Hydroxylamine production by
            <i>Alcaligenes faecalis</i>
            challenges the paradigm of heterotrophic nitrification

Lenferink, Wouter B.; Bakken, Lars R.; Jetten, Mike S. M.; van Kessel, Maartje A. H. J.; Lücker, Sebastian

doi:10.1126/sciadv.adl3587

Sci. Adv.

2024

DOI: 10.1126/sciadv.adl3587

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Hydroxylamine production by Alcaligenes faecalis challenges the paradigm of heterotrophic nitrification

Wouter B. Lenferink,

Lars R. Bakken,

Mike S. M. Jetten

et al.

Abstract: Heterotrophic nitrifiers continue to be a hiatus in our understanding of the nitrogen cycle. Despite their discovery over 50 years ago, the physiology and environmental role of this enigmatic group remain elusive. The current theory is that heterotrophic nitrifiers are capable of converting ammonia to hydroxylamine, nitrite, nitric oxide, nitrous oxide, and dinitrogen gas via the subsequent actions of nitrification and denitrification. In addition, it was recently suggested that dinitrogen gas may be formed di… Show more

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Cited by 5 publications

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Genomic analysis and metabolic characteristics provide insights into inorganic nitrogen metabolism of novel bacterium Acinetobacter pittii J08

Ou,

Xie,

Zhong

et al. 2024

Bioresource Technology

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Genomic analysis and metabolic characteristics provide insights into inorganic nitrogen metabolism of novel bacterium Acinetobacter pittii J08

Ou,

Xie,

Zhong

et al. 2024

Bioresource Technology

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Dirammox (direct ammonia oxidation) to nitrogen (N2): discovery, current status, and perspectives

Qiu,

Liu

2025

Current Opinion in Microbiology

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Formation and Fate of Reactive Nitrogen during Biological Nitrogen Removal from Water: Important Yet Often Ignored Chemical Aspects of the Nitrogen Cycle

Su,

Domingo-Félez,

Zhi

et al. 2024

Environ. Sci. Technol.

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Hydroxylamine, nitrous acid, and nitric oxide are obligate intermediates or side metabolites in different nitrogenconverting microorganisms. These compounds are unstable and susceptible to the formation of highly reactive nitrogen species, including nitrogen dioxide, dinitrogen trioxide, nitroxyl, and peroxynitrite. Due to the high reactivity and cytotoxicity, the buildup of reactive nitrogen can affect the interplay of microorganisms/microbial processes, stimulate the reactions with organic compounds like organic micropollutants (OMP) and act as the precursors of nitrous oxide (N 2 O). However, there is little understanding of the occurrence and significance of reactive nitrogen during biological nitrogen conversions in engineered water systems. In this review, we evaluate the formation and fate of reactive nitrogen produced by microorganisms involved in biological nitrogen removal (BNR) processes, i.e., nitritation/nitrification, denitratation/denitrification, anammox, and the combined processes. While the formation of reactive nitrogen intermediates is entirely controlled by microbial activities, the consumption can be either biological or purely chemical. Changes in environmental conditions, such as redox transition, pH, and substrate availability, can imbalance the production and consumption of these reactive intermediates, thus leading to the transient accumulation of species. Based on previous experimental evidence, environmental relevance of reactive nitrogen in BNR systems, particularly related to abiotic N 2 O production and OMP transformation, is demonstrated.

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Hydroxylamine production by Alcaligenes faecalis challenges the paradigm of heterotrophic nitrification

Cited by 5 publications

References 93 publications

Genomic analysis and metabolic characteristics provide insights into inorganic nitrogen metabolism of novel bacterium Acinetobacter pittii J08

Genomic analysis and metabolic characteristics provide insights into inorganic nitrogen metabolism of novel bacterium Acinetobacter pittii J08

Dirammox (direct ammonia oxidation) to nitrogen (N2): discovery, current status, and perspectives

Formation and Fate of Reactive Nitrogen during Biological Nitrogen Removal from Water: Important Yet Often Ignored Chemical Aspects of the Nitrogen Cycle

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