FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
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Artificial photosynthesis: understanding water splitting in natureStructure of Sr-substituted photosystem II at 2.1 A resolution and its implications in the mechanism of water oxidationRevealing how nature uses sunlight to split water. IntroductionHydration of the oxygen-evolving complex of photosystem II probed in the dark-stable S1 state using proton NMR dispersion profiles.Evidence from FTIR difference spectroscopy of an extensive network of hydrogen bonds near the oxygen-evolving Mn(4)Ca cluster of photosystem II involving D1-Glu65, D2-Glu312, and D1-Glu329Ammonia binding to the oxygen-evolving complex of photosystem II identifies the solvent-exchangeable oxygen bridge (μ-oxo) of the manganese tetramer.Photosynthesis. Electronic structure of the oxygen-evolving complex in photosystem II prior to O-O bond formation.Identification of oxidized amino acid residues in the vicinity of the Mn(4)CaO(5) cluster of Photosystem II: implications for the identification of oxygen channels within the PhotosystemFourier transform infrared difference spectroscopy for studying the molecular mechanism of photosynthetic water oxidation.Experimental and computational X-ray emission spectroscopy as a direct probe of protonation states in oxo-bridged Mn(IV) dimers relevant to redox-active metalloproteins.Interaction of methanol with the oxygen-evolving complex: atomistic models, channel identification, species dependence, and mechanistic implications.Structural role of two histidines in the (6-4) photolyase reaction.Specific interactions between alkali metal cations and the KcsA channel studied using ATR-FTIR spectroscopy.Isotope geochemistry. Biological signatures in clumped isotopes of O₂.Metal oxidation states in biological water splitting† †Electronic supplementary information (ESI) available: Additional methodological details and discussion, Tables S1–S10, Fig. S1–S16, spin populations, parameters of optimized structures, experimeMetal oxidation states in biological water splitting.D1-Asn-298 in photosystem II is involved in a hydrogen-bond network near the redox-active tyrosine YZ for proton exit during water oxidation.Substitution of the D1-N87 site in photosystem II of cyanobacteria mimics the chloride-binding characteristics of spinach photosystem II.A comparison between artificial and natural water oxidation.The first tyrosyl radical intermediate formed in the S2-S3 transition of photosystem II.A five-coordinate Mn(iv) intermediate in biological water oxidation: spectroscopic signature and a pivot mechanism for water binding.Optimizing Crystal Size of Photosystem II by Macroseeding: Toward Neutron Protein Crystallography.Improved Sensitization of Zinc Oxide Nanorods by Cadmium Telluride Quantum Dots through Charge Induced Hydrophilic Surface GenerationAlternative mechanisms for O2 release and O–O bond formation in the oxygen evolving complex of photosystem II
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P2860
FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
@en
type
label
FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
@en
prefLabel
FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
@en
P2860
P356
P1476
FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
@en
P2093
Takumi Noguchi
P2860
P304
1189-94; discussion 1194-5
P356
10.1098/RSTB.2007.2214
P407
P577
2008-03-01T00:00:00Z