose.However, these are only applicable when the numbers of participatingmolecules in the biochemical systems are large enough to betreated as concentrations. For smaller systems stochastic simulationson discrete particle basis are more accurate. Unfortunately,there are no general rules for determining which method shouldbe employed for exactly which problem in order to get the mostrealistic result. Therefore, we study the transition from stochasticto deterministic behavior in a widely studied system, namelythe signal transduction via calcium, especially calcium oscillations.We observe that the transition occurs within a range of particlenumbers, which roughly corresponds to the number of receptorsand channels in the cell, and depends heavily on the attractiveproperties of the phase space of the respective systems dynamics.We conclude that the attractive properties of a system, expressede.g. by the divergence of the system, are a good measure fordetermining which simulation algorithm is appropriate in termsof speed and realism.

Key Words: bursting oscillations, calcium oscillations, deterministic simulations, stochastic simulations

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