15N-tracer and NMR studies on the pathway of denitrification. Evidence against trioxodinitrate but for nitroxyl as an intermediate.

The effects of four species of denitrifying bacteria on the conversion of [15N]nitrite to trioxodinitrate (HN2O3-) and N2O and of trioxodinitrate to N2O were studied. For all species, the N2O produced in the presence of [15N]nitrite and trioxodinitrate was isotopically randomized throughout the period of incubation and was not composed at the outset predominantly of 14N2O or 14N2O plus 15N2O. The N2O produced was also heavily enriched in 15N at times when the trioxodinitrate pool was only weakly enriched in 15N. By 15N NMR, the N(2) position, but not the N(1) position, of trioxodinitrate was found to become progressively labeled with 15N during incubation with [15N]nitrite. These results argue that (a) the N-N bond of trioxodinitrate is not preserved in its conversion to N2O, (b) trioxodinitrate can be neither a free nor enzyme-bound intermediate in denitrifying bacteria, and (c) the pathways from nitrite and trioxodinitrate involve a common mononitrogen intermediate. The conclusion that this intermediate is probably nitroxyl (HNO), at least with Paracoccus denitrificans and Pseudomonas stutzeri, provides indirect evidence that N-N bond formation in denitrification can occur through the dimerization of nitroxyl.