Long time molecular dynamic simulation on the agonist binding and activation of the β2-adrenergic receptor

β2-Adrenergic receptor (β2AR) plays a critical role in mediating the effects of catecholamine hormones. Due to the flexibility of the structure of its active state, study of agonist–β2AR is usually performed by molecular dynamic (MD) simulation. In this study we show the representative characteristics of agonist binding and activation on β2AR by MD simulation. The binding site and the conformational changes in the specific regions of β2AR are reasonable which confirmed the conclusion that agonist–β2AR reached its active-like state. We have studied the disruption of non-covalent intramolecular interactions, including the conserved DRY motif, the rotamer toggle switch and the ionic lock, the cytoplasmic ends of transmembranes 5 and 6, and some water-mediated hydrogen bond network regions. We conclude that agonist induced β2AR to its active conformation, or at least the active-like conformation.