Paper Citing NAMD - Abstract
Shim, Jihyun; Coop, Andrew; MacKerell, Alexander D., Jr.
Molecular Details of the Activation of the mu Opioid Receptor
JOURNAL OF PHYSICAL CHEMISTRY B, 117:7907-7917, JUL 4 2013
Molecular details of mu opioid receptor activations were obtained using molecular dynamics simulations of the receptor in the presence of three agonists, three antagonists, and a partial agonist and on the constitutively active T279K mutant. Agonists have a higher probability of direct interactions of their basic nitrogen (N) with Asp 147 as compared with antagonists, indicating that direct ligand-Asp 147 interactions modulate activation. Medium-size substituents on the basic N of antagonists lead to steric interactions that perturb N-Asp147 interactions, while additional favorable interactions occur with larger basic N substituents, such as in N-phenethylnormorphine, restoring N-Asp147 interactions, leading to agonism. With the orvinols, the increased size of the C19 substituent in buprenorphine over diprenorphine leads to increased interactions with residues adjacent to Asp 147, partially overcoming the presence of the cyclopropyl N substituent, such that buprenorphine is a partial agonist. Results also indicate different conformational properties of the intracellular regions of the transmembrane helices in agonists versus antagonists.
