About lab
Single-model lab wrapper for Tsai2014 - Cell cycle duration control by oscillatory Dynamics in Early Xenopus laevis Embryos. During the early development of Xenopus laevis embryos, the first mitotic cell cycle is long (\u223c85 min) and the subsequent 11 cycles are short (\u223c30 min) and clock-like. It can be used to explore cell-cycle regulation dynamics and compare checkpoint behavior across conditions.
Runtime
Duration10
Comms Step1
Runs
Total0
Completed0
Failed0
Metadata
Packagetsai2014-cell-cycle-duration-control-by-oscillatory-dynamics-in
Created2026-05-15
Updated2026-05-15
cellcyclesbmlbiomodels_ebifaithfulvisualisation
Manifest
{
"io": {
"inputs": [
{
"name": "plx1_total",
"label": "Plx1 Total",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.plx1_total",
"description": "Controls Plx1 Total in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.plx1_total`."
},
{
"name": "cyclin_b1_cdk1_complex_total",
"label": "Cyclin B1 CDK1 Complex Total",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.cyclin_b1_cdk1_complex_total",
"description": "Controls Cyclin B1 CDK1 Complex Total in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.cyclin_b1_cdk1_complex_total`."
}
],
"outputs": [
{
"name": "cyclin_b1_cdk1_complex_phosphorylated",
"label": "Cyclin B1 CDK1 Complex Phosphorylated",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.cyclin_b1_cdk1_complex_phosphorylated",
"description": "Tracks Cyclin B1 CDK1 Complex Phosphorylated in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.cyclin_b1_cdk1_complex_phosphorylated`."
},
{
"name": "cyclin_b1_cdk1_complex_unphosphorylated",
"label": "Cyclin B1 CDK1 Complex Unphosphorylated",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.cyclin_b1_cdk1_complex_unphosphorylated",
"description": "Tracks Cyclin B1 CDK1 Complex Unphosphorylated in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.cyclin_b1_cdk1_complex_unphosphorylated`."
},
{
"name": "plx1_active",
"label": "Plx1 Active",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.plx1_active",
"description": "Tracks Plx1 Active in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.plx1_active`."
},
{
"name": "apc_c_c_model_state_c_active",
"label": "APC/C/C Model state C Active",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.apc_c_c_model_state_c_active",
"description": "Tracks APC/C/C Model state C Active in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.apc_c_c_model_state_c_active`."
},
{
"name": "apc_c_c_model_state_c_total",
"label": "APC/C/C Model state C Total",
"maps_to": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.apc_c_c_model_state_c_total",
"description": "Tracks APC/C/C Model state C Total in the lab model via `cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.apc_c_c_model_state_c_total`."
}
]
},
"title": "Tsai2014 - Cell cycle duration control by oscillatory Dynamics in Early Xenopus laevis Embryos Lab",
"models": [
{
"path": "owned/models/cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model",
"alias": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model",
"provenance": {
"owned_path": "owned/models/cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model"
}
},
{
"path": "owned/models/visualisation",
"alias": "visualisation",
"provenance": {
"owned_path": "owned/models/visualisation"
}
}
],
"wiring": [
{
"to": [
"visualisation.cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model_state"
],
"from": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.state"
},
{
"to": [
"visualisation.cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model_summary"
],
"from": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.summary"
},
{
"to": [
"visualisation.cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model_species_labels"
],
"from": "cellcycle_sbml_tsai2014_cell_cycle_duration_control_by_oscillat_biomd0000000719_model.species_labels"
}
],
"runtime": {
"duration": 10,
"initial_inputs": {},
"communication_step": 1
},
"description": "Single-model lab wrapper for Tsai2014 - Cell cycle duration control by oscillatory Dynamics in Early Xenopus laevis Embryos. During the early development of Xenopus laevis embryos, the first mitotic cell cycle is long (\\u223c85 min) and the subsequent 11 cycles are short (\\u223c30 min) and clock-like. It can be used to explore cell-cycle regulation dynamics and compare checkpoint behavior across conditions.",
"schema_version": "2.0"
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