About lab
This a model from the article: The control systems structures of energy metabolism. It can be used to explore metabolic flux dynamics and compare pathway behavior across conditions.
Runtime
Duration10
Comms Step1
Runs
Total0
Completed0
Failed0
Metadata
Packagecloutier2009-energymetabolism-modeld-lab
Created2026-05-15
Updated2026-05-15
biomodels_ebifaithfulmetabolismodesbmltelluriumvisualisation
Manifest
{
"io": {
"inputs": [
{
"name": "initial_fructose_6_phosphate",
"units": "native SBML value",
"default": 0.2,
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.initial_fructose_6_phosphate",
"description": "Initial condition for fructose 6 phosphate. Maps to bundled SBML symbol `F6P`. Applied before the Tellurium simulation starts; this does not change kinetic parameters or equations. Default from bundled SBML initial value."
},
{
"name": "initial_fructose_2_6_bisphosphate",
"units": "native SBML value",
"default": 0.001,
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.initial_fructose_2_6_bisphosphate",
"description": "Initial condition for fructose 2 6 bisphosphate. Maps to bundled SBML symbol `F26P`. Applied before the Tellurium simulation starts; this does not change kinetic parameters or equations. Default from bundled SBML initial value."
},
{
"name": "initial_glyceraldehyde_3_phosphate",
"units": "native SBML value",
"default": 0.0405,
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.initial_glyceraldehyde_3_phosphate",
"description": "Initial condition for glyceraldehyde 3 phosphate. Maps to bundled SBML symbol `GAP`. Applied before the Tellurium simulation starts; this does not change kinetic parameters or equations. Default from bundled SBML initial value."
},
{
"name": "initial_pyruvate",
"units": "native SBML value",
"default": 0.1,
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.initial_pyruvate",
"description": "Initial condition for pyruvate. Maps to bundled SBML symbol `PYR`. Applied before the Tellurium simulation starts; this does not change kinetic parameters or equations. Default from bundled SBML initial value."
},
{
"name": "initial_lactate",
"units": "native SBML value",
"default": 0.5,
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.initial_lactate",
"description": "Initial condition for lactate. Maps to bundled SBML symbol `LAC`. Applied before the Tellurium simulation starts; this does not change kinetic parameters or equations. Default from bundled SBML initial value."
}
],
"outputs": [
{
"name": "fructose_6_phosphate",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.fructose_6_phosphate"
},
{
"name": "fructose_2_6_bisphosphate",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.fructose_2_6_bisphosphate"
},
{
"name": "glyceraldehyde_3_phosphate",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.glyceraldehyde_3_phosphate"
},
{
"name": "pyruvate",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.pyruvate"
},
{
"name": "lactate",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.lactate"
},
{
"name": "observable_values",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.observable_values"
},
{
"name": "run_summary",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.run_summary"
},
{
"name": "observable_labels",
"maps_to": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.observable_labels"
}
]
},
"title": "Cloutier2009_EnergyMetabolism_ModelD Lab",
"models": [
{
"path": "owned/models/metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model",
"alias": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model",
"parameters": {
"model_path": "data/MODEL1006230095.xml",
"integration_step": 0.1
},
"provenance": {
"owned_path": "owned/models/metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model"
}
},
{
"path": "owned/models/visualisation",
"alias": "visualisation",
"provenance": {
"owned_path": "owned/models/visualisation"
}
}
],
"wiring": [
{
"to": [
"visualisation.metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model_observable_values"
],
"from": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.observable_values"
},
{
"to": [
"visualisation.metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model_run_summary"
],
"from": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.run_summary"
},
{
"to": [
"visualisation.metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model_observable_labels"
],
"from": "metabolism_sbml_cloutier2009_energymetabolism_modeld_model1006230095_model.observable_labels"
}
],
"runtime": {
"duration": 10,
"initial_inputs": {},
"communication_step": 1
},
"description": "This a model from the article: The control systems structures of energy metabolism. It can be used to explore metabolic flux dynamics and compare pathway behavior across conditions.",
"schema_version": "2.0"
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