Simon X. Wang scite author profile

Simon X. Wang

2Publications

81Citation Statements Received

190Citation Statements Given

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Cornell University

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Dynamic models of G-protein coupled receptor dimers: indications of asymmetry in the rhodopsin dimer from molecular dynamics simulations in a POPC bilayer

Filizola

Wang

Weinstein

2006

J Comput Aided Mol Des

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Based on the growing evidence that G-protein coupled receptors (GPCRs) form homo- and hetero-oligomers, models of GPCR signaling are now considering macromolecular assemblies rather than monomers, with the homo-dimer regarded as the minimal oligomeric arrangement required for functional coupling to the G-protein. The dynamic mechanisms of such signaling assemblies are unknown. To gain some insight into properties of GPCR dimers that may be relevant to functional mechanisms, we study their current structural prototype, rhodopsin. We have carried out nanosecond time-scale molecular dynamics (MD) simulations of a rhodopsin dimer and compared the results to the monomer simulated in the same type of bilayer membrane model composed of an equilibrated unit cell of hydrated palmitoyl-oleoyl-phosphatidyl choline (POPC). The dynamic representation of the homo-dimer reveals the location of structural changes in several regions of the monomeric subunits. These changes appear to be more pronounced at the dimerization interface that had been shown to be involved in the activation process [Proc Natl Acad Sci USA 102:17495, 2005]. The results are consistent with a model of GPCR activation that involves allosteric modulation through a single GPCR subunit per dimer.

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

2008

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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 β2-adrenergic receptor (β2-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 β2-AR.

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Simon X. Wang

Dynamic models of G-protein coupled receptor dimers: indications of asymmetry in the rhodopsin dimer from molecular dynamics simulations in a POPC bilayer

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

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Simon X. Wang

Dynamic models of G-protein coupled receptor dimers: indications of asymmetry in the rhodopsin dimer from molecular dynamics simulations in a POPC bilayer

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

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