User:María Sánchez Morán/TFGBibliografia

Bibliografía

1. Catling, D.; Claire, M. How’s Earth’s atmosphere evolved to an oxic state: A status report. Earth Planet Sci. Lett. 2005, 237, 1-20
2. Dismukes, G.C.; Klimov, V.V.; Baranov, S.V.; Kozlov, Y.N.; DasGupta, J.; Tyryshkin, A. The origin of atmospheric oxygen on Earth: The innovation of oxygenic photosynthesis. PNAS, 2001, 98, 2170-2175
3. Lubitz, W.; Chrisina, M.; Cox, N. Water oxidation in photosystem II. Photosynthesis Res. 2019, 142, 105-125
4. Barber, J. Crystal structure of the oxygen-evolving complex of photosystem II. Inorg. Chem. 2008, 47, 1700-1710
5. Bao, H..; Dilbeck, P.L.; Burnap, R.L. Proton transport facilitating water-oxidation: the role of second sphere ligands surrounding the catalytic metal cluster. Photosysthesis Res. 2013, 116, 215-229
6. Nelson, N.; Yocum, C.F. Structure and function of photosystem I and II. Annu. Rev. Plant Biol. 2006. 57, 521-565
7. Shen J.R. The structure of photosystem II and the mechanism of water oxidation in photosynthesis. Annu. Rev. Plant Biol. 2015. 66, 4.1-4.26
8. Umena, Y.; Kawakami, k.; Shen, J.R.; Kamiya, N. Crystal structure of oxygen-evolving photosystem II at a resolution of 1.9Å. Nature. 2011. 473, 55-60
9. Müh, F.; Zouni, A. The nonheme iron in photosystem II. Photosynth. Res. 2013. 116, 295-314
10. Lodish, H.; Berk, A.; Kaiser, C.A; Krieger, M.; Bretscher, A.; Ploegh, H.; Amon, A.; Scott, M.P. Biología Celular y Molecular. 7ª Ed. Editorial Médica Panamericana. Buenos Aires, 2016. pp 559-566
11. Grabolle, M.; Dau, H. Energetics of primary and secondary electron transfer in Photosystem II membrane particles of spinach revisited on basis of recombination-fluorescence measurements. Biochim Biophys Acta. 2005, 1708, 209-218
12. Ferreira, K.N.; Iverson, T.M.; Maghlaoui, K.; Barber, J.; Iwata, S. Architecture of the photosynthetic oxygen-evolving center. Science. 2004. 303, 1831-1838
13. Zhang, C.; Chen, C.; Dong, H.; Shen, J.R.; Dau, H.; Zhao, J. A synthetic Mn4Ca-cluster mimicking the oxygen evolving center of photosynthesis. Science. 2015. 348, 690-693.
14. Kawakami, K.; Umena, Y.; Kamiya, N.; Shen, J.R. Structure of the catalytic, inorganic core of oxygen-evolving photosystem II at 1.9Å resolution. J. Photochem. Photobiol. B. Biol. 2011. 104, 9-18
15. Cox, N.; Pantazis, D.A.; Neese, F.; Lubitz, W. Biological water oxidation. Acc. Chem. Res. 2013. 46, 1588-1596.
16. Barber, J. Mn4Ca Cluster of photosynthetic oxigen-evolving center: Structure, Function and Evolution. Biochemistry. 2016. 55, 5901-5906
17. Barber, J. A mechanism for water splitting and oxygen production in photosynthesis. Nat. Plants. 2017. 3, 17041
18. Li, Y.; Yao, R.; Chen, Y.; Xu, B.; Chen, C.; Zhang, C. Mimicking the Catalytic Center for the Water-Splitting Reaction in Photosystem II. Catalysis. 2020. 10, 185
19. Siegbahn, P.E.M. Nucleophilic water attack is not a possible mechanism for O‐O bond formation in photosystem II. Proc. Natl. Acad. Sci. 2017. 114, 4966–4968
20. Kawashima, K.; Takaoka, T.; Kimura, H.; Saito, K.; Ishikita, H. O2 evolution and recovery of the water-oxidizing enzyme. Nat. Commun. 2018. 9, 1-11
21. Siegbahn, P.E.M. Water oxidation mechanism in photosystem II, including oxidations, proton release pathways, O-O bond formation and O2 release. Biochim Biophys Acta. 2013. 1827, 1003-1019
22. Saito, K.; Ishikita, H. Mechanism of protonation of the over-reduced Mn4CaO5 cluster un photosystem II. Biochim. Biophys. Acta – Bioenerg. 2019. 1860, 148059
23. Zhang, B.; Sun, L. Across the board: Licheng Sun on the mechanism of O-O bond formation in photosystem II. ChemSusChem. 2019. 12, 3401-3404
24. Zhang, B.; Sun, L.; Why nature chose the Mn4CaO5 cluster as water-splitting catalyst in photosystem II: a new hypothesis for the mechanism of O-O bond formation. Dalton Trans. 2018. 47, 14381-14387
25. Zhang, C. The first artificial Mn4Ca-cluster mimicking the oxygen-evolving center in photosystem II. Sci China Life Sci. 2015. 58, 816-817

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María Sánchez Morán