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Cultivation and genomic characterization of novel and ubiquitous marine nitrite-oxidizing bacteria from the Nitrospirales

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    0577597 - BC 2024 RIV GB eng J - Journal Article
    Mueller, A.J. - Daebeler, Anne - Herbold, C.W. - Kirkegaard, R.H. - Daims, H.
    Cultivation and genomic characterization of novel and ubiquitous marine nitrite-oxidizing bacteria from the Nitrospirales.
    The ISME Journal. Roč. 17, č. 11 (2023), s. 2123-2133. ISSN 1751-7362. E-ISSN 1751-7370
    R&D Projects: GA ČR(CZ) GM21-17322M
    Institutional support: RVO:60077344
    Keywords : marine nitrite-oxidizing bacteria * Nitrospirales * cultivation * genomic characterization * nitrite oxidation
    OECD category: Microbiology
    Impact factor: 10.8, year: 2023
    Method of publishing: Open access
    https://www.nature.com/articles/s41396-023-01518-6.pdf

    Nitrospirales, including the genus Nitrospira, are environmentally widespread chemolithoautotrophic nitrite-oxidizing bacteria. These mostly uncultured microorganisms gain energy through nitrite oxidation, fix CO2, and thus play vital roles in nitrogen and carbon cycling. Over the last decade, our understanding of their physiology has advanced through several new discoveries, such as alternative energy metabolisms and complete ammonia oxidizers (comammox Nitrospira). These findings mainly resulted from studies of terrestrial species, whereas less attention has been given to marine Nitrospirales. In this study, we cultured three new marine Nitrospirales enrichments and one isolate. Three of these four NOB represent new Nitrospira species while the fourth represents a novel genus. This fourth organism, tentatively named ''Ca. Nitronereus thalassa'', represents the first cultured member of a Nitrospirales lineage that encompasses both free-living and sponge-associated nitrite oxidizers, is highly abundant in the environment, and shows distinct habitat distribution patterns compared to the marine Nitrospira species. Partially explaining this, ''Ca. Nitronereus thalassa'' harbors a unique combination of genes involved in carbon fixation and respiration, suggesting differential adaptations to fluctuating oxygen concentrations. Furthermore, ''Ca. Nitronereus thalassa'' appears to have a more narrow substrate range compared to many other marine nitrite oxidizers, as it lacks the genomic potential to utilize formate, cyanate, and urea. Lastly, we show that the presumed marine Nitrospirales lineages are not restricted to oceanic and saline environments, as previously assumed.
    Permanent Link: https://hdl.handle.net/11104/0346751

     
     
Number of the records: 1  

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