Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.

Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.

The activation of the G-protein transducin (Gt) by rhodopsin (Rho) has been intensively studied for several decades. It is the best understood example of GPCR activation mechanism and serves as a template for other GPCRs. The structure of the Rho/G protein complex, which is transiently formed during...

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Main Authors: Shoji Maeda, Dawei Sun, Ankita Singhal, Marcello Foggetta, Georg Schmid, Joerg Standfuss, Michael Hennig, Roger J P Dawson, Dmitry B Veprintsev, Gebhard F X Schertler
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4076187?pdf=render
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spelling doaj-8b5da6ab8ec342a3876cec257f4820f52020-11-24T22:25:46ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0196e9871410.1371/journal.pone.0098714Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.Shoji MaedaDawei SunAnkita SinghalMarcello FoggettaGeorg SchmidJoerg StandfussMichael HennigRoger J P DawsonDmitry B VeprintsevGebhard F X SchertlerThe activation of the G-protein transducin (Gt) by rhodopsin (Rho) has been intensively studied for several decades. It is the best understood example of GPCR activation mechanism and serves as a template for other GPCRs. The structure of the Rho/G protein complex, which is transiently formed during the signaling reaction, is of particular interest. It can help understanding the molecular details of how retinal isomerization leads to the G protein activation, as well as shed some light on how GPCR recognizes its cognate G protein. The native Rho/Gt complex isolated from bovine retina suffers from low stability and loss of the retinal ligand. Recently, we reported that constitutively active mutant of rhodopsin E113Q forms a Rho/Gt complex that is stable in detergent solution. Here, we introduce methods for a large scale preparation of the complex formed by the thermo-stabilized and constitutively active rhodopsin mutant N2C/M257Y/D282C(RhoM257Y) and the native Gt purified from bovine retinas. We demonstrate that the light-activated rhodopsin in this complex contains a covalently bound unprotonated retinal and therefore corresponds to the active metarhodopin II state; that the isolated complex is active and dissociates upon addition of GTPγS; and that the stoichiometry corresponds to a 1∶1 molar ratio of rhodopsin to the heterotrimeric G-protein. And finally, we show that the rhodopsin also forms stable complex with Gi. This complex has significantly higher thermostability than RhoM257Y/Gt complex and is resistant to a variety of detergents. Overall, our data suggest that the RhoM257Y/Gi complex is an ideal target for future structural and mechanistic studies of signaling in the visual system.http://europepmc.org/articles/PMC4076187?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Shoji Maeda
Dawei Sun
Ankita Singhal
Marcello Foggetta
Georg Schmid
Joerg Standfuss
Michael Hennig
Roger J P Dawson
Dmitry B Veprintsev
Gebhard F X Schertler
spellingShingle Shoji Maeda
Dawei Sun
Ankita Singhal
Marcello Foggetta
Georg Schmid
Joerg Standfuss
Michael Hennig
Roger J P Dawson
Dmitry B Veprintsev
Gebhard F X Schertler
Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.
PLoS ONE
author_facet Shoji Maeda
Dawei Sun
Ankita Singhal
Marcello Foggetta
Georg Schmid
Joerg Standfuss
Michael Hennig
Roger J P Dawson
Dmitry B Veprintsev
Gebhard F X Schertler
author_sort Shoji Maeda
title Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.
title_short Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.
title_full Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.
title_fullStr Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.
title_full_unstemmed Crystallization scale preparation of a stable GPCR signaling complex between constitutively active rhodopsin and G-protein.
title_sort crystallization scale preparation of a stable gpcr signaling complex between constitutively active rhodopsin and g-protein.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description The activation of the G-protein transducin (Gt) by rhodopsin (Rho) has been intensively studied for several decades. It is the best understood example of GPCR activation mechanism and serves as a template for other GPCRs. The structure of the Rho/G protein complex, which is transiently formed during the signaling reaction, is of particular interest. It can help understanding the molecular details of how retinal isomerization leads to the G protein activation, as well as shed some light on how GPCR recognizes its cognate G protein. The native Rho/Gt complex isolated from bovine retina suffers from low stability and loss of the retinal ligand. Recently, we reported that constitutively active mutant of rhodopsin E113Q forms a Rho/Gt complex that is stable in detergent solution. Here, we introduce methods for a large scale preparation of the complex formed by the thermo-stabilized and constitutively active rhodopsin mutant N2C/M257Y/D282C(RhoM257Y) and the native Gt purified from bovine retinas. We demonstrate that the light-activated rhodopsin in this complex contains a covalently bound unprotonated retinal and therefore corresponds to the active metarhodopin II state; that the isolated complex is active and dissociates upon addition of GTPγS; and that the stoichiometry corresponds to a 1∶1 molar ratio of rhodopsin to the heterotrimeric G-protein. And finally, we show that the rhodopsin also forms stable complex with Gi. This complex has significantly higher thermostability than RhoM257Y/Gt complex and is resistant to a variety of detergents. Overall, our data suggest that the RhoM257Y/Gi complex is an ideal target for future structural and mechanistic studies of signaling in the visual system.
url http://europepmc.org/articles/PMC4076187?pdf=render
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