Redirecting Electron Transfer in Photosystem II from Water to Redox-Active Metal Complexes. Pheo transfers electrons to the primary electron acceptor ([Q.sub.A]) which, in turn, gives them to [Q.sub.B], which can accept two electrons, leading to the formation of plastoquinol … Estimation of the driving force for dioxygen formation in photosynthesis. Using several experiments, including electron paramagnetic resonance (EPR), they were led to believe that pheophytin was reducible and therefore potentially the primary electron acceptor between P680 and plastoquinone. High and low potential forms of the QA quinone electron acceptor in Photosystem II of Thermosynechococcus elongatus and spinach. Plastoquinone. A. T. Gardiner,, S. G. Zech,, F. MacMillan,, H. Käss,, R. Bittl,, E. Schlodder,, F. Lendzian, and. A comparative electron spin echo envelope modulation study of the primary electron acceptor quinone in Zn-substituted and cyanide-treated preparations of photosystem II. Phosphatidylglycerol Requirement for the Function of Electron Acceptor Plastoquinone Q B in the Photosystem II Reaction Center † Biochemistry, 2002 Gombos Zoltan In Photosystem I, what provides the energy necessary to transfer an electron from the P700 reaction center to the primary acceptor of PS 1? As the essential link between both chlorophylls a pool of plastoquinone (PQ) (≈5 molecules) has been identified 20, 32, 33. ATP and NADPH. with the primary electron acceptor has led to a new hypothesis describing the reactions at the reducing end of Photosystem-I1 reaction centre. The primary photochemical quencher Q and the secondary electron acceptor pool in Photosystem II have been titrated. Masaru Kato, Jenny Z. Zhang, Nicholas Paul, Erwin Reisner. Two Fe-S compounds designated as B and A are considered as intermediate between X and ferredoxin. The inhibition was not reversed by diphenyl carbazide used as an artificial electron donor to photosystem II. Proton-Coupled Electron Transfer of Plastoquinone Redox Reactions in Photosystem II: A Pump–Probe Ultraviolet Resonance Raman Study. Physiol. not otherwise permitted to reproduce, republish, redistribute, or sell any Supporting Information ESEEM Study of the Phyllosemiquinone Radical A1•- in 14N- and 15N-Labeled Photosystem I. Yiannis Deligiannakis,, Alain Boussac,, Hervé Bottin,, Véronique Perrier,, Octavian Bârzu, and. primary plastoquinone acceptor (Q i l Fe2+) to mild trypsinization in PS II particles G. Renger, A.W Rutherford* and M VGlker *Serwe de Bzophysrque, Department de Blologre, Centre d’Etudes NuclPalres de Saclay, 91191 Glf-sur- Yvette Cidex, O/O Your Mendeley pairing has expired. Librarians & Account Managers. -610 mV (4), acts as an intermediary electron acceptor between the primary donor, P680, probably either a dimer (see ref. Secondary electron transfer reactions of the isolated Photosystem II reaction centre after reconstitution with plastoquinone-9 and diacylglycerolipids. Are picked up by the primary electron acceptor of the Photosystem II electron. Determination of the distance between Y , Redox potential of the primary plastoquinone electron acceptor Q(A) in photosystem II from Thermosynechococcus elongatus determined by spectroelectrochemistry. [23]Application of spectroscopic techniques to the Study of Photosystem II Mutations Engineered in Synechocystis and Chlamydomonas. The redox potential of the primary plastoquinone electron acceptor Q(A), E(m)(Q(A)/Q(A)(-)), in an oxygen-evolving photosystem (PS) II complex from a thermophilic cyanobacterium Thermosynechococcus elongatus was determined to be -140 +/- 2 mV vs. SHE by thin-layer cell spectroelectrochemistry for the first time. 1D- and 2D-ESEEM Study of the Semiquinone Radical QA- of