The following compounds or treatments have been shown to inhibit the oxidation of ammonia, but not the oxidation of hydroxylamine in cells of
Nitrosomonas
: (i) metal-binding agents such as allylthiourea or potassium cyanide; (ii) compounds such as SKF 525 which interact with cytochrome P-450 of mammalian microsomes; (iii) carbon monoxide; (iv) inhibitors of catalase, peroxidase, and amine oxidases such as thiosemicarbazide, ethylxanthate, and iproniazid, respectively; (v) uncouplers of oxidative phosphorylation such as
m
-chlorocarbonylcyanidephenylhydrazone; (vi) electron acceptors such as phenazine methosulfate; (vii) compounds such as methanol or N
2
O which react with free radicals; and (viii) illumination with 420 lux (5,000 foot candles) of light.
Incubation of hydroxylamine oxidoreductase of Nitrosomonas with hydrogen peroxide resulted in the rapid and irreversible loss of the ability to catalyze the dehydrogenation of hydroxylamine in the presence of electron acceptors, such as phenazine methosulfate. The rate of the reaction was dependent on the concentration of enzyme and H2O2. Inactivation occurred most rapidly at pH values between 9 and 10. Inactivation of the enzyme by H2O2 did not result in alteration of absorption spectrum of either the oxidized form of the enzyme or dithionite-reduced enzyme cytochromes with alpha maxima in the wavelength range 540-570 nm, indicating that those cytochromes were not directly involved in the dehydrogenase step. In contrast to the active enzyme, cytochromes with alpha maxima in the wavelength range 540-570 nm were not reducible by hydroxylamine in the inactivated enzyme. The dithionite-induced absorption maximum at 460 nm (cytochrome P 460), present in the active enzyme, was lost upon inactivation of the enzyme. This is the first direct indication of the involvement of cytochrome P 460 in the action of hydroxylamine oxidoreductase. Protection from inactivation was afforded by (a) substrates for the reduction of enzyme cytochrome, hydrazine, and N-methylhydroxylamine; (b) metal binding agents, KCN, 1,2-dihydroxybenzene-3,5-disulfonate, and hydroxyurea; (c) reductants, o-dianisidine, p-phenylenediamine, hydroquinone, pyrogallol, and dithiothreitol; (d) electron acceptors, phenazine methosulfate, and 2,6-dichlorophenolindophenol; and (e) the singlet oxygen trapping agent, 1,3-diphenylfuran. Scavengers of superoxide anion or hydroxyl radical did not protect the enzyme from inactivation.
Photoinactivation of ammonia oxidation in cells of Nitrosomonas was shown to follow first-order kinetics with a rate constant proportional to incident light intensity. The action spectrum for photoinactivation consisted of a broad peak in the ultraviolet range, where both hydroxylamine and ammonia oxidation were affected, and a shoulder at approximately 410 nm where only ammonia oxidation was affected. In photoinactivated cells, hydroxylamine but not ammonia was oxidized to nitrite and hydroxylamine but not ammonia caused reduction of cytochromes in vivo. The amount per cell of the following constituents was not measurably altered by photoinactivation: cytochromes b, c, a, and P460; ubiquinone; phospholipid; free amino acids; hydroxylamine-dependent nitrite synthetase; nitrite reductase; p-phenylenediamine oxidase; and cytochrome c oxidase. Malonaldehyde or lipid peroxides were not detected in photoinactivated cells. Photoinactivation was prevented (i) under anaerobic conditions, (ii) in the presence of methanol, allylthiourea, thiosemicarbazide, hydroxylamine, ethylxanthate, or CO at concentrations wich caused 100% inhibition of ammonia oxidation, and (iii) at concentrations of ammonia or hydroxylamine which gave a rapid rate of nitrite production. Recovery of ammonia oxidation activity in 90% inactivated cells took place in 6 h, required an energy and/or nitrogen source, and was inhibited by 400 ,g of chloramphenicol per ml.
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