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G-Protein-coupled receptors (GPCRs) adopt various functionally relevant conformational states in cell signaling processes. Recently determined crystal structures of rhodopsin and the beta 2-adrenergic receptor (beta 2-AR) offer insight into previously uncharacterized active conformations, but the molecular states of these GPCRs are likely to contain both inactive and active-like conformational elements. We have identified conformational rearrangements in the dynamics of the TM7-HX8 segment that relate to the properties of the conserved NPxxY(x)5,6F motif and show that they can be used to identify active state-like conformational elements in the corresponding regions of the new structures of rhodopsin and the beta 2-AR.

biochemistry

Active State-like Conformational Elements in the β<sub>2</sub>-AR and a Photoactivated Intermediate of Rhodopsin Identified by Dynamic Properties of GPCRs

Active State-like Conformational Elements in the β2-AR and a Photoactivated Intermediate of Rhodopsin Identified by Dynamic Properties of GPCRs

Active State-like Conformational Elements in the β₂-AR and a Photoactivated Intermediate of Rhodopsin Identified by Dynamic Properties of GPCRs