Cyanide Resistance in Achromobacter I. Induced Formation of Cytochrome a(2) and Its Role in Cyanide-Resistant Respiration

Abstract

Arima, Kei (University of Tokyo, Tokyo, Japan), and Tetuo Oka. Cyanide resistance in Achromobacter. I. Induced formation of cytochrome a(2) and its role in cyanide-resistant respiration. J. Bacteriol. 90:734-743. 1965.-By following the cytochrome concentrations during the growth cycle and under various conditions (aerobic, aerobic plus KCN, reduced aeration, anaerobic plus NaNO(3)) in Achromobacter strain D, a close relationship between the formation of cytochrome a(2) (and a(1)) and the difficulty of oxygen utilization was demonstrated. Cytochrome o, which was the only oxidase found in aerobic log-phase cells, was present in bacterial cells grown under various conditions; the amount present had no relation to the degree of cyanide resistance. On the other hand, cytochrome a(2) (and a(1)) was inducible, and a close relation was observed between the amount of cytochrome and resistance to cyanide. Spectrophotometric observations indicated that, among the cytochromes present in resistant cells, cytochrome a(2) could be oxidized most easily in the presence of cyanide and that cytochrome b(1) could be oxidized without the oxidation of cytochrome a(1). We concluded that cytochrome a(2) is a cyanide-resistant oxidase capable of catalyzing the oxidation of cytochromes in the presence of cyanide. Cytochrome a(2) is also resistant to azide, an inhibitor of cytochrome oxidase.