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Li2021 Micrornas Noncanonical Feedback Lab

About lab

(I am not the first author of the paper who contributed to the experimental data, I did the modeling)Bistable switches and oscillators have long been considered key mechanisms underlying cell fate dec. It can be used to explore systemsbiology li2021 micrornas noncanonical feedback model2301180001 dynamics and compare simulation behavior across conditions.

Runtime

Duration1
Comms Step0.1

Runs

Total0
Completed0
Failed0

Metadata

Packageli2021-micrornas-noncanonical-feedback-lab
Created2026-05-17
Updated2026-05-17
generegulationsystemsbiologysbmlbiomodels_ebifaithfulcuratedvisualisation

Manifest

{
  "io": {
    "inputs": [
      {
        "name": "initial_model_state_c2",
        "label": "Initial Model State C2",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.initial_model_state_c2",
        "description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `c2`."
      },
      {
        "name": "initial_model_state_c1",
        "label": "Initial Model State C1",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.initial_model_state_c1",
        "description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `c1`."
      },
      {
        "name": "initial_model_state_r",
        "label": "Initial Model State R",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.initial_model_state_r",
        "description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `r`."
      },
      {
        "name": "initial_model_state_r_2",
        "label": "Initial Model State R 2",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.initial_model_state_r_2",
        "description": "Source state initial condition exposed as a model-specific control because no explicit intervention parameter is identifiable. Maps to SBML symbol `R`."
      }
    ],
    "outputs": [
      {
        "name": "state",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.state"
      },
      {
        "name": "summary",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.summary"
      },
      {
        "name": "species_labels",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.species_labels"
      },
      {
        "name": "model_state_c2",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.model_state_c2"
      },
      {
        "name": "model_state_c1",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.model_state_c1"
      },
      {
        "name": "model_state_r",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.model_state_r"
      },
      {
        "name": "model_state_r_2",
        "maps_to": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.model_state_r_2"
      }
    ]
  },
  "tags": [
    "generegulation",
    "systemsbiology",
    "sbml",
    "biomodels_ebi",
    "faithful",
    "curated"
  ],
  "title": "Li2021 Micrornas Noncanonical Feedback Lab",
  "models": [
    {
      "path": "owned/models/systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model",
      "alias": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model",
      "provenance": {
        "owned_path": "owned/models/systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model"
      }
    },
    {
      "path": "owned/models/visualisation",
      "alias": "visualisation",
      "provenance": {
        "owned_path": "owned/models/visualisation"
      }
    }
  ],
  "wiring": [
    {
      "to": [
        "visualisation.systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model_state"
      ],
      "from": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.state"
    },
    {
      "to": [
        "visualisation.systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model_summary"
      ],
      "from": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.summary"
    },
    {
      "to": [
        "visualisation.systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model_species_labels"
      ],
      "from": "systemsbiology_sbml_li2021_micrornas_noncanonical_feedback_model_model2301180001_model.species_labels"
    }
  ],
  "runtime": {
    "duration": 1,
    "initial_inputs": {},
    "communication_step": 0.1
  },
  "description": "(I am not the first author of the paper who contributed to the experimental data, I did the modeling)Bistable switches and oscillators have long been considered key mechanisms underlying cell fate dec. It can be used to explore systemsbiology li2021 micrornas noncanonical feedback model2301180001 dynamics and compare simulation behavior across conditions.",
  "schema_version": "2.0"
}

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