About lab
Karapetyan2016 - Genetic oscillatory network - Repressor Titration Circuit (RTC) This model is described in the article: Role of DNA binding sites and slow unbinding kinetics in titration-based oscill. It can be used to explore systemsbiology karapetyan2016 genetic oscillatory network repre dynamics and compare simulation behavior across conditions.
Runtime
Duration1
Comms Step0.1
Runs
Total0
Completed0
Failed0
Metadata
Packagekarapetyan2016-genetic-oscillatory-network-repressor-titration-c
Created2026-05-17
Updated2026-05-17
generegulationsystemsbiologysbmlbiomodels_ebifaithfulcuratedvisualisation
Manifest
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"description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `rR`."
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{
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},
{
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},
{
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},
{
"name": "initial_model_state_r2",
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{
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{
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]
},
"tags": [
"generegulation",
"systemsbiology",
"sbml",
"biomodels_ebi",
"faithful",
"curated"
],
"title": "Karapetyan2016 Genetic Oscillatory Network Repressor Titration Circuit Lab",
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"description": "Karapetyan2016 - Genetic oscillatory network - Repressor Titration Circuit (RTC) This model is described in the article: Role of DNA binding sites and slow unbinding kinetics in titration-based oscill. It can be used to explore systemsbiology karapetyan2016 genetic oscillatory network repre dynamics and compare simulation behavior across conditions.",
"schema_version": "2.0"
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