In this issue of Structure, Gunkel et al. describe cryoelectron tomography analysis of the nano-organization of the G protein-coupled receptor (GPCR) rhodopsin in the rod photoreceptor disk membranes in a near-native environment. Their data strongly suggest that rhodopsin is organized in the native rod disk as dimers arranged in parallel tracks aligned to the incisure
SummaryThe signal-transduction mechanism of rhodopsin was studied by molecular dynamics (MD) simulat...
AbstractDim-light vision is mediated by retinal rod cells. Rhodopsin (R), a G-protein-coupled recept...
Our laboratory is interested in the molecular mechanism ofG protein-mediated signal transduction. We...
In this issue of Structure, Gunkel et al. describe cryoelectron tomography analysis of the nano-orga...
AbstractVertebrate vision in rod photoreceptors begins when a photon hits the visual pigment rhodops...
Imaging of rod photoreceptor outer-segment disc membranes by atomic force microscopy and cryo-electr...
AbstractThe higher-order structure of G protein-coupled receptors (GPCRs) in membranes may involve d...
AbstractBovine rhodopsin is the prototypical G protein coupled receptor (GPCR). It was the first GPC...
AbstractThe photoreceptor rhodopsin is a G-protein coupled receptor that has recently been proposed ...
AbstractThe crystal structure of rhodopsin has provided the first three-dimensional molecular model ...
AbstractRhodopsin is the membrane receptor responsible for photoreception in the vertebrate retina. ...
AbstractBiological membranes display distinct domains that organize membrane proteins and signaling ...
AbstractRhodopsin, the dim-light photoreceptor present in the rod cells of the retina, is both a ret...
AbstractG protein-coupled receptors (GPCRs) are essential components of cellular signaling pathways....
Vertebrate vision in rod photoreceptors begins when a photon hits the visual pigment rhodopsin (Rh) ...
SummaryThe signal-transduction mechanism of rhodopsin was studied by molecular dynamics (MD) simulat...
AbstractDim-light vision is mediated by retinal rod cells. Rhodopsin (R), a G-protein-coupled recept...
Our laboratory is interested in the molecular mechanism ofG protein-mediated signal transduction. We...
In this issue of Structure, Gunkel et al. describe cryoelectron tomography analysis of the nano-orga...
AbstractVertebrate vision in rod photoreceptors begins when a photon hits the visual pigment rhodops...
Imaging of rod photoreceptor outer-segment disc membranes by atomic force microscopy and cryo-electr...
AbstractThe higher-order structure of G protein-coupled receptors (GPCRs) in membranes may involve d...
AbstractBovine rhodopsin is the prototypical G protein coupled receptor (GPCR). It was the first GPC...
AbstractThe photoreceptor rhodopsin is a G-protein coupled receptor that has recently been proposed ...
AbstractThe crystal structure of rhodopsin has provided the first three-dimensional molecular model ...
AbstractRhodopsin is the membrane receptor responsible for photoreception in the vertebrate retina. ...
AbstractBiological membranes display distinct domains that organize membrane proteins and signaling ...
AbstractRhodopsin, the dim-light photoreceptor present in the rod cells of the retina, is both a ret...
AbstractG protein-coupled receptors (GPCRs) are essential components of cellular signaling pathways....
Vertebrate vision in rod photoreceptors begins when a photon hits the visual pigment rhodopsin (Rh) ...
SummaryThe signal-transduction mechanism of rhodopsin was studied by molecular dynamics (MD) simulat...
AbstractDim-light vision is mediated by retinal rod cells. Rhodopsin (R), a G-protein-coupled recept...
Our laboratory is interested in the molecular mechanism ofG protein-mediated signal transduction. We...
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