Cardinality optimization in constraint-based modelling: application to human metabolism
In: Bioinformatics, 2023
academicJournal
Zugriff:
MOTIVATION: Several applications in constraint-based modelling can be mathematically formulated as cardinality optimization problems involving the minimization or maximization of the number of nonzeros in a vector. These problems include testing for stoichiometric consistency, testing for flux consistency, testing for thermodynamic flux consistency, computing sparse solutions to flux balance analysis problems and computing the minimum number of constraints to relax to render an infeasible flux balance analysis problem feasible. Such cardinality optimization problems are computationally complex, with no known polynomial time algorithms capable of returning an exact and globally optimal solution. RESULTS: By approximating the zero-norm with nonconvex continuous functions, we reformulate a set of cardinality optimization problems in constraint-based modelling into a difference of convex functions. We implemented and numerically tested novel algorithms that approximately solve the reformulated problems using a sequence of convex programs. We applied these algorithms to various biochemical networks and demonstrate that our algorithms match or outperform existing related approaches. In particular, we illustrate the efficiency and practical utility of our algorithms for cardinality optimization problems that arise when extracting a model ready for thermodynamic flux balance analysis given a human metabolic reconstruction. AVAILABILITY AND IMPLEMENTATION: Open source scripts to reproduce the results are here https://github.com/opencobra/COBRA.papers/2023_cardOpt with general purpose functions integrated within the COnstraint-Based Reconstruction and Analysis toolbox: https://github.com/opencobra/cobratoolbox.
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Cardinality optimization in constraint-based modelling: application to human metabolism
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Autor/in / Beteiligte Person: | Fleming, Ronan M T ; Haraldsdottir, Hulda S ; Minh, Le Hoai ; Vuong, Phan Tu ; Hankemeier, Thomas ; Thiele, Ines |
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Zeitschrift: | Bioinformatics, 2023 |
Veröffentlichung: | Oxford University Press, 2023 |
Medientyp: | academicJournal |
DOI: | 10.1093/bioinformatics/btad450 |
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