Raman spectroscopy of a near infrared absorbing proteorhodopsin: Similarities to the bacteriorhodopsin O photointermediate

Mei, Gaoxiang; Mamaeva, Natalia; Ganapathy, Srividya; Wang, Peng; DeGrip, Willem J.; Rothschild, Kenneth J.

doi:10.1371/journal.pone.0209506

Cited by 11 publications

(20 citation statements)

References 98 publications

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“…In support of this band assignment, a strong 1567 cm −1 band appears in the resonance Raman spectrum of the BR M intermediate ( 48 , 49 ). The lower frequency of the NovArch M‐like state compared to BR‐M (1559 vs 1567 cm −1 ) is consistent with the empirical linear correlation between wavelength of absorption ( λ max ) and ethylenic frequency (ν C=C ) as described previously ( 34 , 50 , 51 , 52 , 53 , 54 ) (Figure S8 ). Notably, a band at 1574 cm −1 assigned to the C = C stretching frequency of the UV absorbing state (380 nm) of HKR1 also fits this linear correlation ( 55 ).…”

Section: Resultssupporting

confidence: 90%

Optical Switching Between Long‐lived States of Opsin Transmembrane Voltage Sensors

Mei

Cavini

Mamaeva

et al. 2021

Photochem & Photobiology

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Opsin-based transmembrane voltage sensors (OTVSs) are membrane proteins increasingly used in optogenetic applications to measure voltage changes across cellular membranes. In order to better understand the photophysical properties of OTVSs, we used a combination of UV-Vis absorption, fluorescence and FT-Raman spectroscopy to characterize Qua-sAr2 and NovArch, two closely related mutants derived from the proton pump archaerhodopsin-3 (AR3). We find both QuasAr2 and NovArch can be optically cycled repeatedly between O-like and M-like states using 5-min exposure to red (660 nm) and near-UV (405 nm) light. Longer red-light exposure resulted in the formation of a long-lived photoproduct similar to pink membrane, previously found to be a photoproduct of the BR O intermediate with a 9-cis retinylidene chromophore configuration. However, unlike QuasAr2 whose O-like state is stable in the dark, NovArch exhibits an O-like state which slowly partially decays in the dark to a stable Mlike form with a deprotonated Schiff base and a 13-cis,15-anti retinylidene chromophore configuration. These results reveal a previously unknown complexity in the photochemistry of OTVSs including the ability to optically switch between different long-lived states. The possible molecular basis of these newly discovered properties along with potential optogenetic and biotechnological applications are discussed.

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Section: Resultssupporting

confidence: 90%

Optical Switching Between Long‐lived States of Opsin Transmembrane Voltage Sensors

Mei

Cavini

Mamaeva

et al. 2021

Photochem & Photobiology

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“…The exci-tation wavelength used also "selects" only the particular species by resonance conditions. For instance, resonant Raman or SERS spectroscopy was also used for studying many "intrinsically colored" biomolecules such as chlorophylls, 35 haem-containing proteins, 36 carotenoids, 37 rhodopsin, 38 and flavin nucleotides, 39 and with the aid of robust chemometric tools, their accurate detection and discrimination in living cells was successfully reported. 40 There are numerous opportunities to use SERS in real multiplex detection for screening biological processes, real-time mapping of living cells, etc.…”

Section: Sers Substratesmentioning

confidence: 99%

Surface-enhanced Raman spectroscopy for bioanalysis and diagnosis

et al. 2021

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“…2a, d) of BR wildtype purple membranes. We further investigated in this way BR mutated at the proton donor of the RSB (D96), the acceptor of the RSB proton (D85) and the proton shuttle R82: D96N, in which the reprotonation of the RSB is dramatically slowed down 32 , D85T that features a red-shift of the BR-absorption and complete inactivation of proton pumping 33,34 , and R82Q, in which BR-absorption is red-shifted, the RSB-pK a lowered, and proton shuttling from D85 to the proton release group severely hampered 35,36 .…”

Section: Resultsmentioning

confidence: 99%

Collective exchange processes reveal an active site proton cage in bacteriorhodopsin

et al. 2020

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Proton translocation across membranes is vital to all kingdoms of life. Mechanistically, it relies on characteristic proton flows and modifications of hydrogen bonding patterns, termed protonation dynamics, which can be directly observed by fast magic angle spinning (MAS) NMR. Here, we demonstrate that reversible proton displacement in the active site of bacteriorhodopsin already takes place in its equilibrated dark-state, providing new information on the underlying hydrogen exchange processes. In particular, MAS NMR reveals proton exchange at D85 and the retinal Schiff base, suggesting a tautomeric equilibrium and thus partial ionization of D85. We provide evidence for a proton cage and detect a preformed proton path between D85 and the proton shuttle R82. The protons at D96 and D85 exchange with water, in line with ab initio molecular dynamics simulations. We propose that retinal isomerization makes the observed proton exchange processes irreversible and delivers a proton towards the extracellular release site.

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Raman spectroscopy of a near infrared absorbing proteorhodopsin: Similarities to the bacteriorhodopsin O photointermediate

Cited by 11 publications

References 98 publications

Optical Switching Between Long‐lived States of Opsin Transmembrane Voltage Sensors

Optical Switching Between Long‐lived States of Opsin Transmembrane Voltage Sensors

Surface-enhanced Raman spectroscopy for bioanalysis and diagnosis

Collective exchange processes reveal an active site proton cage in bacteriorhodopsin

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