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Extending the dynamic range of transcription factor action by translational regulation

Author(s): Sokolowski, Thomas R; Walczak, Aleksandra M; Bialek, William; Tkačik, Gašper

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Abstract: A crucial step in the regulation of gene expression is binding of transcription factor (TF) proteins to regulatory sites along the DNA. But transcription factors act at nanomolar concentrations, and noise due to random arrival of these molecules at their binding sites can severely limit the precision of regulation. Recent work on the optimization of information flow through regulatory networks indicates that the lower end of the dynamic range of concentrations is simply inaccessible, overwhelmed by the impact of this noise. Motivated by the behavior of homeodomain proteins, such as the maternal morphogen Bicoid in the fruit fly embryo, we suggest a scheme in which transcription factors also act as indirect translational regulators, binding to the mRNA of other regulatory proteins. Intuitively, each mRNA molecule acts as an independent sensor of the input concentration, and averaging over these multiple sensors reduces the noise. We analyze information flow through this scheme and identify conditions under which it outperforms direct transcriptional regulation. Our results suggest that the dual role of homeodomain proteins is not just a historical accident, but a solution to a crucial physics problem in the regulation of gene expression.
Publication Date: Feb-2016
Electronic Publication Date: 4-Feb-2016
Citation: Sokolowski, Thomas R, Walczak, Aleksandra M, Bialek, William, Tkačik, Gašper. (2016). Extending the dynamic range of transcription factor action by translational regulation. Physical Review E, 93 (2), 10.1103/PhysRevE.93.022404
DOI: doi:10.1103/PhysRevE.93.022404
ISSN: 2470-0045
EISSN: 2470-0053
Pages: 022404-1 - 022404-14
Type of Material: Journal Article
Journal/Proceeding Title: Physical Review E
Version: Author's manuscript



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