This dataset is for the manuscript "A multiscale predictive digital twin for neurocardiac modulation". We utilized all-atom molecular dynamics (MD) simulations to predict the affinities as well as association and dissociation rates of norepinephrine (NE) with the beta-2 adrenergic receptor (β2AR). Calculations were done for both cationic (+) and neutral (0) forms of NE. An active-state β2AR model based on its crystal structure PDB ID: 4LDO was used with the flexible intracellular loop 3 (ICL3) truncated to 3 residues. ROSETTALIGAND was used for docking NE(+) and NE(0) to the receptor's orthosteric ligand binding site with one of the top scoring models used for MD simulations. MD simulation systems of the NE(+) or NE(0) bound β2AR receptor embedded in a palmitoyloleoylphosphatidylcholine (POPC) bilayer solvated by aqueous 0.15 M NaCl was generated using CHARMM-GUI membrane builder. MD simulations were run with NAMD in the NPT ensemble at 310 K and 1 atm pressure using CHARMM36m force field for protein, C36 for lipids, CGENFF based parameters for NE(+) and NE(0), and TIP3P water model. Initial equilibration MD simulations were run for ~52 ns with the first ~2 ns using gradually reduced harmonic restraints on the protein and lipid tail carbon atoms followed by unrestrained 50 ns long MD simulation runs. They were used to start 200 ns long well-tempered metadynamics MD simulations to estimate ligand binding affinities and rates. Distance between centers of mass (COM) of protein alpha-helical core and NE was used as reaction coordinate R extending to 50 Å in bulk, whereas angle θ between vectors connecting these points and ligand orthosteric binding site was used to restrain sampling within θ≤30° cone. Affinities in the form of dissociation constants, Kd, were computed as was done previously (Provasi D et al Biochemistry 2009, 48:10020) NE Kd value at pH=7.4 was computed from corresponding estimates for NE(+) and NE(0) using Henderson-Hasselbach equation as was done previously (Yang PC et al Circ Res 2020, 126:947) NE(+) dissociation or “off” rate was estimated using Kramer’s rate formalism (Dorairaj S & Allen TW. PNAS 2007, 104:4943) Free energy profile from metadynamics MD simulation of the β2AR – NE(+) system was used to estimate activation free energy barrier height and corresponding curvatures at free energy maxima and minima. Diffusion coefficient at the free energy maximum was estimated using position autocorrelation function from last 20 ns of separate 30 ns long MD simulations with harmonic restraints on the NE(+) position as was done previously (Vorobyov I et al Biophys. J. 2014, 106:586) The z component of a distance between COM of protein α-helical core and NE(+) was used as a reaction coordinate for diffusion coefficient calculations. NE(+) association or “on” rate was then computed as a ratio of the "off" rate and Kd.