Title :
[Non]-deterministic dynamics in cells: From multistability to stochastic switching
Author_Institution :
Dept. of Math., West Virginia Univ., Morgantown, WV, USA
Abstract :
I will discuss the interplay between ¿traditional¿ deterministic dynamics and stochastic effects in live cells. The main example the lac operon, a set of self-promoting genes, which, together with the enzymes they express, act as a hysteretic switch. Stochastic simulations of the same system predict spontaneous, random switching by individual cells. This behavior can be well described by a simple abstraction. In a broader context, we review a few examples where stochasticity leads to useful and quantifiable behavior that amounts to a hedging strategy on the level of a population of cells. Finally, we describe stochastic simulations of systems with spatial structure, a field with applications from cancer to swarm robotics.
Keywords :
bioinformatics; cellular biophysics; enzymes; genetics; stochastic processes; cancer; enzymes; hysteretic switch; living cells; multistability; nondeterministic dynamics; self-promoting genes; stochastic switching; swarm robotics; Biochemistry; Biological system modeling; Computer simulation; Equations; Kinetic theory; Power system modeling; Predictive models; Stochastic processes; Stochastic systems; Switches; gene networks; signaling; stochastic simulations;
Conference_Titel :
Information Theory Workshop, 2009. ITW 2009. IEEE
Conference_Location :
Taormina
Print_ISBN :
978-1-4244-4982-8
Electronic_ISBN :
978-1-4244-4983-5
DOI :
10.1109/ITW.2009.5351507
