Infrared and EPR Studies on Cyanide Binding to the Heme-Copper Binuclear Center of Cytochrome bo-type Ubiquinol Oxidase from Escherichia coli

Cyanide-binding to the heme-copper binuclear center of bo-type ubiquinol oxidase from Escherichia coli was investigated with Fourier transform-infrared and EPR spectroscopies. Upon treatment of the air-oxidized CN-inhibited enzyme with excess sodium dithionite, a 12C-14N stretching vibration at 2146...

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Veröffentlicht in:The Journal of biological chemistry 1996-02, Vol.271 (8), p.4017-4022
Hauptverfasser: Tsubaki, Motonari, Mogi, Tatsushi, Hori, Hiroshi, Sato-Watanabe, Mariko, Anraku, Yasuhiro
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Sprache:eng
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Zusammenfassung:Cyanide-binding to the heme-copper binuclear center of bo-type ubiquinol oxidase from Escherichia coli was investigated with Fourier transform-infrared and EPR spectroscopies. Upon treatment of the air-oxidized CN-inhibited enzyme with excess sodium dithionite, a 12C-14N stretching vibration at 2146 cm-1 characteristic of the Fe3+o-C=N-CuB2+ bridging structure was quickly replaced with another stretching mode at 2034.5 cm-1 derived from the Fe2+o-C=N moiety. The presence of ubiquinone-8 or ubiquinone-1 caused a gradual autoreduction of the metal center(s) of the air-oxidized CN-inhibited enzyme and a concomitant appearance of a strong cyanide stretching band at 2169 cm-1. This 2169 cm-1 species could not be retained with a membrane filter (molecular weight cutoff = 10,000) and showed unusual cyanide isotope shifts and a D2O shift. These observations together with metal content analyses indicate that the 2169 cm-1 band is due to a CuB•CN complex released from the enzyme. The same species could be produced by anaerobic partial reduction of the CN-inhibited ubiquinol oxidase and, furthermore, of the CN-inhibited cytochrome c oxidase; but not at all from the fully reduced CN-inhibited enzymes. These findings suggest that there is a common intermediate structure at the binuclear center of heme-copper respiratory enzymes in the partially reduced state from which the CuB center can be easily released upon cyanide-binding.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.271.8.4017