Nitrospira inopinata

From MicrobeWiki, the student-edited microbiology resource

Classification

Domain Bacteria; Phylum Nitrospirota; Class Nitrospira; Order Nitrospirales; Family Nitrospiraceae; Genus Nitrospira

Species

Candidatus Nitrospira inopinata

Figure 1: Major microbial processes involved in nitrogen transformations.

Description and Significance

Nitrospira inopinata was first obtained in 2011 from a microbial biofilm formed on the metal surface of a pipe which was raised from 1,200m deep oil exploration well in Russia. A pure culture of N. inopinata was later obtained in 2017.

Nitrospira inopinata is a bacterium within the phylum Nitrospirota. Nitrospirota is a phylum containing nitrite-oxidizing bacteria that play an important role in nitrification. Nitrification is the oxidation of ammonia via nitrite to nitrate. Ammonia oxidizing bacteria (AOB) convert ammonium (NH4+) to nitrite (NO2-) and nitrite-oxidizing bacteria (NOB) convert nitrite (NO2-) to nitrate (NO3-). N. inopinata is the first complete ammonium oxidating (comammox) bacterium to be discovered, and it has the ability to perform the nitrification process in one step. This involves the complete ammonia (NH4+) oxidation to nitrate (NO3-).

In biological wastewater treatment, nitrification by microbial organisms plays an important role in the removal of excess nitrogen compounds.

Genome Structure

The complete genome sequencing of N. inopinata was first completed in December of 2015, and later published in "Nature." The genome size is 3.3 Mbp, and includes 3,105 genes with a 59.2% GC content.

16S rRNA-based methods cannot be used to distinguish comammox bacteria from nitrite-oxidizing bacteria. Thus, other molecular techniques such as metagenomics and functional gene-based PCR assays are used to detect complete nitrifiers. Comammox bacteria can also be found using direct-geneFISH, and the detection of the amoA gene or AMO protein.

The genus Nitrospira is classified into six sublineages. Due to the presence of ammonia monooxygenase (amo) genes, comammox Nitrospira fit into sublineage two, which is further comprised of clades A and B.

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Ecology

Cell Structure, Metabolism, Life Cycle

Current Research

Literature Cited

Daims, H., Lebedeva, E. V., Pjevac, P., Han, P., Herbold, C., Albertsen, M., ... & Wagner, M. (2015). Complete nitrification by Nitrospira bacteria. Nature, 528(7583), 504-509.

Han, P., Yu, Y., Zhou, L., Tian, Z., Li, Z., Hou, L., ... & Men, Y. (2019). Specific micropollutant biotransformation pattern by the comammox bacterium Nitrospira inopinata. Environmental science & technology, 53(15), 8695-8705.

Koch, H., van Kessel, M. A., & Lücker, S. (2019). Complete nitrification: insights into the ecophysiology of comammox Nitrospira. Applied microbiology and biotechnology, 103, 177-189.

Li, C., He, Z. Y., Hu, H. W., & He, J. Z. (2023). Niche specialization of comammox Nitrospira in terrestrial ecosystems: Oligotrophic or copiotrophic?. Critical Reviews in Environmental Science and Technology, 53(2), 161-176.

Lu, S., Sun, Y., Lu, B., Zheng, D., & Xu, S. (2020). Change of abundance and correlation of Nitrospira inopinata-like comammox and populations in nitrogen cycle during different seasons. Chemosphere, 241, 125098.

U.S. National Library of Medicine. (n.d.). Candidatus nitrospira inopinata - NCBI - NLM. National Center for Biotechnology Information. Retrieved March 20, 2023, from https://www.ncbi.nlm.nih.gov/data-hub/taxonomy/1715989/

Vijayan, A., Vattiringal Jayadradhan, R. K., Pillai, D., Prasannan Geetha, P., Joseph, V., & Isaac Sarojini, B. S. (2021). Nitrospira as versatile nitrifiers: Taxonomy, ecophysiology, genome characteristics, growth, and metabolic diversity. Journal of Basic Microbiology, 61(2), 88-109.

Wikimedia Foundation. (2022, May 13). Nitrospira inopinata. Wikipedia. Retrieved March 20, 2023, from https://en.wikipedia.org/wiki/Nitrospira_inopinata

Author

Alexis Ludwig; Dr. Hideotoshi Urakawa - Microbial Ecology Spring 2023