Cox, N.; Pantazis, D. A.; Lubitz, W. Current Understanding of the Mechanism of Water Oxidation in Photosystem II and Its Relation to XFEL Data. Annual Review of Biochemistry2020, 89, 795–820.
Chrysina, M.; Heyno, E.; Kutin, Y.; Reus, M.; Nilsson, H.; Nowaczyk, M. M.; DeBeer, S.; Neese, F.; Messinger, J.; Lubitz, W.; Cox, N. Five-coordinate MnIV intermediate in the activation of nature’s water splitting cofactor. Proceedings of the National Academy of Sciences of the United States of America2019, 116, 16841–16846.
Lohmiller, T.; Krewald, V.; Sedoud, A.; Rutherford, A. W.; Neese, F.; Lubitz, W.; Pantazis, D. A.; Cox, N. The First State in the Catalytic Cycle of the Water-Oxidizing Enzyme: Identification of a Water-Derived μ-Hydroxo Bridge. Journal of the American Chemical Society2017, 139, 14412–14424.
Retegan, M.; Krewald, V.; Mamedov, F.; Neese, F.; Lubitz, W.; Cox, N.; Pantazis, D. A. A five-coordinate Mn(IV) intermediate in biological water oxidation: spectroscopic signature and a pivot mechanism for water binding. Chemical Science2016, 7, 72–84.
Shafaat, H. S.; Griese, J. J.; Pantazis, D. A.; Roos, K.; Andersson, C. S.; Popović-Bijelić, A.; Gräslund, A.; Siegbahn, P. E. M.; Neese, F.; Lubitz, W.; Högbom, M.; Cox, N. Electronic Structural Flexibility of Heterobimetallic Mn/Fe Cofactors: R2lox and R2c Proteins. Journal of the American Chemical Society2014, 136, 13399–13409.
Pérez Navarro, M.; Ames, W. M.; Nilsson , H.; Lohmiller, T.; Pantazis, D. A.; Rapatskiy, L.; Nowaczyk, M. M.; Neese, F.; Boussac, A.; Messinger, J.; Lubitz, W.; Cox, N. Ammonia binding to the oxygen-evolving complex of photosystem II identifies the solvent-exchangeable oxygen bridge (μ-oxo) of the manganese tetramer. Proceedings of the National Academy of Sciences of the United States of America2013, 110, 15561–15566.
Krämer, T.; Kampa, M.; Lubitz, W.; van Gastel, M.; Neese, F. Theoretical Spectroscopy of the NiII Intermediate States in the Catalytic Cycle and the Activation of [NiFe] Hydrogenases. ChemBioChem: A European Journal of Chemical Biology2013, 14, 1898–1905.
Pandelia, M.-E.; Bykov, D.; Izsak, R.; Infossi, P.; Giudici-Orticoni, M.-T.; Bill, E.; Neese, F.; Lubitz, W. Reply to Mouesca et al.: Electronic structure of the proximal [4Fe-3S] cluster of O2-tolerant [NiFe] hydrogenases. Proceedings of the National Academy of Sciences of the United States of America2013, 110, E2539.
Kampa, M.; Pandelia, M.-E.; Lubitz, W.; van Gastel, M.; Neese, F. A Metal–Metal Bond in the Light-Induced State of [NiFe] Hydrogenases with Relevance to Hydrogen Evolution. Journal of the American Chemical Society2013, 135, 3915–3925.
Pandelia, M.-E.; Bykov, D.; Izsak, R.; Infossi, P.; Giudici-Orticoni, M.-T.; Bill, E.; Neese, F.; Lubitz, W. Electronic structure of the unique [4Fe-3S] cluster in O2-tolerant hydrogenases characterized by 57Fe Mössbauer and EPR spectroscopy. Proceedings of the National Academy of Sciences of the United States of America2013, 110, 483–488.
Dr. Dimitrios Pantazis, Gruppenleiter am MPI für Kohlenforschung in der Abteilung für molekulare Theorie und Spektroskopie, ist zum Vizepräsidenten der QBIC Society gewählt worden.
Mit Hilfe von Multiskalen-Simulationsmethoden und modernsten quantenchemischen Berechnungen untersuchten Dr. Dimitrios Pantazis und seine Gruppe, wie die Energie des Sonnenlichts in den Elektronenfluss umgewandelt wird, der chemische Reaktionen antreibt.