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Article Dans Une Revue PLoS Computational Biology Année : 2016

What population reveals about individual cell identity: Single-cell parameter estimation of models of gene expression in yeast

Résumé

Significant cell-to-cell heterogeneity is ubiquitously observed in isogenic cell populations. Consequently, parameters of models of intracellular processes, usually fitted to population-averaged data, should rather be fitted to individual cells to obtain a population of models of similar but non-identical individuals. Here, we propose a quantitative modeling framework that attributes specific parameter values to single cells for a standard model of gene expression. We combine high quality single-cell measurements of the response of yeast cells to repeated hyperosmotic shocks and state-of-the-art statistical inference approaches for mixed-effects models to infer multidimensional parameter distributions describing the population, and then derive specific parameters for individual cells. The analysis of single-cell parameters shows that single-cell identity (e.g. gene expression dynamics, cell size, growth rate, mother-daughter relationships) is, at least partially, captured by the parameter values of gene expression models (e.g. rates of transcription, translation and degradation). Our approach shows how to use the rich information contained into longitudinal single-cell data to infer parameters that can faithfully represent single-cell identity.

Dates et versions

hal-01248298 , version 1 (24-12-2015)

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Citer

Artémis Llamosi, Andres Gonzalez, Cristian Versari, Eugenio Cinquemani, Giancarlo Ferrari-Trecate, et al.. What population reveals about individual cell identity: Single-cell parameter estimation of models of gene expression in yeast. PLoS Computational Biology, 2016, 12 (2), pp.e1004706. ⟨10.1371/journal.pcbi.1004706⟩. ⟨hal-01248298⟩
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