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Volumn , Issue , 2006, Pages
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A bi-level optimisation approach for the productivity and thermodynamic performance of metabolic systems
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Author keywords
FBA; Gibbs free energy minimisation; Metabolism optimisation; Pathway analysis; Thermodynamic analysis
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Indexed keywords
CASE STUDIES;
CATALYZED REACTIONS;
CELLULAR METABOLISMS;
ELEMENTARY FLUX MODES;
ENERGETIC COUPLINGS;
EXTERNAL-;
FBA;
FLUX BALANCE ANALYSIS;
FLUX DISTRIBUTIONS;
GIBBS ENERGIES;
GIBBS FREE ENERGY CHANGES;
INEQUALITY CONSTRAINTS;
INTEGRATED APPROACHES;
ION CONCENTRATIONS;
IONS CONCENTRATIONS;
MATHEMATICAL TOOLS;
MAXIMUM PRODUCTIVITIES;
METABOLIC ENGINEERINGS;
METABOLIC FLUX ANALYSES;
METABOLIC FLUX DISTRIBUTIONS;
METABOLIC NETWORKS;
METABOLIC REACTIONS;
METABOLIC ROUTES;
METABOLIC SYSTEMS;
OPERATING CONDITIONS;
OPTIMAL CONDITIONS;
OPTIMISATION;
PATHWAY ANALYSIS;
PATHWAY IDENTIFICATIONS;
PENTOSE PHOSPHATE PATHWAYS;
SECOND LEVELS;
THERMODYNAMIC ANALYSIS;
THERMODYNAMIC PERFORMANCES;
TRANSPORT PHENOMENONS;
TWO STAGES;
YIELD OF PRODUCTS;
AMINES;
AMINO ACIDS;
BACKPROPAGATION ALGORITHMS;
BIOCHEMISTRY;
BIOMOLECULES;
ENZYMES;
ESCHERICHIA COLI;
FETAL MONITORING;
FREE ENERGY;
INDUSTRIAL MANAGEMENT;
IONS;
METABOLISM;
METABOLITES;
METAL IONS;
ORGANIC ACIDS;
PASSENGER CARS;
THERMOANALYSIS;
THERMODYNAMIC PROPERTIES;
THERMODYNAMICS;
GIBBS FREE ENERGY;
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EID: 80053804743
PISSN: None
EISSN: None
Source Type: Conference Proceeding
DOI: None Document Type: Conference Paper |
Times cited : (1)
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References (9)
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