scholarly article | Q13442814 |
P356 | DOI | 10.1002/CPHC.201700640 |
P698 | PubMed publication ID | 28846824 |
P2093 | author name string | Ron J Pace | |
Rob Stranger | |||
Simon Petrie | |||
P2860 | cites work | Density-functional exchange-energy approximation with correct asymptotic behavior | Q21709057 |
Crystal structure of oxygen-evolving photosystem II from Thermosynechococcus vulcanus at 3.7-A resolution | Q24541286 | ||
Mn4Ca cluster in photosynthesis: where and how water is oxidized to dioxygen | Q26822448 | ||
Density-functional approximation for the correlation energy of the inhomogeneous electron gas | Q27440259 | ||
Crystal structure of photosystem II from Synechococcus elongatus at 3.8 A resolution | Q27629975 | ||
The interaction of His337 with the Mn4Ca cluster of photosystem II. | Q44259891 | ||
Water oxidation mechanism in photosystem II, including oxidations, proton release pathways, O-O bond formation and O2 release | Q45176342 | ||
Theoretical evaluation of structural models of the S2 state in the oxygen evolving complex of Photosystem II: protonation states and magnetic interactions | Q45756420 | ||
Metal oxidation states in biological water splitting | Q47196956 | ||
Oxygen-evolving Mn cluster in photosystem II: the protonation pattern and oxidation state in the high-resolution crystal structure | Q47924561 | ||
Two interconvertible structures that explain the spectroscopic properties of the oxygen-evolving complex of photosystem II in the S2 state. | Q50504949 | ||
What does the Sr-substituted 2.1 Å resolution crystal structure of photosystem II reveal about the water oxidation mechanism? | Q51112627 | ||
Rapid loss of structural motifs in the manganese complex of oxygenic photosynthesis by X-ray irradiation at 10-300 K. | Q51304908 | ||
Large-scale QM/MM calculations of the CaMn4O5 cluster in the S3 state of the oxygen evolving complex of photosystem II. Comparison between water-inserted and no water-inserted structures. | Q52705483 | ||
Structural and oxidation state changes of the photosystem II manganese complex in four transitions of the water oxidation cycle (S0 --> S1, S1 --> S2, S2 --> S3, and S3,4 --> S0) characterized by X-ray absorption spectroscopy at 20 K and room temper | Q52940336 | ||
A five-coordinate Mn(iv) intermediate in biological water oxidation: spectroscopic signature and a pivot mechanism for water binding. | Q55235157 | ||
Structural changes in the S3 state of the oxygen evolving complex in photosystem II. | Q55237006 | ||
Alternative mechanisms for O2 release and O–O bond formation in the oxygen evolving complex of photosystem II | Q59209581 | ||
Conversion of the spin state of the manganese complex in photosystem II induced by near-infrared light | Q71185805 | ||
(18)O isotope exchange measurements reveal that calcium is involved in the binding of one substrate-water molecule to the oxygen-evolving complex in photosystem II | Q73412163 | ||
Mechanisms for proton release during water oxidation in the S2 to S3 and S3 to S4 transitions in photosystem II | Q83327165 | ||
Toward the assignment of the manganese oxidation pattern in the water-oxidizing complex of photosystem II: a time-dependent DFT study of XANES energies | Q83790824 | ||
Modelling the metal atom positions of the Photosystem II water oxidising complex: a density functional theory appraisal of the 1.9 Å resolution crystal structure | Q84574723 | ||
Structural models of the manganese complex of photosystem II and mechanistic implications | Q84592032 | ||
The effect of Mn oxidation state on metal core electron excitations in manganese dimers: a time-dependent density functional investigation | Q84751760 | ||
The effect of backbone constraints: the case of water oxidation by the oxygen-evolving complex in PSII | Q84953197 | ||
Rationalizing the 1.9 Å crystal structure of photosystem II--A remarkable Jahn-Teller balancing act induced by a single proton transfer | Q85310784 | ||
Rationalising the geometric variation between the A and B monomers in the 1.9 Å crystal structure of photosystem II | Q86941170 | ||
Theoretical illumination of water-inserted structures of the CaMn4O5 cluster in the S2 and S3 states of oxygen-evolving complex of photosystem II: full geometry optimizations by B3LYP hybrid density functional | Q87411151 | ||
Architecture of the photosynthetic oxygen-evolving center | Q27643091 | ||
Serial time-resolved crystallography of photosystem II using a femtosecond X-ray laser | Q27643986 | ||
Cyanobacterial photosystem II at 2.9-A resolution and the role of quinones, lipids, channels and chloride | Q27653817 | ||
Crystal structure of oxygen-evolving photosystem II at a resolution of 1.9 Å | Q27667233 | ||
