Electron crystallography reveals the structure of metarhodopsin I.
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Journal: 2005/June - EMBO Journal
ISSN: 0261-4189
Abstract:
Rhodopsin is the prototypical G protein-coupled receptor, responsible for detection of dim light in vision. Upon absorption of a photon, rhodopsin undergoes structural changes, characterised by distinct photointermediates. Currently, only the ground-state structure has been described. We have determined a density map of a photostationary state highly enriched in metarhodopsin I, to a resolution of 5.5 A in the membrane plane, by electron crystallography. The map shows density for helix 8, the cytoplasmic loops, the extracellular plug, all tryptophan residues, an ordered cholesterol molecule and the beta-ionone ring. Comparison of this map with X-ray structures of the ground state reveals that metarhodopsin I formation does not involve large rigid-body movements of helices, but there is a rearrangement close to the bend of helix 6, at the level of the retinal chromophore. There is no gradual build-up of the large conformational change known to accompany metarhodopsin II formation. The protein remains in a conformation similar to that of the ground state until late in the photobleaching process.
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EMBO J 23(18): 3609-3620
PMID: 15329674

Electron crystallography reveals the structure of metarhodopsin I

MRC Laboratory of Molecular Biology, Cambridge, UK
Biophysics Group, Institut für Molekulare Medizin und Zellforschung, Albert-Ludwigs-Universität Freiburg, Freiburg, Germany
MRC Laboratory of Molecular Biology, Hills Road, Cambridge CB2 2QH, UK. Tel.: +44 1223 402328; Fax: +44 1223 213556; E-mail: ku.ca.mac.bml-crm@xfg
Current address: Max-Planck-Institute for Molecular Genetics, Ihnestr. 67-73, 14195 Berlin, Germany
Received 2004 Jun 3; Accepted 2004 Jul 27.
Copyright © 2004, European Molecular Biology Organization

Abstract

Rhodopsin is the prototypical G protein-coupled receptor, responsible for detection of dim light in vision. Upon absorption of a photon, rhodopsin undergoes structural changes, characterised by distinct photointermediates. Currently, only the ground-state structure has been described. We have determined a density map of a photostationary state highly enriched in metarhodopsin I, to a resolution of 5.5 Å in the membrane plane, by electron crystallography. The map shows density for helix 8, the cytoplasmic loops, the extracellular plug, all tryptophan residues, an ordered cholesterol molecule and the β-ionone ring. Comparison of this map with X-ray structures of the ground state reveals that metarhodopsin I formation does not involve large rigid-body movements of helices, but there is a rearrangement close to the bend of helix 6, at the level of the retinal chromophore. There is no gradual build-up of the large conformational change known to accompany metarhodopsin II formation. The protein remains in a conformation similar to that of the ground state until late in the photobleaching process.

Keywords: electron crystallography, G protein-coupled receptor, membrane protein, metarhodopsin I, visual pigment
Abstract

Acknowledgments

We thank John Berriman for help with electron microscopy, Brad Amos for constructing the optical diffractometer used in this study, and Friedrich Siebert, Richard Henderson and Jade Li for many helpful discussions. Part of the work was supported by an HFSP grant (RGP 0054/2002). JJR was supported by an MRC Predoctoral Fellowship. TM was supported by a European Commission Marie-Curie fellowship (HPMF-CT-1999-00093).

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