Abstract
The genus Nitrospira is considered to be the most widespread and abundant group of nitrite-oxidizing bacteria in many natural and man-made ecosystems. However, the ecophysiological versatility within this phylogenetic group remains highly understudied, mainly due to the lack of pure cultures and genomic data. To further expand our understanding of this biotechnologically important genus, we analyzed the high quality draft genome of “Nitrospira lenta” strain BS10, a sublineage II Nitrospira that was isolated from a municipal wastewater treatment plant in Hamburg, Germany. The genome of “N. lenta” has a size of 3,756,190 bp and contains 3968 genomic objects, of which 3907 are predicted protein-coding sequences. Thorough genome annotation allowed the reconstruction of the “N. lenta” core metabolism for energy conservation and carbon fixation. Comparative analyses indicated that most metabolic features are shared with N. moscoviensis and “N. defluvii”, despite their ecological niche differentiation and phylogenetic distance. In conclusion, the genome of “N. lenta” provides important insights into the genomic diversity of the genus Nitrospira and provides a foundation for future comparative genomic studies that will generate a better understanding of the nitrification process.
Highlights
Nitrification, the two-step oxidation of ammonia to nitrate via nitrite, is a key process of the biogeochemical nitrogen cycle
Nitrite-oxidizing bacteria (NOB) are chemolithoautotrophic microorganisms that catalyze the oxidation of nitrite to nitrate, the second step of the nitrification process
“Nitrospira lenta” strain BS10 was isolated from a municipal Wastewater treatment plant (WWTP) [13] and it is the fourth isolate belonging to the sublineage II Nitrospira, besides N. moscoviensis [20], “N. japonica” [14], and the comammox organism “N. inopinata” [12]
Summary
Nitrification, the two-step oxidation of ammonia to nitrate via nitrite, is a key process of the biogeochemical nitrogen cycle. Based on 16S rRNA gene-based phylogentic analysis, “N. lenta” is affiliated with Nitrospira sublineage II but is only distantly related to the sublineage II type strain, N. moscoviensis (Fig. 1). While “N. lenta” is not able to tolerate high concentrations of nitrite, it exhibits a lower affinity for nitrite compared to N. moscoviensis and “N. defluvii”, which indicates a clear niche differentiation among these Nitrospira species [21].
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