{"id": "package:68889f90-0ccb-4319-a9d4-34cfd5a11afb", "name": "24jan24_16_2_21_cfg.json", "self_uri": "https://services.scicrunch.io/sparc/drs/v1/objects/68889f90-0ccb-4319-a9d4-34cfd5a11afb", "size": 5803, "created_time": "2024-12-20T20:32:47,967906Z", "updated_time": "2024-12-20T20:32:55,196524Z", "version": "1", "mime_type": "application/json", "checksums": [{"checksum": "44abb7222f8b09c005513a983bb1f5d2", "type": "sha256"}], "access_methods": [{"type": "s3", "access_url": {"url": "s3://sparc-prod-aod-discover-publish50-use1/453/files/primary/24jan24_16/24jan24_16_2_21_cfg.json"}, "region": "us-east-1"}], "dataset": {"id": "453", "doi": "DOI:10.26275/cy9w-ttjn", "title": "Biophysical modeling of neuronal phenotypes of the right atrial ganglionic plexus from single-neuron transcriptomics", "description": "Parallel conductance models using the Hodgkin-Huxley formalism informed by single-neuron transcriptomic data to select ion channel combinations.", "abstract": "The primary objective of the modeling study was to connect single-neuron RAGP transcriptomic data to cellular electrophysiology to understand the activity of neurons contributing to heart rate regulation. Not applicable (computational study) Single-neuron transcriptomic data can be used to construct a library of biophysical neuronal models that produce the range of electrophysiological behavior observed experimentally"}}