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Analyzing and Resolving Infeasibility in Flux Balance Analysis of Metabolic Networks

Steffen Klamt, Axel von Kamp

2022Metabolites11 citationsDOIOpen Access PDF

Abstract

Flux balance analysis (FBA) is a key method for the constraint-based analysis of metabolic networks. A technical problem may occur in FBA when known (e.g., measured) fluxes of certain reactions are integrated into an FBA scenario rendering the underlying linear program (LP) infeasible, for example, due to inconsistencies between some of the measured fluxes causing a violation of the steady-state or other constraints. Here, we present and compare two methods, one based on an LP and one on a quadratic program (QP), to find minimal corrections for the given flux values so that the FBA problem becomes feasible. We provide a general guide on how to treat infeasible FBA systems in practice and discuss relevant examples of potentially infeasible scenarios in core and genome-scale metabolic models. Finally, we also highlight and clarify the relationships to classical metabolic flux analysis, where solely algebraic approaches are used to compute unknown metabolic rates from measured fluxes and to balance infeasible flux scenarios.

Topics & Concepts

Flux balance analysisFlux (metallurgy)Computer scienceConstraint (computer-aided design)Quadratic equationMathematical optimizationAlgebraic numberMetabolic networkLinear programmingApplied mathematicsMathematicsBioinformaticsChemistryMathematical analysisBiologyGeometryOrganic chemistryMicrobial Metabolic Engineering and BioproductionProcess Optimization and IntegrationBiofuel production and bioconversion
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