Electrogenicity of Electron and Proton Transfer at the Oxidizing Side of Photosystem II † (original) (raw)
Comparative properties of hydroquinone and hydroxylamine reduction of the calcium-stabilized oxygen-evolving complex of photosystem II: reductant-dependent manganese(2+) formation and activity inhibition
Charles Yocum
Biochemistry, 1992
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Structural organization of the oxidizing side of photosystem II. Exogenous reductants reduce and destroy the Mn-complex in photosystems II membranes depleted of the 17 and 23 kDa polypeptides
Charles Yocum
Biochimica et Biophysica Acta (BBA) - Bioenergetics, 1984
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Oxygen-induced changes in the redox state of the cytochrome b 559 in photosystem II depend on the integrity of the Mn cluster
Fikret Mamedov
Physiologia Plantarum, 2007
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Reduction-Induced Inhibition and Mn(II) Release from the Photosystem II Oxygen-Evolving Complex by Hydroquinone or NH2OH Are Consistent with a Mn(III)/Mn(III)/Mn(IV)/Mn(IV) Oxidation State for the Dark-Adapted Enzyme
Charles Yocum
Biochemistry, 2005
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Assembly of the Tetra-Mn Site of Photosynthetic Water Oxidation by Photoactivation: Mn Stoichiometry and Detection of a New Intermediate †
Gennady Ananyev
Biochemistry, 1996
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Proximity of the Manganese Cluster of Photosystem II to the Redox-Active Tyrosine Y~ Z
Lane Gilchrist
…, 1995
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In Vivo Analysis of the Electron Transfer within Photosystem I: Are the Two Phylloquinones Involved?
P. Joliot
Biochemistry, 1999
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Polypeptides of photosystem II and their role in oxygen evolution
Charles Yocum
Photosynthesis Research, 1985
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Proton-Coupled Electron Transfer Involving Tyrosine Z in Photosystem II†
Henriette Kuehne
2002
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Structural organization of proteins on the oxidizing side of photosystem II. Two molecules of the 33-kDa manganese-stabilizing protein per reaction center. J Biol Chem 267:25816-25821
Terry Bricker
Journal of Biological Chemistry
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Multiple Redox-Active Chlorophylls in the Secondary Electron-Transfer Pathways of Oxygen-Evolving Photosystem II
Cara Tracewell
Biochemistry, 2008
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Isolation and characterization of an oxygen-evolving Photosystem II reaction center core preparation and a 28 kDa Chl-a-binding protein
Charles Yocum
Biochimica Et Biophysica Acta - Bioenergetics, 1987
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Mn2+ reduces Yz + in manganese-depleted Photosystem II preparations
Charles Yocum
Photosynthesis Research, 1989
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Two-Electron Reactions S2QB → S0QB and S3QB → S1QB are Involved in Deactivation of Higher S States of the Oxygen-Evolving Complex of Photosystem II
Esa Tyystjärvi
Biophysical Journal, 2009
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Water-splitting manganese complex controls light-induced redox changes of cytochrome b 559 in Photosystem II
Arjun Tiwari
Journal of bioenergetics and …, 2010
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Spectroscopic Characterization of Intermediate Steps Involved in Donor-Side-Induced Photoinhibition of Photosystem II †
Caroline Jegerschöld
Biochemistry, 1996
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Photoassembly of the manganese cluster and oxygen evolution from monomeric and dimeric CP47 reaction center photosystem II complexes
Grace Dismukes
Proceedings of the National Academy of Sciences, 1999
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Carotenoid Photooxidation in Photosystem II
Cara Tracewell
Archives of Biochemistry and Biophysics, 2001
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Mechanism of MnII oxidation by the extrinsic 33 kDa protein of photosystem II
Mukesh Raval
Plant Science, 1994
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Two tyrosines that changed the world: Interfacing the oxidizing power of photochemistry to water splitting in photosystem II
Fikret Mamedov
2012
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Ligation of D1-His332 and D1-Asp170 to the Manganese Cluster of Photosystem II from Synechocystis Assessed by Multifrequency Pulse EPR Spectroscopy †
Rachel Service
Biochemistry, 2011
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The S1 split signal of photosystem II; a tyrosine–manganese coupled interaction
Ron Pace
Biochimica et Biophysica Acta (BBA) - Bioenergetics, 2009
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Orientation of Calcium in the Mn 4 Ca Cluster of the Oxygen-Evolving Complex Determined Using Polarized Strontium EXAFS of Photosystem II Membranes †
Carmen Fernandez
Biochemistry, 2004
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Two Redox-Active β-Carotene Molecules in Photosystem II
Cara Tracewell
Biochemistry, 2003
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Specific Isotopic Labeling and Photooxidation-linked Structural Changes in the Manganese-stabilizing Subunit of Photosystem II
Roseann Sachs
Journal of Biological Chemistry, 2003
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β-Carotene Redox Reactions in Photosystem II: Electron Transfer Pathway †
atemene pascal
Biochemistry, 2001
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Changes in the Functional and Structural Properties of the Mn Cluster Induced by Replacing the Side Group of the C-Terminus of the D1 Protein of Photosystem II †
Asako Ishii
Biochemistry, 2004
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The assembly of protein subunits and cofactors in photosystem I
Wolfram Saenger
Current Opinion in Structural Biology, 2002
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Influence of the Redox Potential of the Primary Quinone Electron Acceptor on Photoinhibition in Photosystem II
Christian Fufezan
Journal of Biological Chemistry, 2007
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A photosystem II electron acceptor which is not a plastoquinone
P. Joliot
FEBS Letters, 1981
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On the functional site of manganese in photosynthetic oxygen evolution
Robert Heath
Biochimica et Biophysica Acta (BBA) - Bioenergetics, 1969
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Proton release during the redox cycle of the water oxidase
Wolfgang Junge
Photosynthesis Research, 1993
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Identification of Oxidized Amino Acid Residues in the Vicinity of the Mn4CaO5 Cluster of Photosystem II: Implications for the Identification of Oxygen Channels within the Photosystem
Terry Bricker
Biochemistry, 2012
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Deprotonation of the 33-kDa, Extrinsic, Manganese-stabilizing Subunit Accompanies Photooxidation of Manganese in Photosystem II
Charles Yocum
Journal of Biological Chemistry, 1999
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