Simultaneous Femtosecond X-ray Spectroscopy and Diffraction of Photosystem II at Room Temperature | Q27676393 | ||
Structure of Sr-substituted photosystem II at 2.1 A resolution and its implications in the mechanism of water oxidation | Q27676490 | ||
Taking snapshots of photosynthetic water oxidation using femtosecond X-ray diffraction and spectroscopy. | Q27684626 | ||
Native structure of photosystem II at 1.95 Å resolution viewed by femtosecond X-ray pulses | Q27696306 | ||
Structure of photosystem II and substrate binding at room temperature. | Q30367131 | ||
Analysis of the radiation-damage-free X-ray structure of photosystem II in light of EXAFS and QM/MM data. | Q30898751 | ||
Towards complete cofactor arrangement in the 3.0 A resolution structure of photosystem II. | Q33992219 | ||
Structural Change of the Mn Cluster during the S2→S3 State Transition of the Oxygen-Evolving Complex of Photosystem II. Does It Reflect the Onset of Water/Substrate Oxidation? Determination by Mn X-ray Absorption Spectroscopy. | Q34068522 | ||
Oxygen ligand exchange at metal sites - implications for the O2 evolving mechanism of photosystem II. | Q34104185 | ||
What are the oxidation states of manganese required to catalyze photosynthetic water oxidation? | Q34361999 | ||
Substrate water exchange in photosystem II core complexes of the extremophilic red alga Cyanidioschyzon merolae | Q34414860 | ||
An evaluation of structural models for the photosynthetic water-oxidizing complex derived from spectroscopic and X-ray diffraction signatures | Q34542825 | ||
Photosynthesis. Electronic structure of the oxygen-evolving complex in photosystem II prior to O-O bond formation | Q35225241 | ||
Resolving the Differences Between the 1.9 Å and 1.95 Å Crystal Structures of Photosystem II: A Single Proton Relocation Defines Two Tautomeric Forms of the Water-Oxidizing Complex | Q35616119 | ||
Water oxidation in PSII-H atom abstraction revisited | Q35752115 | ||
What computational chemistry and magnetic resonance reveal concerning the oxygen evolving centre in Photosystem II. | Q36011808 | ||
Room-Temperature Energy-Sampling Kβ X-ray Emission Spectroscopy of the Mn4Ca Complex of Photosynthesis Reveals Three Manganese-Centered Oxidation Steps and Suggests a Coordination Change Prior to O2 Formation | Q36067602 | ||
Light-induced structural changes and the site of O=O bond formation in PSII caught by XFEL. | Q36285447 | ||
A Spotlight on the Compatibility between XFEL and Ab Initio Structures of the Oxygen Evolving Complex in Photosystem II. | Q36322957 | ||
Structural changes of the oxygen-evolving complex in photosystem II during the catalytic cycle | Q37311929 | ||
Structure and orientation of the Mn4Ca cluster in plant photosystem II membranes studied by polarized range-extended x-ray absorption spectroscopy | Q37654650 | ||
Application of computational chemistry to understanding the structure and mechanism of the Mn catalytic site in photosystem II--a review | Q37852263 | ||
S1-state Mn4Ca complex of Photosystem II exists in equilibrium between the two most-stable isomeric substates: XRD and EXAFS evidence | Q37877037 | ||
Why nature chose Mn for the water oxidase in Photosystem II. | Q38009664 | ||
Photosystem II: the reaction center of oxygenic photosynthesis. | Q38092860 | ||
Chemical Equilibrium Models for the S3 State of the Oxygen-Evolving Complex of Photosystem II. | Q40158815 | ||
Photosynthetic water oxidation: binding and activation of substrate waters for O-O bond formation. | Q40454255 | ||
Substrate-water exchange in photosystem II is arrested before dioxygen formation | Q42065302 | ||
S1-state model of the O2-evolving complex of photosystem II | Q42213630 | ||
The two substrate-water molecules are already bound to the oxygen-evolving complex in the S2 state of photosystem II. | Q42686786 | ||
Near-infrared-induced transitions in the manganese cluster of photosystem II: action spectra for the S2 and S3 redox states. | Q43017286 | ||
What spectroscopy reveals concerning the Mn oxidation levels in the oxygen evolving complex of photosystem II: X-ray to near infra-red | Q43536382 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | photosystem II | Q22327014 |
P577 | publication date | 2017-08-28 | |
P1433 | published in | ChemPhysChem | Q2012739 |
P1476 | title | Rationalizing the 2.25 Å Resolution Crystal Structure of the Water Oxidising Complex of Photosystem II in the S3 State |
Q56979216 | Explaining the Different Geometries of the Water Oxidising Complex in the Nominal S3 State Crystal Structures of Photosystem II at 2.25 Å and 2.35 Å |
Q90059224 | Rationalizing the Geometries of the Water Oxidising Complex in the Atomic Resolution, Nominal S3 State Crystal Structures of Photosystem II |
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