Your search keyword '"Schoenlein, R. W."' showing total 15 results

1. The First Step in Vision: Femtosecond Isomerization of Rhodopsin

Author

Schoenlein, R. W., Peteanu, L. A., Mathies, R. A., and Shank, C. V.

Published

1991

2. Similarities and Differences in Photochemistry of Type I and Type II Rhodopsins.

Author

Ostrovsky, Mikhail A., Smitienko, Olga A., Bochenkova, Anastasia V., and Feldman, Tatiana B.

Subjects

CONVERGENT evolution, PHOTOCHEMISTRY, RHODOPSIN, QUANTUM wells, BACTERIORHODOPSIN

Abstract

The diversity of the retinal-containing proteins (rhodopsins) in nature is extremely large. Fundamental similarity of the structure and photochemical properties unites them into one family. However, there is still a debate about the origin of retinal-containing proteins: divergent or convergent evolution? In this review, based on the results of our own and literature data, a comparative analysis of the similarities and differences in the photoconversion of the rhodopsin of types I and II is carried out. The results of experimental studies of the forward and reverse photoreactions of the bacteriorhodopsin (type I) and visual rhodopsin (type II) rhodopsins in the femto- and picosecond time scale, photo-reversible reaction of the octopus rhodopsin (type II), photovoltaic reactions, as well as quantum chemical calculations of the forward photoreactions of bacteriorhodopsin and visual rhodopsin are presented. The issue of probable convergent evolution of type I and type II rhodopsins is discussed. [ABSTRACT FROM AUTHOR]

Published

2023

3. Inorganic Photochemistry and Solar Energy Harvesting: Current Developments and Challenges to Solar Fuel Production.

Author

Sousa, Sinval F., Souza, Breno L., Barros, Cristiane L., and Patrocinio, Antonio Otavio T.

Subjects

SOLAR energy, FOSSIL fuels, HARVESTING, PHOTOCHEMISTRY, RENEWABLE energy sources, GREENHOUSE gases

Abstract

The large and continuous use of fossil fuels as a primary energy source has led to several environmental problems, such as the increase of the greenhouse effect. In order to minimize these problems, attention has been drawn to renewable energy production. Solar energy is an attractive candidate as renewable source due to its abundance and availability. For this, it is necessary to develop devices able to absorb sunlight and convert it into fuels or electricity in a economical, technical and sustainable way. The so-called artificial photosynthesis has called the attention of researchers due to the possibility of using solar photocatalysts in converting water and CO2 into fuels. This manuscript presents a review of the recent developments of hybrid systems based on molecular photocatalysts immobilized on semiconductor surfaces for solar fuel production through water oxidation and CO2 reduction and also discusses the current challenges for the potential application of these photocatalyst systems. [ABSTRACT FROM AUTHOR]

Published

2019

4. Local vibrational coherences drive the primary photochemistry of vision.

Author

Johnson, Philip J. M., Halpin, Alexei, Morizumi, Takefumi, Prokhorenko, Valentyn I., Ernst, Oliver P., and Miller, R. J. Dwayne

Subjects

PHOTOCHEMISTRY, VISUAL optics, DEPTH perception, VIBRATIONAL spectra, VISION disorders

Abstract

The role of vibrational coherence-concerted vibrational motion on the excited-state potential energy surface-in the isomerization of retinal in the protein rhodopsin remains elusive, despite considerable experimental and theoretical efforts. We revisited this problem with resonant ultrafast heterodyne-detected transient-grating spectroscopy. The enhanced sensitivity that this technique provides allows us to probe directly the primary photochemical reaction of vision with sufficient temporal and spectral resolution to resolve all the relevant nuclear dynamics of the retinal chromophore during isomerization. We observed coherent photoproduct formation on a sub-50 fs timescale, and recovered a host of vibrational modes of the retinal chromophore that modulate the transient-grating signal during the isomerization reaction. Through Fourier filtering and subsequent time-domain analysis of the transient vibrational dynamics, the excited-state nuclear motions that drive the isomerization reaction were identified, and comprise stretching, torsional and out-of-plane wagging motions about the local C11=C12 isomerization coordinate. [ABSTRACT FROM AUTHOR]

Published

2015

5. Femtosecond Laser Spectroscopy of the Rhodopsin Photochromic Reaction: A Concept for Ultrafast Optical Molecular Switch Creation (Ultrafast Reversible Photoreaction of Rhodopsin).

