Cryoreduction of the NO-adduct of taurine:alpha-ketoglutarate dioxygenase (TauD) yields an elusive {FeNO}(8) species.
Ontology highlight
ABSTRACT: The Fe(II)- and alpha-ketoglutarate (alphaKG)-dependent enzymes are a functionally and mechanistically diverse group of mononuclear nonheme-iron enzymes that activate dioxygen to couple the decarboxylation of alphaKG, which yields succinate and CO(2), to the oxidation of an aliphatic C-H bond of their substrates. Their mechanisms have been studied in detail by a combination of kinetic, spectroscopic, and computational methods. Two reaction intermediates have been trapped and characterized for several members of this enzyme family. The first intermediate is the C-H-cleaving Fe(IV)-oxo complex, which exhibits a large deuterium kinetic isotope effect on its decay. The second intermediate is a Fe(II):product complex. Reaction intermediates proposed to occur before the Fe(IV)-oxo intermediate do not accumulate and therefore cannot be characterized experimentally. One of these intermediates is the initial O(2) adduct, which is a {FeO(2)}(8) species in the notation introduced by Enemark and Feltham. Here, we report spectroscopic and computational studies on the stable NO-adduct of taurine:alphaKG dioxygenase (TauD), termed TauD-{FeNO}(7), and its one-electron reduced form, TauD-{FeNO}(8). The latter is isoelectronic with the proposed O(2) adduct and was generated by low-temperature gamma-irradiation of TauD-{FeNO}(7). To our knowledge, TauD-{FeNO}(8) is the first paramagnetic {FeNO}(8) complex. The detailed analysis of experimental and computational results shows that TauD-{FeNO}(8) has a triplet ground state. This has mechanistic implications that are discussed in this Article. Annealing of the triplet {FeNO}(8) species presumably leads to an equally elusive {FeHNO}(8) complex with a quintet ground state.
SUBMITTER: Ye S
PROVIDER: S-EPMC3931003 | biostudies-literature | 2010 Apr
REPOSITORIES: biostudies-literature
ACCESS DATA