Electron density deformations provide new insights into the spectral shift of rhodopsins

Spectral shifts of rhodopsin, which are related to variations of the electron distribution in 11‐cis‐retinal, are investigated here using the method of deformed atoms in molecules. We found that systems carrying the M207R and S186W mutations display large perturbations of the π‐conjugated system wit...

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Veröffentlicht in:Journal of computational chemistry 2013-10, Vol.34 (28), p.2460-2471
Hauptverfasser: Hernández-Rodríguez, Erix Wiliam, Montero-Alejo, Ana Lilian, López, Rafael, Sánchez-García, Elsa, Montero-Cabrera, Luis Alberto, García de la Vega, José Manuel
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container_end_page 2471
container_issue 28
container_start_page 2460
container_title Journal of computational chemistry
container_volume 34
creator Hernández-Rodríguez, Erix Wiliam
Montero-Alejo, Ana Lilian
López, Rafael
Sánchez-García, Elsa
Montero-Cabrera, Luis Alberto
García de la Vega, José Manuel
description Spectral shifts of rhodopsin, which are related to variations of the electron distribution in 11‐cis‐retinal, are investigated here using the method of deformed atoms in molecules. We found that systems carrying the M207R and S186W mutations display large perturbations of the π‐conjugated system with respect to wild‐type rhodopsins. These changes agree with the predicted behavior of the bond length alternation (BLA) and the blue shifts of vertical excitation energies of these systems. The effect of the planarity of the central and Schiff‐base regions of retinal chain on the electronic structure of the chromophore is also investigated. By establishing nonlinear polynomial relations between BLA, chain distortions, and vertical excitation energies, we are also able to provide a semiquantitative approach for the understanding of the mechanisms regulating spectral shifts in rhodopsin and its mutants. © 2013 Wiley Periodicals, Inc. The method of deformed atoms in molecules is used to study the electron distribution in 11‐cis‐retinal in bovine and human wild‐type rhodopsins and two mutations associated with retinitis pigmentosa disease: M207R and S186W. The apparition of an electron density gap in hM207R and hS186W rhodopsins is related to a loss of charge delocalization. This perturbation provides new insights into the spectral shift of rhodopsins. Changes in the electron density affect the behavior of the bond length alternation, the blue shifts of vertical excitation energies, and the effect of the planarity of Schiff‐base regions of the retinal chain in rhodopsins and mutants.
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We found that systems carrying the M207R and S186W mutations display large perturbations of the π‐conjugated system with respect to wild‐type rhodopsins. These changes agree with the predicted behavior of the bond length alternation (BLA) and the blue shifts of vertical excitation energies of these systems. The effect of the planarity of the central and Schiff‐base regions of retinal chain on the electronic structure of the chromophore is also investigated. By establishing nonlinear polynomial relations between BLA, chain distortions, and vertical excitation energies, we are also able to provide a semiquantitative approach for the understanding of the mechanisms regulating spectral shifts in rhodopsin and its mutants. © 2013 Wiley Periodicals, Inc. The method of deformed atoms in molecules is used to study the electron distribution in 11‐cis‐retinal in bovine and human wild‐type rhodopsins and two mutations associated with retinitis pigmentosa disease: M207R and S186W. The apparition of an electron density gap in hM207R and hS186W rhodopsins is related to a loss of charge delocalization. This perturbation provides new insights into the spectral shift of rhodopsins. 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Comput. Chem</addtitle><description>Spectral shifts of rhodopsin, which are related to variations of the electron distribution in 11‐cis‐retinal, are investigated here using the method of deformed atoms in molecules. We found that systems carrying the M207R and S186W mutations display large perturbations of the π‐conjugated system with respect to wild‐type rhodopsins. These changes agree with the predicted behavior of the bond length alternation (BLA) and the blue shifts of vertical excitation energies of these systems. The effect of the planarity of the central and Schiff‐base regions of retinal chain on the electronic structure of the chromophore is also investigated. By establishing nonlinear polynomial relations between BLA, chain distortions, and vertical excitation energies, we are also able to provide a semiquantitative approach for the understanding of the mechanisms regulating spectral shifts in rhodopsin and its mutants. © 2013 Wiley Periodicals, Inc. The method of deformed atoms in molecules is used to study the electron distribution in 11‐cis‐retinal in bovine and human wild‐type rhodopsins and two mutations associated with retinitis pigmentosa disease: M207R and S186W. The apparition of an electron density gap in hM207R and hS186W rhodopsins is related to a loss of charge delocalization. This perturbation provides new insights into the spectral shift of rhodopsins. 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By establishing nonlinear polynomial relations between BLA, chain distortions, and vertical excitation energies, we are also able to provide a semiquantitative approach for the understanding of the mechanisms regulating spectral shifts in rhodopsin and its mutants. © 2013 Wiley Periodicals, Inc. The method of deformed atoms in molecules is used to study the electron distribution in 11‐cis‐retinal in bovine and human wild‐type rhodopsins and two mutations associated with retinitis pigmentosa disease: M207R and S186W. The apparition of an electron density gap in hM207R and hS186W rhodopsins is related to a loss of charge delocalization. This perturbation provides new insights into the spectral shift of rhodopsins. 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subjects Animals
Cattle
Chemical compounds
Deformation
Density
electron density deformations
electronic structure
Electrons
Humans
Models, Molecular
Molecular Dynamics Simulation
Mutation
mutations
Pigments
Polynomials
Retinaldehyde - chemistry
retinitis pigmentosa
rhodopsin
Rhodopsin - chemistry
Rhodopsin - genetics
Spectrum analysis
Static Electricity
title Electron density deformations provide new insights into the spectral shift of rhodopsins
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