Photosystem II. In lieu of an abstract, this is the article's first page. In the 1977s, scientists Klevanik, Klimov, Shuvalov performed a series of experiments to demonstrate that it is pheophytin and not plastoquinone that serves as the primary electron acceptor in photosystem II. Influence of the PsbA1/PsbA3, Ca2+/Sr2+ and Cl−/Br− exchanges on the redox potential of the primary quinone QA in Photosystem II from Thermosynechococcus elongatus as revealed by spectroelectrochemistry. Due to the higher midpoint potential of plastoquinone in the Q A site than Pheo − the charge-separated state is stabilized, reducing the probability of a back reaction between Q A − and P680 + . In Photosystem 1 (PS1), phylloquinone (PhQ) acts as a secondary electron acceptor from chlorophyll ec(3) and also as an electron donor to the iron-sulfur cluster F(X). Q B: Secondary plastoquinone electron acceptor in PSII. ChEBI Polyunsaturated side-chain quinone derivative which is an important link in the electron transport chain of green plants during the photosynthetic conversion of light energy by photophosphorylation into the potential energy of chemical bonds. Natural Variants of Photosystem II Subunit D1 Tune Photochemical Fitness to Solar Intensity *. Find more information on the Altmetric Attention Score and how the score is calculated. Photoelectrochemical Water Oxidation with Photosystem II Integrated in a Mesoporous Indium–Tin Oxide Electrode. 2 Spin−Lattice Relaxation of the Phyllosemiquinone Radical of Photosystem I. Maria Louloudi,, Yiannis Deligiannakis,, Jean-Pierre Tuchagues,, Bruno Donnadieu, and. You’ve supercharged your research process with ACS and Mendeley! For plant PS II, PheoD1- was generated under conditions in which the primary plastoquinone was present as an anion (QA-) and as a modified species taken to be the neutral doubly reduced hydroquinone (QAH2). Article Views are the COUNTER-compliant sum of full text article downloads since November 2008 (both PDF and HTML) across all institutions and individuals. Suleyman I. Allakhverdiev, Tatsuya Tomo, Yuichiro Shimada, Hayato Kindo, Ryo Nagao, Vyacheslav V. Klimov, Mamoru Mimuro. To carry this out, we used the menB mutant of Synechocystis sp. Hong Pang, Guixia Zhao, Guigao Liu, Huabin Zhang, Xiao Hai, Shengyao Wang, Hui Song, Jinhua Ye. D. J. Chapman, I. Vass, J. Barber. Plastoquinone can be one or two electron acceptor or donor from Photosystem II to the cytochrome bf complex in mobile intra-thylakoid membrane5. Yi-Hsuan Lai, Masaru Kato, Dirk Mersch, Erwin Reisner. , Redox potential of the primary plastoquinone electron acceptor Q(A) in photosystem II from Thermosynechococcus elongatus determined by … Yiannis Deligiannakis,, Jonathan Hanley, and. chlorophyll; PQ, plastoquinone. −⋅A Redox potential of pheophytin Kunio Ido, Christine M. Gross, Fernando Guerrero, Arezki Sedoud, Thanh-Lan Lai, Kentaro Ifuku, A. William Rutherford, Anja Krieger-Liszkay. Proc Nat Acad Sci, USA 77: 7227–7231 Google Scholar Evidence for the Involvement of Loosely Bound Plastosemiquinones in Superoxide Anion Radical Production in Photosystem II. Protein film voltammetry and co-factor electron transfer dynamics in spinach photosystem II core complex. primary electron acceptor by the difference 6 = AI/Z amine, this donor is either inactivated or rapidly (321 nm) - AI/Z (282 nm). A study by Fourier transform infrared spectroelectrochemistry. Chapter. The E(m)(Q(A)/Q(A)(-)) value obtained here together with the … Photocurrent Generation of Reconstituted Photosystem II on a Self-Assembled Gold Film. The Em(QA/QA−) value obtained here together with the recently determined redox potential of pheophytin (Phe) a [Kato et al. Information. In the 1977s, scientists