Scaling of gene expression with transcription-factor fugacity
Publication date
2014-12-19
Authors
Weinert, Franz M
Brewster, Robert C
Rydenfelt, Mattias
Phillips, Rob
Kegel, Willem K.
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Abstract
The proteins associated with gene regulation are often shared between multiple pathways simultaneously. By way of contrast, models in regulatory biology often assume these pathways act independently. We demonstrate a framework for calculating the change in gene expression for the interacting case by decoupling repressor occupancy across the cell from the gene of interest by way of a chemical potential. The details of the interacting regulatory architecture are encompassed in an effective concentration, and thus, a single scaling function describes a collection of gene expression data from diverse regulatory situations and collapses it onto a single master curve.
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Weinert, F M, Brewster, R C, Rydenfelt, M, Phillips, R & Kegel, W K 2014, 'Scaling of gene expression with transcription-factor fugacity', Physical Review Letters, vol. 113, no. 25, pp. 258101. https://doi.org/10.1103/PhysRevLett.113.258101