Author

Smitienko, Olga, Nadtochenko, Victor, Feldman, Tatiana, Balatskaya, Maria, Shelaev, Ivan, Gostev, Fedor, Sarkisov, Oleg, and Ostrovsky, Mikhail

Subjects

RHODOPSIN, PHOTOCHEMISTRY, PHOTOISOMERIZATION, FEMTOSECOND lasers, MOLECULAR switches

Abstract

Ultrafast reverse photoreaction of visual pigment rhodopsin in the femtosecond time range at room temperature is demonstrated. Femtosecond two-pump probe experiments with a time resolution of 25 fs have been performed. The first pump pulse at 500 nm initiated cis-trans photoisomerization of rhodopsin chromophore, 11-cis retinal, which resulted in the formation of the primary ground-state photoproduct within a mere 200 fs. The second pump pulse at 620 nm with a varying delay of 200 to 3750 fs relative to the first pump pulse, initiated the reverse phototransition of the primary photoproduct to rhodopsin. The results of this photoconversion have been observed on the differential spectra obtained after the action of two pump pulses at a time delay of 100 ps. It was found that optical density decreased at 560 nm in the spectral region of bathorhodopsin absorption and increased at 480 nm, where rhodopsin absorbs. Rhodopsin photoswitching efficiency shows oscillations as a function of the time delay between two pump pulses. The quantum yield of reverse photoreaction initiated by the second pump pulse falls within the range 15% ± 1%. The molecular mechanism of the ultrafast reversible photoreaction of visual pigment rhodopsin may be used as a concept for the development of an ultrafast optical molecular switch. [ABSTRACT FROM AUTHOR]

Published

2014

6. Shedding New Light on Retinal Protein Photochemistry.

Author

Wand, Amir, Gdor, Itay, Zhu, Jingyi, Sheves, Mordechai, and Ruhman, Sanford

Subjects

PROTEINS, PHOTOCHEMISTRY, PHOTOISOMERIZATION, MOLECULAR probes, ENERGY transfer, MOLECULAR dynamics, BACTERIORHODOPSIN

Abstract

The ultrafast spectroscopic investigation of novel retinal proteins challenges existing notions concerning the course of primary events in these natural photoreceptors. We review two illustrations here. The first demonstrates that changes in the initial retinal configuration can alter the duration of photochemistry by nearly an order of magnitude in Anabaena sensory rhodopsin, making it as rapid as the ballistic photoisomerization in visual pigments. This prompted a reinvestigation of the much studied bacteriorhodopsin, leading to a similar trend as well, contrary to earlier reports. The second involves the study of xanthorhodopsin, an archaeal proton pump that includes an attached light-harvesting carotenoid. Pump-probe experiments demonstrate the efficient transfer of energy from carotenoid to retinal, providing a first glimpse at a cooperative multichromophore function, which is probably characteristic of many other proteins as well. Finally, we discuss measures required to advance our knowledge from kinetics to mode-specific dynamics concerning this expanding family of biological photoreceptors. [ABSTRACT FROM AUTHOR]

Published

2013

7. On the role of the triplet state in the cis/ trans isomerization of rhodopsin: A CASPT2//CASSCF study of a model chromophore.

Author

González‐Luque, Remedios, Olaso‐González, Gloria, Merchán, Manuela, Coto, Pedro B., Serrano‐Andrés, Luis, and Garavelli, Marco

Subjects

TRIPLET state (Quantum mechanics), ISOMERIZATION, RHODOPSIN, MATHEMATICAL models, PHOTOCHEMISTRY, HYDROGEN, QUANTUM chemistry, CHEMICAL reactions, QUANTUM perturbations

Abstract

The possibility of population of the lowest-lying triplet state ( T1) in the early events of the photochemical isomerization process of a model chromophore of Rhodopsin (Rh) has been analyzed using multireference perturbation theory (CASPT2//CASSCF) methods. It is shown that the characteristics of the isomerization process namely small S1− T1 gap, presence of hydrogen out of plane active vibrational modes, and existence of a dense manifold of vibrational states, render possible the fulfilment of the conditions needed for the population of T1. The possible consequences for the photochemistry and photophysics of Rh are also discussed. © 2011 Wiley Periodicals, Inc. Int J Quantum Chem 111:3431-3437, 2011 [ABSTRACT FROM AUTHOR]

