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Molecular mechanisms of proton-coupl...
~
Nakamura, Shin.
Molecular mechanisms of proton-coupled electron transfer and water oxidation in Photosystem II
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Molecular mechanisms of proton-coupled electron transfer and water oxidation in Photosystem IIby Shin Nakamura.
作者:
Nakamura, Shin.
出版者:
Singapore :Springer Singapore :2020.
面頁冊數:
xiii, 126 p. :ill., digital ;24 cm.
Contained By:
Springer Nature eBook
標題:
Oxidation-reduction reaction.
電子資源:
https://doi.org/10.1007/978-981-15-1584-2
ISBN:
9789811515842$q(electronic bk.)
Molecular mechanisms of proton-coupled electron transfer and water oxidation in Photosystem II
Nakamura, Shin.
Molecular mechanisms of proton-coupled electron transfer and water oxidation in Photosystem II
[electronic resource] /by Shin Nakamura. - Singapore :Springer Singapore :2020. - xiii, 126 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..
General Introduction -- Hydrogen Bond Structure of Redox Active Tyrosines in Photosystem II -- Proton Release Reaction of Tyrosine D in Photosystem II -- Vibrational Analysis of Water Network Around the Mn Cluxter -- Vibrational Analysis of Carboxylate Ligands in the Water Oxidizing center -- Protonation Structure of a Key Histidine in the Water Oxidizing Center -- General Conclusion.
The book reviews photosynthetic water oxidation and proton-coupled electron transfer in photosystem, focusing on the molecular vibrations of amino acid residues and water molecules. Photosynthetic water oxidation performed by plants and cyanobacteria is essential for the sustenance of life on Earth, not only as an electron source for synthesizing sugars from CO2, but also as an O2 source in the atmosphere. Water oxidation takes place at the Mn4CaO5cluster in photosystem II, where a series of electron transfer reactions coupled with proton transfer occur using light energy. The author addresses the unresolved mechanisms of photosynthetic water oxidation and relevant proton-coupled electron transfer reactions using a combined approach of experimental and computational methods such as Fourier transform infrared difference spectroscopy and quantum chemical calculations. The results show that protonation and hydrogen-bond structures of water molecules and amino acid residues in the protein play important roles in regulation of the electron and proton transfer reactions. These findings and the methodology make a significant contribution to our understanding the molecular mechanism of photosynthetic water oxidation.
ISBN: 9789811515842$q(electronic bk.)
Standard No.: 10.1007/978-981-15-1584-2doiSubjects--Topical Terms:
193673
Oxidation-reduction reaction.
LC Class. No.: QD716.O95 / N35 2020
Dewey Class. No.: 547.23
Molecular mechanisms of proton-coupled electron transfer and water oxidation in Photosystem II
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General Introduction -- Hydrogen Bond Structure of Redox Active Tyrosines in Photosystem II -- Proton Release Reaction of Tyrosine D in Photosystem II -- Vibrational Analysis of Water Network Around the Mn Cluxter -- Vibrational Analysis of Carboxylate Ligands in the Water Oxidizing center -- Protonation Structure of a Key Histidine in the Water Oxidizing Center -- General Conclusion.
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The book reviews photosynthetic water oxidation and proton-coupled electron transfer in photosystem, focusing on the molecular vibrations of amino acid residues and water molecules. Photosynthetic water oxidation performed by plants and cyanobacteria is essential for the sustenance of life on Earth, not only as an electron source for synthesizing sugars from CO2, but also as an O2 source in the atmosphere. Water oxidation takes place at the Mn4CaO5cluster in photosystem II, where a series of electron transfer reactions coupled with proton transfer occur using light energy. The author addresses the unresolved mechanisms of photosynthetic water oxidation and relevant proton-coupled electron transfer reactions using a combined approach of experimental and computational methods such as Fourier transform infrared difference spectroscopy and quantum chemical calculations. The results show that protonation and hydrogen-bond structures of water molecules and amino acid residues in the protein play important roles in regulation of the electron and proton transfer reactions. These findings and the methodology make a significant contribution to our understanding the molecular mechanism of photosynthetic water oxidation.
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