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Inference and uncertainty quantification of stochastic gene expression via synthetic models

Kaan Öcal, Michael U. Gutmann, Guido Sanguinetti, Ramon Grima

2022Journal of The Royal Society Interface20 citationsDOIOpen Access PDF

Abstract

Abstract Estimating uncertainty in model predictions is a central task in quantitative biology. Biological models at the single-cell level are intrinsically stochastic and nonlinear, creating formidable challenges for their statistical estimation which inevitably has to rely on approximations that trade accuracy for tractability. Despite intensive interest, a sweet spot in this trade-off has not been found yet. We propose a flexible procedure for uncertainty quantification in a wide class of reaction networks describing stochastic gene expression including those with feedback. The method is based on creating a tractable coarse-graining of the model that is learned from simulations, a synthetic model, to approximate the likelihood function. We demonstrate that synthetic models can substantially outperform state-of-the-art approaches on a number of non-trivial systems and datasets, yielding an accurate and computationally viable solution to uncertainty quantification in stochastic models of gene expression.

Topics & Concepts

Computer scienceInferenceStochastic modellingSynthetic biologyExpression (computer science)Uncertainty quantificationSynthetic dataMachine learningArtificial intelligenceMathematicsComputational biologyBiologyStatisticsProgramming languageGene Regulatory Network AnalysisSingle-cell and spatial transcriptomicsBioinformatics and Genomic Networks
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