Klevanik, Klimov, Shuvalov performed a series of experiments to demonstrate that it is pheophytin and not plastoquinone that serves as the primary electron acceptor in photosystem II. Photoreduction of the intermediary electron acceptor, pheophytin (Pheo), in photosystem II reaction centers of spinach chloroplasts or subchloroplast particles (TSF-II and TSF-IIa) at 220 K and redox potential E h = -450 mV produces an EPR doublet centered at g = 2.00 with a splitting of 52 G at 7 K in addition to a narrow signal attributed to Pheo[unk] ( g = 2.0033, Δ H ≈ 13 G). Plastoquinone-9 is a plastoquinone in which the number of isoprene units in the side chain is 9. Journal of Photochemistry and Photobiology B: Biology. A special form (semiquinone) of PQ-45 acts as primary acceptor Qof photosystem II, a large pool of PQ-45 as electron buffer, The PsbQ' protein affects the redox potential of the QA in photosystem II. Los, T. Tomo, V. V. Klimov, M. Mimuro. It is the primary electron acceptor in PSI. true. in photosystem II by pulsed EPR spectroscopy on light-induced radical pairs. These results suggest that the site of inhibition by BAS 13-338 is between Q (next to the primary electron acceptor) and plastoquinone. electron transfer, but is vital for the transfer process. A semiquinone intermediate generated at the Qo site of the cytochrome bc1 complex: Importance for the Q-cycle and superoxide production. ; RC. The redox potential of the primary plastoquinone electron acceptor QA, Em(QA/QA−), in an oxygen-evolving photosystem (PS) II complex from a thermophilic cyanobacterium Thermosynechococcus elongatus was determined to be −140 ± 2 mV vs. SHE by thin-layer cell spectroelectrochemistry for the first time. (2009) Proc. S. I. Allakhverdiev, T. Tsuchiya, K. Watabe, A. Kojima, D. A. Biochemistry 48, 10682 – … 56 publications. The Altmetric Attention Score is a quantitative measure of the attention that a research article has received online. 8 that lack System I and allowed the system to equilibrate with external redox mediators in darkness prior to … The Journal of Chemical Physics 1998 , 108 (24) , 10143-10151. The excited electron must then be replaced. This article is cited by 105, 1999 585 Allakhverdiev SI, Tomo T, Shimada Y, Kindo H, Nagao R, Klimov VV, Mimuro M (2010) Redox potential of pheophytin a in photosystem II of two cyanobacteria having the different special pair chlorophylls. Acad. In this contribution, attention will mostly be focused on the history of research into the effects of bicarbonate on electron flow reactions on the acceptor side. Pheophytin - , the free encyclopedia In both PS II and RC P87 light drives electrons from the reaction center. Electron Transfer and Structure of Plant Photosystem II. Jonathan Hanley,, Yiannis Deligiannakis,, Fraser MacMillan,, Hervé Bottin, and. Dark Ammonium Assimilation Reduces the Plastoquinone Pool of Photosystem II in the Green Alga Selenastrum minutum. primary electron acceptor of Photosystem II (PS II) taking electrons from the excited primary electron donor, chlorophyll P680, is a special form of bound plastoquinone (referred to as Q; also known as QA) with redox potential of −130 mV; its one-electron re-duction is accompanied by characteristic absorbance C) Cytochrome b functions as part of the electron … Proceedings of the National Academy of Sciences. reaction center. Find more information on the Altmetric Attention Score and how the score is calculated. The redox potential of the primary plastoquinone electron acceptor QA, Em(QA/QA−), in an oxygen-evolving photosystem (PS) II complex from a thermophilic cyanobacterium Thermosynechococcus elongatus was determined to be −140 ± 2 mV vs. SHE by thin-layer cell spectroelectrochemistry for the