H2O2-dependent substrate oxidation by an engineered diiron site in a bacterial hemerythrin

Yasunori Okamoto; Akira Onoda; Hiroshi Sugimoto; Yu Takano; Shun Hirota; Donald M. Kurtz; Yoshitsugu Shiro; Takashi Hayashi

Journal ArticleOPEN ACCESS

H2O2-dependent substrate oxidation by an engineered diiron site in a bacterial hemerythrin

Okamoto Y
Onoda A
Sugimoto H
et al.

Chemical Communications (2014) 50(26) 3421-3423

DOI: 10.1039/c3cc48108e

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Abstract

The O2-binding carboxylate-bridged diiron site in DcrH-Hr was engineered in an effort to perform the H2O2-dependent oxidation of external substrates. A His residue was introduced near the diiron site in place of a conserved residue, Ile119. The I119H variant promotes the oxidation of guaiacol and 1,4-cyclohexadiene upon addition of H2O2. © 2014 Royal Society of Chemistry.

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Okamoto, Y., Onoda, A., Sugimoto, H., Takano, Y., Hirota, S., Kurtz, D. M., … Hayashi, T. (2014). H2O2-dependent substrate oxidation by an engineered diiron site in a bacterial hemerythrin. Chemical Communications, 50(26), 3421–3423. https://doi.org/10.1039/c3cc48108e

H2O2-dependent substrate oxidation by an engineered diiron site in a bacterial hemerythrin

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