2013
DOI: 10.1002/anie.201306667
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The S2 State of the Oxygen‐Evolving Complex of Photosystem II Explored by QM/MM Dynamics: Spin Surfaces and Metastable States Suggest a Reaction Path Towards the S3 State

Abstract: # These authors contributed equally to this work. Keywords ab initio calculations; density functional calculations; Kok cycle; photosystem II; water splittingOne of the key steps in photosynthetic solar-energy conversion performed by plants, algae, and cyanobacteria is the splitting of water into molecular oxygen and hydrogen equivalents. [1] To achieve this challenging task photosynthetic organisms use a protein complex that remained almost unchanged during the evolution in the last two and a half billion yea… Show more

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Cited by 156 publications
(230 citation statements)
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“…In the S 2 state, Mn 1 or Mn 4 was oxidized in the high-oxidation models, whereas Mn 2 or Mn 4 was oxidized in the low-oxidation models. The Mn 1 -and Mn 4 -oxidized S 2 states of the high-oxidation models have been proposed to reflect two conformations showing g = 4.1 and g = 2 multiline EPR signals, respectively, where the latter conformation has a slightly lower energy (10,14,17).…”
Section: Resultsmentioning
confidence: 99%
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“…In the S 2 state, Mn 1 or Mn 4 was oxidized in the high-oxidation models, whereas Mn 2 or Mn 4 was oxidized in the low-oxidation models. The Mn 1 -and Mn 4 -oxidized S 2 states of the high-oxidation models have been proposed to reflect two conformations showing g = 4.1 and g = 2 multiline EPR signals, respectively, where the latter conformation has a slightly lower energy (10,14,17).…”
Section: Resultsmentioning
confidence: 99%
“…It is, thus, possible that the W3 and W4 attached to Ca 2+ are involved in proton release in water oxidation, especially during the S 2 →S 3 transition, which is inhibited by Ca 2+ depletion (53). It has also been proposed that W3 moves to Mn 4 during the S 2 →S 3 transition in the so-called oxo-oxyl mechanism (13,17,22). Thus, the carboxylate ligands bridging Mn and Ca ions may play an important role in water oxidation by tuning the reactivity of water ligands on Ca by charge shifts via their π conjugation.…”
Section: Discussionmentioning
confidence: 99%
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“…1), can explain the presence of the two distinct EPR signals revealed at cryogenic temperatures (i.e., a multiline signal indicative of a ground state characterized by a spin S = 1/2 and a second signal at g = 4.1 consistent with a spin S = 5/2). In a recent work (37) we characterized by extensive quantum mechanics/molecular mechanics (QM/MM) ab initio simulations the free-energy profiles for the interconversion between the two abovementioned conformations, suggesting that the transition from the S 2 to S 3 state should proceed passing first by the S A 2 and subsequently through the S B 2 state. Still, clear evidence confirming such a hypothesis is missing.…”
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confidence: 99%