Add to ORKGL-edge X-ray absorption spectroscopy has been used to study the electronic structure of Ni in the Ni–Fe hydrogenases and CO-dehydrogenases under a variety of conditions. The L-edge spectra are interpreted by comparison with the spectra of Ni model complexes and by ligand field multiplet simulations to examine the Ni oxidation and electronic spin states. The III spectra for Ni in oxidized Desulfovibrio gigas and Pyrococcus furiosus enzymes are consistent with a covalent Ni species. II IAll of the reduced hydrogenases in this study exhibit a high spin Ni spectrum, and no Ni has been observed. In contrast to IIhydrogenases, the native Clostridium thermoaceticum CO-dehydrogenase has a low spin Ni and exhibits a clearly different spectral multip...
Catalytically inactive oxidized O2-sensitive [NiFe]-hydrogenases are characterized by a mixture of t...
Achieving a unified understanding of the mechanism of a multicenter redox enzyme such as [NiFe] hydr...
Information concerning the chemical state of trace elements in biological systems generally has not ...
The Ni K-edge x-ray absorption near edge structure (XANES) and extended x-ray absorption fine struct...
The roles that nickel plays in biological systems appear to be largely dependent on the ligand envir...
Structural information was obtained from the analysis of nickel K-edge X-ray Absorption Spectroscopi...
Nickel, essential to many biological processes, is a component of the active sites of enzymes that c...
Metal hydrides are invoked as important intermediates in both chemical and biological H2 production....
X-ray magnetic circular dichroism (XMCD) measures the inner shell absorption difference between left...
The valence electronic structure of several square planar Ni-centered complexes, previously shown to...
International audienceThe class of [NiFe]-hydrogenases comprises oxygen-sensitive periplasmic (PH) a...
The biological activation of hydrogen is catalyzed by hydrogenases. An understanding of the mechanis...
Five biomimetic mono- or dinuclear nickel complexes featuring Ni(I) or Ni(II) sites were studied by ...
In this research, X-ray spectroscopic techniques in combination with electronic structure calculatio...
Recent developments in the understanding of the biosynthesis of the active site of the nitrogenase e...
Catalytically inactive oxidized O2-sensitive [NiFe]-hydrogenases are characterized by a mixture of t...
Achieving a unified understanding of the mechanism of a multicenter redox enzyme such as [NiFe] hydr...
Information concerning the chemical state of trace elements in biological systems generally has not ...
The Ni K-edge x-ray absorption near edge structure (XANES) and extended x-ray absorption fine struct...
The roles that nickel plays in biological systems appear to be largely dependent on the ligand envir...
Structural information was obtained from the analysis of nickel K-edge X-ray Absorption Spectroscopi...
Nickel, essential to many biological processes, is a component of the active sites of enzymes that c...
Metal hydrides are invoked as important intermediates in both chemical and biological H2 production....
X-ray magnetic circular dichroism (XMCD) measures the inner shell absorption difference between left...
The valence electronic structure of several square planar Ni-centered complexes, previously shown to...
International audienceThe class of [NiFe]-hydrogenases comprises oxygen-sensitive periplasmic (PH) a...
The biological activation of hydrogen is catalyzed by hydrogenases. An understanding of the mechanis...
Five biomimetic mono- or dinuclear nickel complexes featuring Ni(I) or Ni(II) sites were studied by ...
In this research, X-ray spectroscopic techniques in combination with electronic structure calculatio...
Recent developments in the understanding of the biosynthesis of the active site of the nitrogenase e...
Catalytically inactive oxidized O2-sensitive [NiFe]-hydrogenases are characterized by a mixture of t...
Achieving a unified understanding of the mechanism of a multicenter redox enzyme such as [NiFe] hydr...
Information concerning the chemical state of trace elements in biological systems generally has not ...