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13 Data files visible to you, out of a total of 13

The solution of Flux Balance Analysis (FBA) represents metabolic flux distribution in ZucAt model under light growth conditions. In this solution, (i) the ratio photorespiration / photosynthesis has been fixed to 0.25; and (ii) cyclic electron flow through FQR (ferredoxin-plastoquinone reductase) has been set 0.1 from non-cyclic flow through FRN (ferredoxin-NADP oxidoreductase). Under this constraints, ATP formed by non-cyclic photophosphorylation is not sufficient to fulfill ATP/NADPH ratio for ...

The solution of Flux Balance Analysis (FBA) represents metabolic flux distribution in the model under light growth conditions. In this solution, (i) the photorespiration was set to 0; and (ii) cyclic electron flow through FQR (ferredoxin-plastoquinone reductase) has been set of 0.1 of flow through FRN (ferredoxin-NADP oxidoreductase). Under this constraints, ATP is under-produced in plastid and therefore is additionally imported to cytoplasm. Flux through FQR represents cyclic electron flow through ...

The solution of Flux Balance Analysis (FBA) represents metabolic flux distribution in ZucAt model under light growth conditions. In this solution, (i) the ratio photorespiration / photosynthesis has been fixed to 0.25; and (ii) cyclic electron flow through FQR (ferredoxin-plastoquinone reductase) has been set 0.5 from non-cyclic flow through FRN (ferredoxin-NADP oxidoreductase). Under this constraints, ATP is over-produced in plastid and a surplus is exported to cytoplasm. Flux through FQR ...

The solution of Flux Balance Analysis (FBA) represents metabolic flux distribution in ZucAt model under light growth conditions. In this solution, (i) the ratio photorespiration / photosynthesis has been fixed to 0.25; (ii) and ATP transport between plastid and cytoplasm has been set to 0. The last constraint allows finding the ratio between fluxes through FQR (ferredoxin-plastoquinone reductase) and FRN (ferredoxin-NADP oxidoreductase) under which the ATP balance in plastid becomes self-sufficient ...

The solution of Flux Balance Analysis (FBA) represents metabolic flux distribution in ZucAt model under light growth conditions. In this solution, (i) the ratio photorespiration / photosynthesis has been fixed to 0.25; (ii) and cyclic electron flow through FQR (ferredoxin-plastoquinone reductase) has been set to 0. Under this constraints, ATP formed by non-cyclic photophosphorylation is not sufficient to fulfill ATP/NADPH ratio for carbon fixation, therefore plastid imports ATP from cytoplasm.

The solution of Flux Balance Analysis (FBA) represent metabolic flux distribution in the model under dark growth conditions (i.e. constraints)

The database in ASCII format includes information on compounds and metabolites (trivial name, elemental composition, charge, external database referece, etc) used in the model

The database in ASCII format includes information on gene (gene models in ATG format, gene definition, catalyzed reactions in the model, external database refeneces, locus information, etc) used in the model

The database in ASCII format includes information on transformers [reactions, transport steps, polymerizations] (model's identifier, trivial name, EC number, stoichiometric equation, external database referece, activators, belonging to a pathway, etc) used in the model

The stoichiometric matrix of the multi-compartment metabolic model of growing Arabidopsis thaliana

The ASCII file includes complete information on used transformers / compounds / genes and their inter-connection in the model. The Transformer information includes: Identifier name, Trivial name, Stoichiometric equation, Compartment, EC number, Pathway, Associated genes). The Compound information includes: Identifier name, Trivial name, Kegg ID, Compartment. The Gene information includes: ATG code of the genes whose products participate in transformations accounted in the model, Association with ...

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