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| Naji, M. |
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| Petrov, R. H. | Madrid |
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| Azevedo, Nuno Monteiro |
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Mclean, Kirsty
University of Huddersfield
in Cooperation with on an Cooperation-Score of 37%
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article
Electron transfer reactions, cyanide and O2 binding of truncated hemoglobin from Bacillus subtilis
Abstract
<p>The truncated hemoglobin from Bacillus subtilis (trHb-Bs) possesses a surprisingly high affinity for oxygen and resistance to (auto)oxidation; its physiological role in the bacterium is not understood and may be connected with its very special redox and ligand binding reactions. Electron transfer reactions of trHb-Bs were electrochemically studied in solution and at graphite electrodes. Spectrophotometrical potentiometric titration and direct electrochemical measurements gave a heme iron redox potential of -103 ± 4 mV and -108 ± 2 mV vs. NHE, at pH 7, respectively. The redox potential of the heme in trHb-Bs shifted -59 mV per pH unit at pH higher than 7, consistently with a 1e<sup>-</sup>/1 H<sup>+</sup> - transfer reaction. The heterogeneous rate constant k<sub>s</sub> for a quasi-reversible 1e<sup>-</sup> - 1H<sup>+</sup> - transfer reaction between graphite and trHb-Bs was 10.1 ± 2.3 s<sup>-1</sup>. Upon reversible cyanide binding the k<sub>s</sub> doubled, while the redox potential of heme shifted 21 mV negatively, presumably reflecting changes in redox activity and in vivo signaling functions of trHb-Bs associated with ligand binding. Bioelectrocatalytic reduction of O<sub>2</sub> catalyzed by trHb-Bs was one of the most efficient hitherto reported for Hbs, with an apparent catalytic rate constant, k<sub>cat</sub>, of 56 ± 6 s<sup>-1</sup>. The results obtained are of particular interest for applications of trHb in environmental biosensing and toxicity screening.</p>