Possible mechanisms for O2 evolution in photosystem II (PSII) are studied with a semiempirical one-electron molecular orbital procedure, the extended Huckel method. The oxygen coupling is examined starting from some known inorganic complexes of manganese. Idealized geometries of four binuclear complexes (two di-mu-oxo, one tri-mu-oxo and one mu-carboxylato-di-mu-oxo) are distorted to transform into O2-bound complexes. The computed Walsh diagrams are analyzed. For these structures the predicted oxidation to dioxygen is energetically unfavorable and would require two two-electron steps forming bound peroxide as an intermediate. An in-plane approach of two oxo ligands has a lower barrier for peroxide bond formation. Four tetranuclear Mn clusters are built combining binuclear complexes, a Mn4O4 cubane-like core, three (Mn2O2)2(mu-O2) "dimer of dimers' cores with mu-4,eta-2-O2 bound either in or out of the Mn4 plane formed by two parallel Mn2O2 units, and a "planar T" combination of two orthogonal Mn2O2 units with a Mn3O2 core and mu-3,eta-2-O2 bound to three Mn atoms. The assumed pathway leading to peroxide bond formation in each of these is found to have appreciably lower energy for the (Mn2O2)2(mu-O2) and the 'planar T" models with in-plane O-O approach. A slight energetic advantage is calculated in the peroxide to dioxygen step when the oxo ligands are coordinated to at least three Mn ions compared to coordination to only two Mn ions. Qualitative valence bond analysis indicates that release of symmetrically coordinated dioxygen, as in cis- and trans-mu-O2, requires overcoming an approximately 1-eV electronic barrier for formation of ground-state O2 (triplet). The tetranuclear models are introduced into speculative mechanisms and compared with current knowledge of the photosynthetic water oxidation reaction.
MOLECULAR MECHANISM OF PHOTOSYNTHETIC OXYGEN EVOLUTION - A THEORETICAL APPROACH / D.M. PROSERPIO, R. HOFFMANN, G. DISMUKES. - In: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. - ISSN 0002-7863. - 114:11(1992), pp. 4374-4382.
|Titolo:||MOLECULAR MECHANISM OF PHOTOSYNTHETIC OXYGEN EVOLUTION - A THEORETICAL APPROACH|
PROSERPIO, DAVIDE MARIA (Primo)
|Settore Scientifico Disciplinare:||Settore CHIM/03 - Chimica Generale e Inorganica|
|Data di pubblicazione:||1992|
|Digital Object Identifier (DOI):||http://dx.doi.org/10.1021/ja00037a052|
|Appare nelle tipologie:||01 - Articolo su periodico|