Heat shock response in CHO mammalian cells is controlled by a nonlinear stochastic process.

Date

2007-10-30

Authors

Lipan, Ovidiu
Navenot, Jean-Marc
Wang, Zixuan
Huang, Lei
Peiper, Stephen C

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Abstract

In many biological systems, the interactions that describe the coupling between different units in a genetic network are nonlinear and stochastic. We study the interplay between stochasticity and nonlinearity using the responses of Chinese hamster ovary (CHO) mammalian cells to different temperature shocks. The experimental data show that the mean value response of a cell population can be described by a mathematical expression (empirical law) which is valid for a large range of heat shock conditions. A nonlinear stochastic theoretical model was developed that explains the empirical law for the mean response. Moreover, the theoretical model predicts a specific biological probability distribution of responses for a cell population. The prediction was experimentally confirmed by measurements at the single-cell level. The computational approach can be used to study other nonlinear stochastic biological phenomena.

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Citation

PLoS Comput Biol. 2007 Oct 5; 3(10):e187