Multifrequency EPR study of Fe<sup>3+</sup> and Co<sup>2+</sup> in the active site of desulforedoxin

Mathies, Guinevere; Almeida, Rui M.; Gast, Peter; Moura, José J. G.; Groenen, Edgar J. J.

Publikation:
Multifrequency EPR study of Fe³⁺ and Co²⁺ in the active site of desulforedoxin

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Datum

2012

Autor:innen

Mathies, Guinevere

Almeida, Rui M.

Gast, Peter

Moura, José J. G.

Groenen, Edgar J. J.

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https://doi.org/10.1021/jp3025655

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Chemie: Publikationen

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The Journal of Physical Chemistry B. 2012, 116(24), pp. 7122-7128. ISSN 1520-6106. eISSN 1520-5207. Available under: doi: 10.1021/jp3025655

Zusammenfassung

The understanding of the electronic structure of S > 1/2 transition-metal sites that show a large zero-field splitting (ZFS) of the magnetic sublevels benefits greatly from study by electron-paramagnetic-resonance (EPR) spectroscopy at frequencies above the standard 9.5 GHz. However, high-frequency EPR spectroscopy is technically challenging and still developing. Particularly the sensitivity of high-frequency EPR spectrometers is often too low to apply the technique in the study of transition-metal sites in proteins and enzymes. Here we report a multifrequency EPR study (at 9.5, 94.9, and 275.7 GHz) of the active site of the protein desulforedoxin, both in its natural Fe³⁺ form and substituted with Co²⁺. The 275.7 GHz EPR spectra made it possible to determine the ZFS parameters of the Fe³⁺ site with high precision. No 275.7 GHz spectrum could be observed of the Co²⁺ site, but based on 9.5 GHz spectra, its ZFS parameters could be estimated. We find that the typical variation in the geometry of the active site of a protein or enzyme, referred to as conformational strain, does not only make the detection of EPR spectra challenging, but also their analysis. Comparison of the EPR results on the active site of desulforedoxin to those of the closely related active site of rubredoxin illustrates the necessity of explicit quantum-chemical calculations in order to interrelate the electronic and geometric structure of biological transition-metal sites.

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MATHIES, Guinevere, Rui M. ALMEIDA, Peter GAST, José J. G. MOURA, Edgar J. J. GROENEN, 2012. Multifrequency EPR study of Fe³⁺ and Co²⁺ in the active site of desulforedoxin. In: The Journal of Physical Chemistry B. 2012, 116(24), pp. 7122-7128. ISSN 1520-6106. eISSN 1520-5207. Available under: doi: 10.1021/jp3025655

BibTex

@article{Mathies2012-06-21Multi-43481,
  year={2012},
  doi={10.1021/jp3025655},
  title={Multifrequency EPR study of Fe<sup>3+</sup> and Co<sup>2+</sup> in the active site of desulforedoxin},
  number={24},
  volume={116},
  issn={1520-6106},
  journal={The Journal of Physical Chemistry B},
  pages={7122--7128},
  author={Mathies, Guinevere and Almeida, Rui M. and Gast, Peter and Moura, José J. G. and Groenen, Edgar J. J.}
}

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    <dcterms:abstract xml:lang="eng">The understanding of the electronic structure of S &gt; 1/2 transition-metal sites that show a large zero-field splitting (ZFS) of the magnetic sublevels benefits greatly from study by electron-paramagnetic-resonance (EPR) spectroscopy at frequencies above the standard 9.5 GHz. However, high-frequency EPR spectroscopy is technically challenging and still developing. Particularly the sensitivity of high-frequency EPR spectrometers is often too low to apply the technique in the study of transition-metal sites in proteins and enzymes. Here we report a multifrequency EPR study (at 9.5, 94.9, and 275.7 GHz) of the active site of the protein desulforedoxin, both in its natural Fe&lt;sup&gt;3+&lt;/sup&gt; form and substituted with Co&lt;sup&gt;2+&lt;/sup&gt;. The 275.7 GHz EPR spectra made it possible to determine the ZFS parameters of the Fe&lt;sup&gt;3+&lt;/sup&gt; site with high precision. No 275.7 GHz spectrum could be observed of the Co&lt;sup&gt;2+&lt;/sup&gt; site, but based on 9.5 GHz spectra, its ZFS parameters could be estimated. We find that the typical variation in the geometry of the active site of a protein or enzyme, referred to as conformational strain, does not only make the detection of EPR spectra challenging, but also their analysis. Comparison of the EPR results on the active site of desulforedoxin to those of the closely related active site of rubredoxin illustrates the necessity of explicit quantum-chemical calculations in order to interrelate the electronic and geometric structure of biological transition-metal sites.</dcterms:abstract>
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Publikation: Multifrequency EPR study of Fe3+ and Co2+ in the active site of desulforedoxin

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Publikation:
Multifrequency EPR study of Fe³⁺ and Co²⁺ in the active site of desulforedoxin