Chromophore/protein interaction in bacterial sensory rhodopsin and bacteriorhodopsin

J. L. Spudich; D. A. McCain; K. Nakanishi; M. Okabe; N. Shimizu; H. Rodman; B. Honig; R. A. Bogomolni

doi:10.1016/S0006-3495(86)83657-8

Chromophore/protein interaction in bacterial sensory rhodopsin and bacteriorhodopsin

J. L. Spudich, D. A. McCain, K. Nakanishi, M. Okabe, N. Shimizu, H. Rodman, B. Honig, R. A. Bogomolni

Zuckerman Institute

Producción científica › revisión exhaustiva

113 Citas (Scopus)

Resumen

Retinal analogues with altered conjugated double bond systems or altered stereochemistry were incorporated into the phototaxis receptor sensory rhodopsin (SR) and the light-driven proton pump bacteriorhodopsin (BR) from Halobacterium halobium. Wavelength shifts in absorption ("opsin shifts") due to analogue interaction with the protein microenvironment demonstrate that the same overall electrostatic and steric properties of the retinal binding-site structures exist in both proteins despite their different functions. pi-Electron calculations from the opsin shifts lead to a new description of protein charge distribution that applies to the binding sites of both SR and BR. The new data extends the previously proposed external point charge model for BR to include an ion-pair protein/chromophore interaction near the beta-ionone moiety. The new data modifies the previously proposed external point-charge model, the derivation of which involved an experimentally erroneous opsin shift for one of the BR analogues.

Idioma original	English
Páginas (desde-hasta)	479-483
Número de páginas	5
Publicación	Biophysical Journal
Volumen	49
N.º	2
DOI	https://doi.org/10.1016/S0006-3495(86)83657-8
Estado	Published - 1986

Financiación

Financiadores	Número del financiador
National Science Foundation	PCM 8316139
National Institutes of Health	GM 24383, GM 27750
Irma T. Hirschl Trust	NSF-CHE12153, GM 30518, GM 34219

ASJC Scopus Subject Areas

Biophysics

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10.1016/S0006-3495(86)83657-8

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title = "Chromophore/protein interaction in bacterial sensory rhodopsin and bacteriorhodopsin",

abstract = "Retinal analogues with altered conjugated double bond systems or altered stereochemistry were incorporated into the phototaxis receptor sensory rhodopsin (SR) and the light-driven proton pump bacteriorhodopsin (BR) from Halobacterium halobium. Wavelength shifts in absorption ({"}opsin shifts{"}) due to analogue interaction with the protein microenvironment demonstrate that the same overall electrostatic and steric properties of the retinal binding-site structures exist in both proteins despite their different functions. pi-Electron calculations from the opsin shifts lead to a new description of protein charge distribution that applies to the binding sites of both SR and BR. The new data extends the previously proposed external point charge model for BR to include an ion-pair protein/chromophore interaction near the beta-ionone moiety. The new data modifies the previously proposed external point-charge model, the derivation of which involved an experimentally erroneous opsin shift for one of the BR analogues.",

author = "Spudich, {J. L.} and McCain, {D. A.} and K. Nakanishi and M. Okabe and N. Shimizu and H. Rodman and B. Honig and Bogomolni, {R. A.}",

note = "Funding Information: This work was supported by National Institutes of Health (NIH) GM 27750 and GM 24383 (J. L. Spudich), an Irma T. Hirschl Trust Career Scientist Award (J. L. Spudich), NSF-CHE12153 (K. Nakanishi), NIH GM 30518 (B. Honig), GM 34219 (R. A. Bogomolni) and National Science Foundation PCM 8316139 (R. A. Bogomolni).",

year = "1986",

doi = "10.1016/S0006-3495(86)83657-8",

language = "English",

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pages = "479--483",

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TY - JOUR

T1 - Chromophore/protein interaction in bacterial sensory rhodopsin and bacteriorhodopsin

AU - Spudich, J. L.

AU - McCain, D. A.

AU - Nakanishi, K.

AU - Okabe, M.

AU - Shimizu, N.

AU - Rodman, H.

AU - Honig, B.

AU - Bogomolni, R. A.

N1 - Funding Information: This work was supported by National Institutes of Health (NIH) GM 27750 and GM 24383 (J. L. Spudich), an Irma T. Hirschl Trust Career Scientist Award (J. L. Spudich), NSF-CHE12153 (K. Nakanishi), NIH GM 30518 (B. Honig), GM 34219 (R. A. Bogomolni) and National Science Foundation PCM 8316139 (R. A. Bogomolni).

PY - 1986

Y1 - 1986

N2 - Retinal analogues with altered conjugated double bond systems or altered stereochemistry were incorporated into the phototaxis receptor sensory rhodopsin (SR) and the light-driven proton pump bacteriorhodopsin (BR) from Halobacterium halobium. Wavelength shifts in absorption ("opsin shifts") due to analogue interaction with the protein microenvironment demonstrate that the same overall electrostatic and steric properties of the retinal binding-site structures exist in both proteins despite their different functions. pi-Electron calculations from the opsin shifts lead to a new description of protein charge distribution that applies to the binding sites of both SR and BR. The new data extends the previously proposed external point charge model for BR to include an ion-pair protein/chromophore interaction near the beta-ionone moiety. The new data modifies the previously proposed external point-charge model, the derivation of which involved an experimentally erroneous opsin shift for one of the BR analogues.

AB - Retinal analogues with altered conjugated double bond systems or altered stereochemistry were incorporated into the phototaxis receptor sensory rhodopsin (SR) and the light-driven proton pump bacteriorhodopsin (BR) from Halobacterium halobium. Wavelength shifts in absorption ("opsin shifts") due to analogue interaction with the protein microenvironment demonstrate that the same overall electrostatic and steric properties of the retinal binding-site structures exist in both proteins despite their different functions. pi-Electron calculations from the opsin shifts lead to a new description of protein charge distribution that applies to the binding sites of both SR and BR. The new data extends the previously proposed external point charge model for BR to include an ion-pair protein/chromophore interaction near the beta-ionone moiety. The new data modifies the previously proposed external point-charge model, the derivation of which involved an experimentally erroneous opsin shift for one of the BR analogues.

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Chromophore/protein interaction in bacterial sensory rhodopsin and bacteriorhodopsin

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