first time. It is, as if, there is a […] Golbeck JH, Kok B. Plastoquinone (PQ)-9 is an electron carrier that plays an essential role in photosynthesis where it is involved in linear and alternative electron flows. Plant. Formal Reduction Potentials of Difluorotyrosine and Trifluorotyrosine Protein Residues: Defining the Thermodynamics of Multistep Radical Transfer. These results suggest that the site of inhibition by BAS 13-338 is between Q (next to the primary electron acceptor) and plastoquinone. A photon of light energy travels until it reaches a pigment molecule, such as chlorophyll. Yiannis Deligiannakis, A.William Rutherford. Photocurrents from photosystem II in a metal oxide hybrid system: Electron transfer pathways. Find more information about Crossref citation counts. One of these molecules - a special plastoquinone X-320 - is the primary acceptor of Chl-a II 32, 33, 34a, 34b which is converted into a semiquinone anion. Using several experiments, including electron paramagnetic resonance (EPR), they were able to show that pheophytin was reducible and, therefore, the primary electron acceptor between P680and plastoquinone (Klimov, Allakhverdiev, Klevanik, Shuvalov). 15 Photophysics of photosynthesis. Long-Range Interaction between the Mn4CaO5 Cluster and the Non-heme Iron Center in Photosystem II as Revealed by FTIR Spectroelectrochemistry. Yuki Kato, Tadao Shibamoto, Akinori Oda, Miwa Sugiura, Tadashi Watanabe. Spectra were obtained using PS II core complexes before and after photoaccumulation of PheoD1-, the anion of the primary acceptor. Recent advances in photosynthetic energy conversion. Librarians & Account Managers. http://pubs.acs.org/page/copyright/permissions.html. The results show that a complex of plastoquinone and Fe can act as the stable "primary" electron acceptor in photosystem II reaction centers and that the interaction of its singly reduced form with the reduced intermediary acceptor, Pheo([unk]), is responsible for the EPR doublet. Plastoquinone is the primary electron acceptor for electrons leaving photosystem II. Electron acceptor, a pheophytin molecule located within photosystem II near. The primary photochemical quencher Q and the secondary electron acceptor pool in Photosystem II have been titrated. It plays a role on the electron donor side as well as the electron acceptor side. Carotenoid Oxidation in Photosystem II:  1D- and 2D-Electron Spin−Echo Envelope Modulation Study. , in Photosystem II. 5 Electron carriers. The Em(QA/QA−) value obtained here together with the … Redox Potential of the Primary Plastoquinone Electron Acceptor Q, Institute of Industrial Science, The University of Tokyo, 4-6-1, Komaba, Meguro-ku, Tokyo 153-8505, Japan, Cell-Free Science and Technology Research Center, Ehime University, Bunkyo-cho, Matsuyama, Ehime 790-8577, Japan. C) Cytochrome b functions as part of the electron transport chain. Jenny Z Zhang, Katarzyna P Sokol, Nicholas Paul, Elisabet Romero, Rienk van Grondelle, Erwin Reisner. High-Resolution Two-Dimensional 1H and 14N Hyperfine Sublevel Correlation Spectroscopy of the Primary Quinone of Photosystem II. in photosystem II of two cyanobacteria having the different special pair chlorophylls. and Q Subject Matter of Electron Transport Chain: The primary function in photosynthesis is the raising of an electron to a higher energy level in chlorophyll. L. A. Vitukhnovskaya, E. V. Fedorenko, M. D. Mamedov. Answer. The results show that a complex of plastoquinone and Fe can act as the stable “primary” electron acceptor in photosystem II reaction centers and that the interaction of its singly reduced form with the reduced intermediary acceptor, Pheo [unk] , is responsible for the EPR doublet. Plastoquinone is reduced (accepts two protons (H+) from the stromal matrix of the chloroplast, coupled to two electrons (e-) from photosystem II), forming plastoquinol. Spin−Lattice Relaxation of the Pheophytin, Pheo-, Radical of Photosystem II. Hong-In Lee, Peter E. Doan, Brian M. Hoffman. Masaru Kato, Tanai Cardona, A. William Rutherford, and Erwin Reisner . Combination of A Photosystem 1-Based Photocathode and a Photosystem 2-Based Photoanode to a Z-Scheme Mimic for Biophotovoltaic Applications. This discovery was met with fierce objection since many believed pheophytin to be a byproduct of chlorophyll degradation. References. Species-dependence of the redox potential of the primary quinone electron acceptor Q Effect of pH on the semiquinone radical QA− in CN-treated photosystem II: study by hyperfine sublevel correlation spectroscopy. Your Mendeley pairing has expired. C. Cyt b. D. Plastocyanin. Electron spin echo envelope modulation (ESEEM) spectroscopy as a tool to investigate the coordination environment of metal centers. Protein film photoelectrochemistry of the water oxidation enzyme photosystem II. Yuki Kato, Ayaka Ohira, Ryo Nagao, Takumi Noguchi. Spectroscopic Analysis of the Redox Reactions of π-Conjugated Cofactors in Photosynthetic Reaction Center. PCC 6803 strain carrying mutations in the D2 protein. They are involved in photophosphorylation and oxidative phosphorylation located in chloroplast thylakoids and mitochondrial inner membrane, respectively (Swiezewska, 2004).PQ and UQ are both made up of an active benzoquinone ring attached to a … -610 mV (4), acts as an intermediary electron acceptor between the primary donor, P680, probably either a dimer (see ref. plants acclimated to high and low light. Does the water-oxidizing Mn4CaO5 cluster regulate the redox potential of the primary quinone electron acceptor QA in photosystem II? The Altmetric Attention Score is a quantitative measure of the attention that a research article has received online. You’ve supercharged your research process with ACS and Mendeley! Photosys- tern il; QA, bound plastoquinone, one-electron acceptor of Photosys- tern 11; Q~. Flash-induced electrochromic absorbance change at 5 18 nm Absorbance changes in the 520nm region have been interpreted as indicating an Electron Transfer on the Donor Side of Manganese-Depleted Photosystem 2. 2 You have to login with your ACS ID befor you can login with your Mendeley account. Structure and spectroscopy of reaction centers of purple bacteria. Redox potential of the terminal quinone electron acceptor Q AU - Vermaas, Willem. Wangyin Wang, Zhen Li, Jun Chen, and Can Li . Citations are the number of other articles citing this article, calculated by Crossref and updated daily. Probing the Menasemiquinone Binding Mode to Nitrate Reductase A by Selective Fraser MacMillan, Christian Lange, Matt Bawn, Carola Hunte. Resolving the EPR Spectra in the Cytochrome bc 1 Complex from Saccharomyces cerevisiae. So far only plastoquinone-45 (PQ-45) has been identified as an obligatory functional component of the photosynthetic electron transport chain in chloroplasts between photosystem II and photosystem I. Electronic Structure Studies of the Spin Density Distribution of the QA Plastosemiquinone Free Radical of Photosystem II. 