Nitrite-oxidizing bacteria (NOB) catalyze the second step of nitrification, a major process of the biogeochemical nitrogen cycle, but the recognized diversity of this guild is surprisingly low and only two bacterial phyla contain known NOB. Here, we report on the discovery of a chemolithoautotrophic nitrite oxidizer that belongs to the widespread phylum
Chloroflexi
not previously known to contain any nitrifying organism. This organism, named
Nitrolancetus hollandicus
, was isolated from a nitrifying reactor. Its tolerance to a broad temperature range (25–63 °C) and low affinity for nitrite (
K
s
=1 mℳ), a complex layered cell envelope that stains Gram positive, and uncommon membrane lipids composed of 1,2-diols distinguish
N. hollandicus
from all other known nitrite oxidizers.
N. hollandicus
grows on nitrite and CO
2
, and is able to use formate as a source of energy and carbon. Genome sequencing and analysis of
N. hollandicus
revealed the presence of all genes required for CO
2
fixation by the Calvin cycle and a nitrite oxidoreductase (NXR) similar to the NXR forms of the proteobacterial nitrite oxidizers,
Nitrobacter
and
Nitrococcus
. Comparative genomic analysis of the
nxr
loci unexpectedly indicated functionally important lateral gene transfer events between
Nitrolancetus
and other NOB carrying a cytoplasmic NXR, suggesting that horizontal transfer of the NXR module was a major driver for the spread of the capability to gain energy from nitrite oxidation during bacterial evolution. The surprising discovery of
N. hollandicus
significantly extends the known diversity of nitrifying organisms and likely will have implications for future research on nitrification in natural and engineered ecosystems.
Nautilia lithotrophica gen. nov., sp. nov., a thermophilic sulfur-reducing ε-proteobacterium isolated from a deep-sea hydrothermal vent where it forms a deep cluster with recently isolated relatives. On the basis of phenotypic and phylogenetic differences between strain 525 T and its closest phylogenetic relatives, it is proposed that the new isolate should be described as a member of a new genus, Nautilia, for which the name Nautilia lithotrophica gen. nov., sp. nov. is proposed. The type strain is strain 525 T (l DSM 13520 T ).
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