Published

2011

8. Conical intersection dynamics of the primary photoisomerization event in vision.

Author

Polli, Dario, Altoè, Piero, Weingart, Oliver, Spillane, Katelyn M., Manzoni, Cristian, Brida, Daniele, Tomasello, Gaia, Orlandi, Giorgio, Kukura, Philipp, Mathies, Richard A., Garavelli, Marco, and Cerullo, Giulio

Subjects

PHOTOISOMERIZATION, VISION, RHODOPSIN, RETINA, MOLECULAR dynamics, SPECTRUM analysis, PHOTONS, PHOTOCHEMISTRY

Abstract

Ever since the conversion of the 11-cis retinal chromophore to its all-trans form in rhodopsin was identified as the primary photochemical event in vision, experimentalists and theoreticians have tried to unravel the molecular details of this process. The high quantum yield of 0.65 (ref. 2), the production of the primary ground-state rhodopsin photoproduct within a mere 200 fs (refs 3-7), and the storage of considerable energy in the first stable bathorhodopsin intermediate all suggest an unusually fast and efficient photoactivated one-way reaction. Rhodopsin's unique reactivity is generally attributed to a conical intersection between the potential energy surfaces of the ground and excited electronic states enabling the efficient and ultrafast conversion of photon energy into chemical energy. But obtaining direct experimental evidence for the involvement of a conical intersection is challenging: the energy gap between the electronic states of the reacting molecule changes significantly over an ultrashort timescale, which calls for observational methods that combine high temporal resolution with a broad spectral observation window. Here we show that ultrafast optical spectroscopy with sub-20-fs time resolution and spectral coverage from the visible to the near-infrared allows us to follow the dynamics leading to the conical intersection in rhodopsin isomerization. We track coherent wave-packet motion from the photoexcited Franck-Condon region to the photoproduct by monitoring the loss of reactant emission and the subsequent appearance of photoproduct absorption, and find excellent agreement between the experimental observations and molecular dynamics calculations that involve a true electronic state crossing. Taken together, these findings constitute the most compelling evidence to date for the existence and importance of conical intersections in visual photochemistry. [ABSTRACT FROM AUTHOR]

Published

2010

9. Mechanism of G-protein Activation by Rhodopsin.

Author

Shichida, Yoshinori and Morizumi, Takefumi

Subjects

RHODOPSIN, G proteins, PLANT photoreceptors, ISOMERIZATION, PHOTOCHEMISTRY

Abstract

Rhodopsin is a member of the family of G-protein-coupled receptors (GPCRs), and is an excellent molecular switch for converting light signals into electrical response of the rod photoreceptor cells. Light initiates cis– trans isomerization of the retinal chromophore of rhodopsin and leads to the formation of several thermolabile intermediates during the bleaching process. Recent investigations have identified spectrally distinguishable two intermediate states that can interact with the retinal G-protein, transducin, and have elucidated the functional sharing of these intermediates. The initial contact with GDP-bound G-protein occurs in the meta-Ib intermediate state, which has a protonated Schiff base as its chromophore. The meta-Ib intermediate in the complex with the G-protein converts to the meta-II intermediate with releasing GDP from the α-subunit of the G protein. Meta-II has a de-protonated Schiff base chromophore and induces binding of GTP to the α-subunit of the G-protein. Thus, the GDP–GTP exchange reaction, namely G-protein activation, by rhodopsin proceeds through at least two steps, with conformational changes in both rhodopsin and the G-protein. [ABSTRACT FROM AUTHOR]

Published

2007

10. Photochemistry: A coherent picture of vision.

Author

Mathies, Richard A.

Subjects

PHOTOCHEMISTRY, PHOTOEXCITATION, ISOMERIZATION kinetics, VISION research, RHODOPSIN, SPECTRUM analysis

Abstract

The article discusses spectroscopic studies on the transition from the reactant photoexcited-state to the ground-state photoproduct. The said studies discussed the isomerization of the retina in rhodopsin, which is known to occur through a conical intersection between potential energy sources that connect the said states. It cites the study of Miller and colleagues on the analysis of vision through the use of an ultrafast heterodyne-detected transient grating spectroscopy.

