Cyanate as an energy source for nitrifiers

Marton Palatinszky, Craig Herbold, Nico Jehmlich, Mario Pogoda, Ping Han, Martin von Bergen, Ilias Lagkouvardos, Soren M. Karst, Alexander Galushko, Hanna Koch, David Berry, Holger Daims, Michael Wagner (Corresponding author)

    Publications: Contribution to journalShort communicationPeer Reviewed

    Abstract

    Ammonia- and nitrite-oxidizing microorganisms are collectively responsible for the aerobic oxidation of ammonia via nitrite to nitrate and have essential roles in the global biogeochemical nitrogen cycle. The physiology of nitrifiers has been intensively studied, and urea and ammonia are the only recognized energy sources that promote the aerobic growth of ammonia-oxidizing bacteria and archaea. Here we report the aerobic growth of a pure culture of the ammonia-oxidizing thaumarchaeote Nitrososphaera gargensis using cyanate as the sole source of energy and reductant; to our knowledge, the first organism known to do so. Cyanate, a potentially important source of reduced nitrogen in aquatic and terrestrial ecosystems, is converted to ammonium and carbon dioxide in Nitrososphaera gargensis by a cyanase enzyme that is induced upon addition of this compound. Within the cyanase gene family, this cyanase is a member of a distinct clade also containing cyanases of nitrite-oxidizing bacteria of the genus Nitrospira. We demonstrate by co-culture experiments that these nitrite oxidizers supply cyanase-lacking ammonia oxidizers with ammonium from cyanate, which is fully nitrified by this microbial consortium through reciprocal feeding. By screening a comprehensive set of more than 3,000 publically available metagenomes from environmental samples, we reveal that cyanase-encoding genes clustering with the cyanases of these nitrifiers are widespread in the environment. Our results demonstrate an unexpected metabolic versatility of nitrifying microorganisms, and suggest a previously unrecognized importance of cyanate in cycling of nitrogen compounds in the environment.

    Original languageEnglish
    Pages (from-to)105–108
    Number of pages4
    JournalNature
    Volume524
    Issue number7563
    DOIs
    Publication statusPublished - 6 Aug 2015

    Austrian Fields of Science 2012

    • 106022 Microbiology
    • 105904 Environmental research
    • 106026 Ecosystem research
    • 104023 Environmental chemistry

    Keywords

    • NITRITE-OXIDIZING BACTERIA
    • ELECTRON-ACCEPTOR
    • SP-NOV
    • ALIGNMENT
    • AMMONIUM
    • GROWTH
    • SOIL
    • POPULATIONS
    • HYDROGEN
    • CYANIDE

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