About lab
This a model from the article: A kinetic model of the branch-point between the methionine and threonine biosynthesis pathways in Arabidopsis thaliana. It can be used to explore systemsbiology curien2003 metthr synthesis BioModels0000000068 dynamics and compare simulation behavior across conditions.
Runtime
Duration1
Comms Step0.1
Runs
Total0
Completed0
Failed0
Metadata
Packagecurien2003-metthr-synthesis-lab
Created2026-05-17
Updated2026-05-17
systemsbiologysbmlbiomodels_ebifaithfulcuratedvisualisation
Manifest
{
"io": {
"inputs": [
{
"name": "initial_cystathionine_gamma_synthase",
"label": "Initial Cystathionine Gamma Synthase",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.initial_cystathionine_gamma_synthase",
"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `CGS`."
},
{
"name": "initial_cystathionine",
"label": "Initial Cystathionine",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.initial_cystathionine",
"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `Cystathionine`."
},
{
"name": "initial_inorganic_phosphate",
"label": "Initial Inorganic Phosphate",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.initial_inorganic_phosphate",
"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `Phi`."
},
{
"name": "initial_s_adenosylmethionine",
"label": "Initial S Adenosylmethionine",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.initial_s_adenosylmethionine",
"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `AdoMet`."
},
{
"name": "initial_cysteine",
"label": "Initial Cysteine",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.initial_cysteine",
"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `Cys`."
},
{
"name": "initial_threonine_synthase",
"label": "Initial Threonine Synthase",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.initial_threonine_synthase",
"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `TS`."
}
],
"outputs": [
{
"name": "state",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.state"
},
{
"name": "summary",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.summary"
},
{
"name": "species_labels",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.species_labels"
},
{
"name": "cystathionine_gamma_synthase",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.cystathionine_gamma_synthase"
},
{
"name": "cystathionine",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.cystathionine"
},
{
"name": "inorganic_phosphate",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.inorganic_phosphate"
},
{
"name": "s_adenosylmethionine",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.s_adenosylmethionine"
},
{
"name": "cysteine",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.cysteine"
},
{
"name": "threonine_synthase",
"maps_to": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.threonine_synthase"
}
]
},
"tags": [
"systemsbiology",
"sbml",
"biomodels_ebi",
"faithful",
"curated"
],
"title": "Curien2003 Metthr Synthesis Lab",
"models": [
{
"path": "owned/models/systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model",
"alias": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model",
"provenance": {
"owned_path": "owned/models/systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model"
}
},
{
"path": "owned/models/visualisation",
"alias": "visualisation",
"provenance": {
"owned_path": "owned/models/visualisation"
}
}
],
"wiring": [
{
"to": [
"visualisation.systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model_state"
],
"from": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.state"
},
{
"to": [
"visualisation.systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model_summary"
],
"from": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.summary"
},
{
"to": [
"visualisation.systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model_species_labels"
],
"from": "systemsbiology_sbml_curien2003_metthr_synthesis_biomd0000000068_model.species_labels"
}
],
"runtime": {
"duration": 1,
"initial_inputs": {},
"communication_step": 0.1
},
"description": "This a model from the article: A kinetic model of the branch-point between the methionine and threonine biosynthesis pathways in Arabidopsis thaliana. It can be used to explore systemsbiology curien2003 metthr synthesis BioModels0000000068 dynamics and compare simulation behavior across conditions.",
"schema_version": "2.0"
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