Origin of Spectral Tuning in Rhodopsin—It Is Not the Binding Pocket

Sekharan, Sivakumar; Sugihara, Minoru; Buß, Volker

doi:10.1002/anie.200603306

Cited by 91 publications

(157 citation statements)

References 17 publications

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“…If the calculated gas phase value is too high, the underestimation of the blue shift due to the protein environment can lead to an artefactual error compensation as, e.g., in the case of TD-DFT. The experimental value of 2.03 eV is reasonably reproduced by CASPT2 [91] and Spectroscopy Oriented Configuration Interaction (SORCI, [92,93]) [42], but overestimated by TD-DFT [42]. The absorption spectrum of SRII is blue shifted by 70 nm relative to bacteriorhodopsin [94,95].…”

Section: Assessing Spectral Fingerprints Of the Reaction Cycle Intermmentioning

confidence: 79%

Mechanism of a proton pump analyzed with computer simulations

2009

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Understanding the mechanism of proton pumping requires a detailed description of the energetics and sequence of events associated with the proton transfers, and of how proton transfer couples to conformational rearrangements of the protein. Here, we discuss our recent advances in using computer simulations to understand how bacteriorhodopsin pumps protons. We emphasize the importance of accurately describing the retinal geometry and the location of water molecules.

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Section: Assessing Spectral Fingerprints Of the Reaction Cycle Intermmentioning

confidence: 79%

Mechanism of a proton pump analyzed with computer simulations

2009

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“…Similarly, the spectrum of a substituted stilbene derivative was red-shifted 102 nm upon binding to an antibody (21). Recent theoretical calculations suggest that the spectrum of rhodopsin is primarily determined by the interaction of the positively charged chromophore with Glu-113, which may account for a shift as large as 157 nm (22). For BphD, it is possible that Arg-190, which interacts with the carboxylate of HOPDA, may similarly perturb the spectrum of the keto tautomer.…”

Section: Discussionmentioning

confidence: 99%

The Tautomeric Half-reaction of BphD, a C-C Bond Hydrolase

Horsman

Bhowmik

Seah

et al. 2007

Journal of Biological Chemistry

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BphD of Burkholderia xenovorans LB400 catalyzes an unusual C-C bond hydrolysis of 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid (HOPDA) to afford benzoic acid and 2-hydroxy-2,4-pentadienoic acid (HPD). An enol-keto tautomerization has been proposed to precede hydrolysis via a gem- Bacteria use meta-cleavage pathways to degrade a large variety of aromatic compounds, and some alicyclic compounds, such as steroids (1). Although each pathway has its own substrate specificity, they all employ the same underlying logic: vicinal dihydroxylation of an aromatic ring enables dioxygenase-catalyzed extradiol (or meta) ring opening. The resulting meta-cleavage product (MCP) 3 is degraded by an MCP hydrolase, which adds water across a carbon-carbon bond to generate a dienoate and a carboxylic acid (Fig.

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“…Single-point CASPT2 calculations can also be used to study the retinal chromophore, including interactions with the protein binding pocket, with geometries provided by lower level methods [9][10][11]. CASPT2//CASSCF has further been used to calculate the excitation energies [12] and absorption spectra [13,14] of retinal in the full protein environment using a combined quantum mechanical/ molecular mechanical (QM/MM) description.…”

Section: Introductionmentioning

confidence: 99%

Assessment of semiempirical methods for the photoisomerisation of a protonated Schiff base

2009

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The potential energy surfaces and non-adiabatic dynamics of the C 5 H 6 NH 2 ? protonated Schiff base (PSB3) have been investigated using the OM2 semiempirical Hamiltonian with GUGA configuration interaction. Three approaches to selecting the GUGA-CI active space are evaluated using closed-shell and open-shell molecular orbitals. Energy minima and minimum energy crossing points (MECPs) have been compared with ab initio CASSCF and CASPT2 results. Only the open-shell calculations give a qualitatively correct MECP. Minimum energy path (MEP) calculations demonstrate that a minimal active space gives a barrierless path from the planar S 1 minimum to the ground state, whereas larger active spaces result in a small barrier to torsional motion. Surface hopping dynamics calculations indicate that this barrier induces bi-exponential dynamics. The comparable CAS-SCF S 1 energy surface is barrierless, but the CASPT2 surface features an energy plateau, which may also lead to more complex dynamics.

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Origin of Spectral Tuning in Rhodopsin—It Is Not the Binding Pocket

Cited by 91 publications

References 17 publications

Mechanism of a proton pump analyzed with computer simulations

Mechanism of a proton pump analyzed with computer simulations

The Tautomeric Half-reaction of BphD, a C-C Bond Hydrolase

Assessment of semiempirical methods for the photoisomerisation of a protonated Schiff base

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