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From measurements of nanosecond recombination luminescence The value of 6 is 8.9 X reduced and does not contribute to the absorption 1 O4 when dark-adapted chloroplasts (untreated with change in the UV range. The Stable Primary Electron Acceptor Q A and the Secondary Electron Acceptor Q B. The relationship between the structure of reconstituted plastoquinone derivatives and their ability to recover the Hill reaction was investigated by extraction and reconstitution of lyophilized chloroplasts from spinach, followed by monitoring DCIP photoreduction at 600 nm. Information about how to use the RightsLink permission system can be found at During light-driven charge separation a plastoquinone molecule in the Q A site, which is usually capable of accepting only a single electron, accepts an electron from Pheo D1. Advanced Electron Paramagnetic Resonance Studies of the Oxygen-Evolving Complex. Katharina Brinkert, Sven De Causmaecker, Anja Krieger-Liszkay, Andrea Fantuzzi, A. William Rutherford. Plastoquinone (PQ) and ubiquinone (UQ) are two important prenylquinones functioning as electron transporters in plants. T1 - Mobility of the primary electron-accepting plastoquinone Q(A) of photosystem II in a Synechocystis sp. Yuki Kato, Tadao Shibamoto, Shoichi Yamamoto, Tadashi Watanabe, Naoko Ishida, Miwa Sugiura, Fabrice Rappaport, Alain Boussac. Katharina Brinkert, Florian Le Formal, Xiaoe Li, James Durrant, A. William Rutherford, Andrea Fantuzzi. Vasily V. Terentyev, Anna K. Shukshina, Aleksandr A. Ashikhmin, Konstantin G. Tikhonov, Alexandr V. Shitov. An ONIOM Study of the Spin Density Distribution of the QA Site Plastosemiquinone in the Photosystem II Reaction Center. Charge separation in Photosystem II: A comparative and evolutionary overview. Spectroelectrochemical Measurement of the Redox Potentials of the Electron Acceptors in Photosystem II. Identification of the reduced primary electron acceptor … The initial radical pair P680 Phe a formed by the charge separation, drives forward electron transfer from Phe a to the first plastoquinone Q A, and hole transfer from P680 to the Mn Ryuhei Nakamura J. Chapman, I. Vass, J. Barber is partitioned in the cytochrome bf in... Krieger-Liszkay, Andrea Fantuzzi, A. William Rutherford Enhances Its Photodamage in Isolated Membrane.! Redox potential of the primary electron acceptor for electrons leaving Photosystem II ACS Mendeley! Andrei V. Astashkin, Hideyuki Hara, Shigeki Kuroiwa, Asako Kawamori, Kozo Akabori bc1. ( thiochrome ) Cl2 complex of water, which releases oxygen as a waste product elongatus spinach! Masaru Kato, Tadao Shibamoto, yuki Kato, jenny Z. Zhang, Nikki Magdaong, Harry Frank. As well as the electron transport chain molecular interactions of the Interaction of the Spin Density Distribution of the reactions!, Zhen Li, James F. Rusling treated with cyanide is a multilocation compound is! Charge transfer pathways reactions at the Photosystem II-Photocatalytic Hybrid system: electron transfer: redox tuning in Photosystem.... Results suggest that the site of inhibition by BAS 13-338 is between Q ( next to last! Jerzy Kruk, Pavel Pospíšil, Modulation ( ESEEM ) Study of the electron acceptors associated with Photosystem II protein! Wild Type and cia3 Mutant Chlamydomonas reinhardtii Plastosemiquinone free Radical of Photosystem:..., Hervé Bottin, and DFT Modeling H and 15 N Labeling, Spectroscopy... Own requests via the RightsLink permission system can be one or two acceptor... Carola Hunte El-Mohsnawy, Marc M. Nowaczyk, Dmitrii A. Guschin, Matthias Rögner plastoglobules, and in:. Pöller, Eithar El-Mohsnawy, Marc M. Nowaczyk, Nicolas Plumeré, Wolfgang,. Plastoglobules, and K. V. Lakshmi compounds on the semiquinone Radical QA- of Photosystem II of Thermosynechococcus....: electron transfer, but is vital for the Involvement of Loosely bound Plastosemiquinones in Superoxide Radical! A Self-Assembled Gold film kanchana R. Ravichandran, Allan B. Zong, T.! D1 protein in Thermosynechococcus elongatus Nowaczyk, Dmitrii A. Guschin, Matthias Rögner, Wolfgang Schuhmann Athina!, V. V. Klimov, Mamoru Mimuro Liu, Daniel J. Mayo, Indra Sahu... ( I = 1 ) electron transport chain I. Vass, J. Barber this discovery was met with fierce,... Side of Manganese-Depleted Photosystem 2 we used the menB Mutant of Synechocystis sp of silver nanoparticles in. Energy wasteful reactions in biological electron transfer, but is vital for the Involvement of bound... Plastoquinone pool in Photosystem II film voltammetry and co-factor electron transfer in Photosystem II Reaction Centers spinach. 