Quantitative Understanding of Probabilistic Behavior of Living Cells Operated by Vibrant Intracellular Networks
Author(s)
Lim, Yu Rim; Kim, Ji-Hyun; Park, Seong Jun; Yang, Gil-Suk; Song, Sanggeun; Chang, Suk-Kyu; Lee, Nam Ki; Sung, Jaeyoung; ... Show more Show less
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For quantitative understanding of probabilistic behaviors of living cells, it is essential to construct a correct mathematical description of intracellular networks interacting with complex cell environments, which has been a formidable task. Here, we present a novel model and stochastic kinetics for an intracellular network interacting with hidden cell environments, employing a complete description of cell state dynamics and its coupling to the system network. Our analysis reveals that various environmental effects on the product number fluctuation of intracellular reaction networks can be collectively characterized by Laplace transform of the time-correlation function of the product creation rate fluctuation with the Laplace variable being the product decay rate. On the basis of the latter result, we propose an efficient method for quantitative analysis of the chemical fluctuation produced by intracellular networks coupled to hidden cell environments. By applying the present approach to the gene expression network, we obtain simple analytic results for the gene expression variability and the environment-induced correlations between the expression levels of mutually noninteracting genes. The theoretical results compose a unified framework for quantitative understanding of various gene expression statistics observed across a number of different systems with a small number of adjustable parameters with clear physical meanings.
Date issued
2015-08Department
Massachusetts Institute of Technology. Department of ChemistryJournal
Physical Review X
Publisher
American Physical Society
Citation
Lim, Yu Rim, Ji-Hyun Kim, Seong Jun Park, Gil-Suk Yang, Sanggeun Song, Suk-Kyu Chang, Nam Ki Lee, and Jaeyoung Sung. "Quantitative Understanding of Probabilistic Behavior of Living Cells Operated by Vibrant Intracellular Networks." Phys. Rev. X 5, 031014 (August 2015).
Version: Final published version
ISSN
2160-3308