2002
DOI: 10.1016/s0006-3495(02)75150-3
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Energy Balance for Analysis of Complex Metabolic Networks

Abstract: Predicting behavior of large-scale biochemical networks represents one of the greatest challenges of bioinformatics and computational biology. Computational tools for predicting fluxes in biochemical networks are applied in the fields of integrated and systems biology, bioinformatics, and genomics, and to aid in drug discovery and identification of potential drug targets. Approaches, such as flux balance analysis (FBA), that account for the known stoichiometry of the reaction network while avoiding implementat… Show more

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Cited by 358 publications
(349 citation statements)
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“…Kinetic constraints [16,17] are conditions under which the reaction establishes stable states. Thermodynamic constraints restrict the direction of the reactions [1,[11][12][13][14][15]. Although thermodynamic and kinetic constraints restrict different aspects of the reaction, they can be closely related.…”
Section: Discussionmentioning
confidence: 99%
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“…Kinetic constraints [16,17] are conditions under which the reaction establishes stable states. Thermodynamic constraints restrict the direction of the reactions [1,[11][12][13][14][15]. Although thermodynamic and kinetic constraints restrict different aspects of the reaction, they can be closely related.…”
Section: Discussionmentioning
confidence: 99%
“…Energy conservation and dissipation in biochemical networks are important aspects for understanding biological functions [1,[11][12][13][14][15]26]. In particular, in nonlinear autonomous and forced reaction systems, thermodynamic efficiency and dissipation have been systematically studied [23][24][25].…”
Section: Discussionmentioning
confidence: 99%
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“…Predictive capability is expected to improve through examining growth behavior across a greater number of environments (additional phenotyping screens will be necessary) and with an increase of integration of additional cellular processes. Genetic perturbations have played a key role in the study of the genotypephenotype relationship in biology and GEMs can be used to mechanistically interpret the results and predict the outcomes of such perturbations.Incorporating thermodynamic information into E. coli GEMs has shown promise in narrowing predictions of allowable physiological states in a given environment 19,40,47,49,52,54,55,57,61 and in identifying reactions likely to be subject to active allosteric or genetic regulation 49,54 . This field is progressing rapidly and should prove to increase the predictive capabilities of genome-scale modeling through the addition of governing thermodynamic physiochemical constrains.…”
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confidence: 99%