Complete Genome Sequence of Nitrosomonas ureae Strain Nm10, an Oligotrophic Group 6a Nitrosomonad

The complete genome of Nitrosomonas ureae strain Nm10, a mesophilic betaproteobacterial ammonia oxidizer isolated from Mediterranean soils in Sardinia, Italy, is reported here. This genome represents a cluster 6a nitrosomonad.

bacteria (AOB) remain vital to our understanding of the potential roles these organisms play in the global nitrogen cycle. To complement physiological studies on AOB, complete-genome sequences provide insight into how inventory relates to metabolic capacity and environmental niche. The AOB Nitrosomonas ureae Nm10 was first isolated from soils in Sardinia, Italy (1), and is an oligotrophic aerobic betaproteobacterium belonging to Nitrosomonas cluster 6a (2).
The genome of N. ureae was sequenced at the University of Washington, WA, using the PacBio RSII platform; 300,584 raw reads resulted in 166,852 quality-filtered trimmed reads yielding 1,340 Mb, with a mean genome-wide coverage of 311ϫ. The filtered reads were assembled at the University of Alberta, Alberta, Canada, using HGAP version 2.3 (3), and resulted in a 1-contig scaffold. Annotation was performed using the NCBI Prokaryotic Genome Annotation Pipeline (4). The genome is 3.3 Mbp, with a mean GϩC content of 44.5% and 2,897 predicted protein-coding genes. The genome includes 40 tRNA genes and a single copy of the 16S-23S-5S rRNA operon. Gene prediction analysis and comparative genomics were performed with IMG (5). The closest neighbor of N. ureae is Nitrosomonas sp. strain AL212 (6), with an average nucleotide identity (ANI) (7) of 93.18%.
N. ureae oxidizes ammonia to nitrite as a sole source of energy and reductant. The genome contains 3 operons for ammonia monooxygenase (amoCAB), two of which are followed by the orf4 and orf5 genes that are often found in ␤-AOB (8). Two orphan amoC genes were also identified, along with a single copy of the AOB-specific red-copper protein nitrosocyanin (9). It is important to note that this is the first report of an AOB containing four complete operons for hydroxylamine dehydrogenase (haoAB-cycAB), as betaproteobacterial AOB usually contain 2 or 3 copies, and one copy often lacks the cycB gene (8).
Terrestrial AOB can contribute to nitrogen-oxide release, including the production of nitric and nitrous oxide through nitrifier denitrification (13,14). The genes in N. ureae that are implicated in this process include a copper-containing nitrite reductase (nirK), NO-responsive regulator NnrS, cytochrome P460 (cytL), and cytochrome c= beta (cytS). Interestingly, no homologues for nitric oxide reductases were found in the genome, a featured shared by the closely related 6a AOB Nitrosomonas sp. Is79 (12).
The N. ureae genes for iron acquisition and storage include one copy of the ferric uptake regulation protein (FUR) (15), a Streptococcus-like ferric iron ABC transporter (16), two copies of TonB-associated ferric siderophore transporters (17), and two copies of bacterioferritin genes. Two copies of cyanophycin synthetase genes, utilized for nitrogen storage (18), were also identified.
Nucleotide sequence accession numbers. The genome sequence has been deposited in GenBank under the accession no. CP013341. The version described in this paper is the first version, CP013341.1.

ACKNOWLEDGMENTS
Support for this research was provided by Alberta Innovates Technology Futures (to J.A.K. and K.D.K.) and by a discovery grant from the Natural Sciences and Engineering Research Council of Canada (to L.Y.S.). We also thank Andreas Pommerening-Röser at the University of Hamburg for providing cultures of N. ureae strain Nm10.

FUNDING INFORMATION
This work, including the efforts of Lisa Y. Stein, was funded by Gouvernement du Canada | Natural Sciences and Engineering Research Council of Canada (NSERC). This work, including the efforts of Jessica Kozlowski, was funded by Alberta Innovates -Technology Futures. This work, including the efforts of Kerim Dimitri Kits, was funded by Alberta Innovates -Technology Futures.