Ammonia Oxidation and Nitrite Reduction in the Verrucomicrobial Methanotroph SolV.

The Solfatara volcano near Naples (Italy), the origin of the recently discovered verrucomicrobial methanotroph SolV was shown to contain ammonium ([Formula: see text]) at concentrations ranging from 1 to 28 mM. Ammonia (NH) can be converted to toxic hydroxylamine (NHOH) by the particulate methane monooxygenase (pMMO), the first enzyme of the methane (CH) oxidation pathway. Methanotrophs rapidly detoxify the intermediate NHOH. Here, we show that strain SolV performs ammonium oxidation to nitrite at a rate of 48.2 nmol [Formula: see text].h.mg DW under O limitation in a continuous culture grown on hydrogen (H) as an electron donor. In addition, strain SolV carries out nitrite reduction at a rate of 74.4 nmol [Formula: see text].h.mg DW under anoxic condition at pH 5-6. This range of pH was selected to minimize the chemical conversion of nitrite ([Formula: see text]) potentially occurring at more acidic pH values. Furthermore, at pH 6, we showed that the affinity constants (K ) of the cells for NH vary from 5 to 270 μM in the batch incubations with 0.5-8% (v/v) CH, respectively. Detailed kinetic analysis showed competitive substrate inhibition between CH and NH. Using transcriptome analysis, we showed up-regulation of the gene encoding hydroxylamine dehydrogenase () cells grown on H/[Formula: see text] compared to the cells grown on CH/[Formula: see text] which do not have to cope with reactive N-compounds. The denitrifying genes and showed high expression in H/[Formula: see text] and CH/[Formula: see text] grown cells compared to cells growing at μ (with no limitation) while the gene showed downregulation in CH/[Formula: see text] grown cells. These cells showed a strong upregulation of the genes in nitrate/nitrite assimilation. Our results demonstrate that strain SolV can perform ammonium oxidation producing nitrite. At high concentrations of ammonium this may results in toxic effects. However, at low oxygen concentrations strain SolV is able to reduce nitrite to NO to cope with this toxicity.