A novel oxidase from Alcaligenes sp. HO-1 oxidizes hydroxylamine to N2

Author:

Wu Meng-Ru,Miao Li-Li,Liu Ying,Hou Ting-Ting,Ai Guo-Min,Ma Lan,Zhu Hai-Zhen,Zhu Ya-Xin,Gao Xi-Yan,Qian Xin-Xin,Qin Ya-Ling,Wu Tong,Shen Xi-Hui,Jiang Cheng-Ying,Herbold Craig W.,Wagner Michael,Li De-FengORCID,Liu Zhi-PeiORCID,Liu Shuang-JiangORCID

Abstract

AbstractHydroxylamine is a key intermediate of microbial ammonia oxidation and plays an important role in the biogeochemical cycling of N-compounds. Hydroxylamine is oxidized to NO or N2O by hydroxylamine oxidases or cytochrome P460 from heterotrophic or autotrophic bacteria, but its enzymatic oxidation to N2 has not yet been observed. Here, we report on the discovery of a novel oxidase that converts hydroxylamine to N2 from the newly isolated heterotrophic nitrifier Alcaligenes strain HO-1. Strain HO-1 accumulated hydroxylamine and produced N2 from ammonia oxidation. Using transcriptome analysis and heterologous expression via fosmid library screening, we identified three genes (dnfABC) of strain HO-1 that enabled E. coli cells not only to produce hydroxylamine from 15N-labelled ammonium but also to further convert it to 15N2. The three genes were individually cloned and expressed, and their translational products DnfA, DnfB, and DnfC were purified. In vitro DnfA bound to hydroxylamine and catalyzed the conversion of hydroxylamine to N2 in the presence of FAD, NADH and O2. Thus, DnfA was identified as a novel hydroxylamine oxidase and catalyzed a previously unknown N-N bond forming reaction with a yet-to-be discovered mechanism. DnfA homologs were detected in different bacterial groups, suggesting that hydroxylamine oxidation to nitrogen might occur in additional microbial taxa.

Publisher

Cold Spring Harbor Laboratory

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