Litcius/Paper detail

Control-Based Continuation: A New Approach to Prototype Synthetic Gene Networks

Irene de Cesare, Davide Salzano, Mario di Bernardo, Ludovic Renson, Lucia Marucci

2022ACS Synthetic Biology18 citationsDOIOpen Access PDF

Abstract

Control-Based Continuation (CBC) is a general and systematic method to carry out the bifurcation analysis of physical experiments. CBC does not rely on a mathematical model and thus overcomes the uncertainty introduced when identifying bifurcation curves indirectly through modeling and parameter estimation. We demonstrate, in silico, CBC applicability to biochemical processes by tracking the equilibrium curve of a toggle switch, which includes additive process noise and exhibits bistability. We compare the results obtained when CBC uses a model-free and model-based control strategy and show that both can track stable and unstable solutions, revealing bistability. We then demonstrate CBC in conditions more representative of an in vivo experiment using an agent-based simulator describing cell growth and division, cell-to-cell variability, spatial distribution, and diffusion of chemicals. We further show how the identified curves can be used for parameter estimation and discuss how CBC can significantly accelerate the prototyping of synthetic gene regulatory networks.

Topics & Concepts

BistabilityBifurcationContinuationComputer scienceGene regulatory networkProcess (computing)Noise (video)Synthetic biologyIn silicoBiological systemControl theory (sociology)MathematicsMathematical optimizationControl (management)BioinformaticsArtificial intelligenceBiologyNonlinear systemGeneGene expressionQuantum mechanicsImage (mathematics)BiochemistryOperating systemPhysicsProgramming languageGene Regulatory Network AnalysisViral Infectious Diseases and Gene Expression in InsectsEvolution and Genetic Dynamics