Published

2015

11. The First Step in Vision Occurs in Femtoseconds: Complete Blue and Red Spectral Studies

Author

Peteanu, Linda A., Schoenlein, Robert W., Wang, Qing, Mathies, Richard A., and Shank, Charles V.

Published

1993

12. Advancements and Prospects in Continuous Wave Time-resolved Electron Paramagnetic Resonance

Author

Zhang, Shixue, Zhou, Shengqi, Wu, Hao, and Guo, Xingwei

Published

2024

13. Computational Photocatalysis: Modeling of Photophysics and Photochemistry at Interfaces

Author

Dmitri Kilin, Svetlana Kilina, Yulun Han, Talgat Inerbaev, Aaron Forde, Stephanie J. Jensen, Shuping Huang, Yuruo Hua, Dimitri S. Kilin, Tijo Vazhappilly, David A. Micha, Dong Wang, Fei Li, Jian-Fu Chen, Hai-Feng Wang, Xiao-Ming Cao, Peijun Hu, Xue-Qing Gong, Brendan Barrow, Dhara J. Trivedi, Peng Cui, Mohammed Jabed, Dayton J. Vogel, Andrei Kryjevski, Brendan J. Gifford, Dan Ren, Jing Gao, Michael Grätzel, Henrik H. Kristoffersen, Jin Hyun Chang, Yu Zhang, Tammie Nelson, Sergei Tretiak, Bakhtiyor Rasulev, Ana Lončarić Božić, Dionysios D. Dionysiou, Hrvoje Kušić, Artem Pimachev, Robert D. Nielsen, Anri Karanovich, Vitaly Proshchenko, Yuri Dahnovsky, Xin-Ping Wu, Donald G. Truhlar, Clint N. Evrard, Andrew D. Mahler, Lee M. Thompson, Dmitri Kilin, Svetlana Kilina, Yulun Han, Talgat Inerbaev, Aaron Forde, Stephanie J. Jensen, Shuping Huang, Yuruo Hua, Dimitri S. Kilin, Tijo Vazhappilly, David A. Micha, Dong Wang, Fei Li, Jian-Fu Chen, Hai-Feng Wang, Xiao-Ming Cao, Peijun Hu, Xue-Qing Gong, Brendan Barrow, Dhara J. Trivedi, Peng Cui, Mohammed Jabed, Dayton J. Vogel, Andrei Kryjevski, Brendan J. Gifford, Dan Ren, Jing Gao, Michael Grätzel, Henrik H. Kristoffersen, Jin Hyun Chang, Yu Zhang, Tammie Nelson, Sergei Tretiak, Bakhtiyor Rasulev, Ana Lončarić Božić, Dionysios D. Dionysiou, Hrvoje Kušić, Artem Pimachev, Robert D. Nielsen, Anri Karanovich, Vitaly Proshchenko, Yuri Dahnovsky, Xin-Ping Wu, Donald G. Truhlar, Clint N. Evrard, Andrew D. Mahler, and Lee M. Thompson

Subjects

Structure-activity relationships (Biochemistry), Water--Purification, Ions, Vanadium, Nanopores, Titanium, Catalysis, Photochemistry--Mathematical models, Photocatalysis--Mathematical models, Relaxation, Semiconductors, Photochemistry

Published

2019

14. Photochemistry: UV/VIS Spectroscopy, Photochemical Reactions and Photosynthesis

Author

Willems, Jaime M., Maes, Karen J., Willems, Jaime M., and Maes, Karen J.

Subjects

Photochemistry

Abstract

This new book presents current research in the study of photochemistry, including novel electron-transfer three-component visible light photoinitiating systems; photolabile molecules as light-activated switches to control biomolecular and biomaterial properties; organic photochemistry with computational methods; photoinduced transformation processes in surface waters and photochemical processes in needles of overwintering evergreen conifers.

Published

2011

15. Understanding and Manipulating Excited-State Processes

Author

V. Ramamurthy, Kirk S. Schanze, V. Ramamurthy, and Kirk S. Schanze

Subjects

Photochemistry, Excited state chemistry

Abstract

A state-of-the-art review of original research, this book includes discussions of intramolecular photoadditoin of nucleophiles, electrophiles, and radical species to the activated aromatic ring; new methods for regio-, anantio-, and diastereoselective photooxygenations involving singlet oxygen mechanisms; and applications of microreactors for photo

Published

2001