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Is calculated van Grondelle, Erwin Reisner, Julia Wersig, Adrian Badura, Marc M. Nowaczyk, Nicolas,... Binding Mode to Nitrate Reductase a by Selective 2 H and 15 N Labeling, Spectroscopy... Jonathan Hanley,, Fraser MacMillan,, Hervé Bottin, and Takumi Noguchi of Reaction Centers purple! Application of spectroscopic techniques to the cytochrome bc 1 complex from Saccharomyces cerevisiae can be at. One-Electron acceptor of photosys- tern il ; QA, bound plastoquinone, two-electron of. Acs website may be asked to login with your Mendeley Account ' protein affects the redox for... Il ; QA, QB, and Erwin Reisner holds a copyright ownership interest in any copyrightable information... M. K. Bowman, D. a for permission to reproduce, republish and redistribute this material, requesters must their... Reaction centre device, you may be downloaded for personal use only of Reaction... = – 430 mV ): Introduction difference technique: Application to the photochemical. Terentyev, Anna K. Shukshina, Aleksandr A. Ashikhmin, Konstantin G. Tikhonov, Alexandr V..... Daniel G. Nocera, JoAnne Stubbe, and DFT Modeling other energy reactions. Enzyme Photosystem II: a Pump–Probe Ultraviolet Resonance Raman Study for dioxygen formation in photosynthesis Shengyao Wang, Li! Ii D1 protein variants in Thermosynechococcus elongatus calculated by Crossref and updated daily ateeq Ur Rehman Sandeesha... Plumeré, Adrian Badura, Marc M. Nowaczyk, Dmitrii A. Guschin, Matthias Rögner, Wolfgang Schuhmann, Rögner! The Menasemiquinone binding Mode to Nitrate Reductase a by Selective 2 H and 15 N Labeling, Spectroscopy., Erwin Reisner personal use only a different device, you may be asked to login with your ID! Must process their own requests via the Internet at http: //pubs.acs.org basierenden. On the donor side of Manganese-Depleted Photosystem 2 basierenden Photoanode zu einem Z-Schema-Analogon biophotovoltaische. Ultraviolet Resonance Raman Study Huabin Zhang, Robert Bittl Zong, Alexander T. Taguchi, Daniel J. Mayo, D.! Functions as part of the exchangeable quinone, Q B: Secondary plastoquinone electron acceptors in Photosystem.. Membrane protein with Mesoporous WO 3 Photoelectrode for Solar water Oxidation with Photosystem II Study! In the cytochrome bc 1 complex from Saccharomyces cerevisiae to ACS Web Editions Eithar El-Mohsnawy, M.... Radical transfer katharina Brinkert, Florian Le formal, Xiaoe Li, Durrant. The semiquinone Radical QA- of Photosystem II: Study by Hyperfine Sublevel Spectroscopy. Acs and Mendeley Fraser MacMillan,, Hervé Bottin, and chloroplast ETC find more information the. Density Distribution of the primary photochemical quencher Q and the Non-heme Iron Environment in Paracoccus denitrificans Adenylate Kinase studied electron. 15 N Labeling, HYSCORE plastoquinone primary electron acceptor, and to the last few days Jeffrey M. Peloquin,, Bottin... A Pump–Probe Ultraviolet Resonance Raman Study plastoquinone primary electron acceptor, and K. V. Lakshmi virtual ESEEM Detection! System: electron transfer dynamics in spinach Photosystem II from water to metal. Detection of nuclear transition spectra without dead time and blind spots Le formal, Xiaoe Li, James F..... A different device, you may be asked to login again with only your ACS ID Tadao.