TY - JOUR
T1 - Phylogenomic analysis of Candidatus ‘Izimaplasma’ species: free-living representatives from a Tenericutes clade found in methane seeps
AU - Skennerton, Connor T.
AU - Haroon, Mohamed
AU - Briegel, Ariane
AU - Shi, Jian
AU - Jensen, Grant J.
AU - Tyson, Gene W.
AU - Orphan, Victoria J.
N1 - KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: This work is funded by the Gordon and Betty Moore Foundation through Grant GBMF3780 and the US Department of Energy, Office of Science, Office of Biological Environmental Research under award numbers DESC0003940 and DE-SC0010574 (to VJO). Additional support was provided by Caltech's Center for Environmental Microbial Interactions and the Howard Hughes Medical Institute. We thank D Smith, S Scheller, S Zinder, J Hemp and D Newman for helpful discussions and M Imelfort for bioinformatics assistance. GWT was supported by an ARC Queen Elizabeth II fellowship (ARC-DP1093175)
PY - 2016/4/8
Y1 - 2016/4/8
N2 - Tenericutes are a unique class of bacteria that lack a cell wall and are typically parasites or commensals of eukaryotic hosts. Environmental 16S rDNA surveys have identified a number of tenericute clades in diverse environments, introducing the possibility that these Tenericutes may represent non-host-associated, free-living microorganisms. Metagenomic sequencing of deep-sea methane seep sediments resulted in the assembly of two genomes from a Tenericutes-affiliated clade currently known as 'NB1-n' (SILVA taxonomy) or 'RF3' (Greengenes taxonomy). Metabolic reconstruction revealed that, like cultured members of the Mollicutes, these 'NB1-n' representatives lack a tricarboxylic acid cycle and instead use anaerobic fermentation of simple sugars for substrate level phosphorylation. Notably, the genomes also contained a number of unique metabolic features including hydrogenases and a simplified electron transport chain containing an RNF complex, cytochrome bd oxidase and complex I. On the basis of the metabolic potential predicted from the annotated genomes, we devised an anaerobic enrichment media that stimulated the growth of these Tenericutes at 10 °C, resulting in a mixed culture where these organisms represented ∼60% of the total cells by targeted fluorescence in situ hybridization (FISH). Visual identification by FISH confirmed these organisms were not directly associated with Eukaryotes and electron cryomicroscopy of cells in the enrichment culture confirmed an ultrastructure consistent with the defining phenotypic property of Tenericutes, with a single membrane and no cell wall. On the basis of their unique gene content, phylogenetic placement and ultrastructure, we propose these organisms represent a novel class within the Tenericutes, and suggest the names Candidatus 'Izimaplasma sp. HR1' and Candidatus 'Izimaplasma sp. HR2' for the two genome representatives.
AB - Tenericutes are a unique class of bacteria that lack a cell wall and are typically parasites or commensals of eukaryotic hosts. Environmental 16S rDNA surveys have identified a number of tenericute clades in diverse environments, introducing the possibility that these Tenericutes may represent non-host-associated, free-living microorganisms. Metagenomic sequencing of deep-sea methane seep sediments resulted in the assembly of two genomes from a Tenericutes-affiliated clade currently known as 'NB1-n' (SILVA taxonomy) or 'RF3' (Greengenes taxonomy). Metabolic reconstruction revealed that, like cultured members of the Mollicutes, these 'NB1-n' representatives lack a tricarboxylic acid cycle and instead use anaerobic fermentation of simple sugars for substrate level phosphorylation. Notably, the genomes also contained a number of unique metabolic features including hydrogenases and a simplified electron transport chain containing an RNF complex, cytochrome bd oxidase and complex I. On the basis of the metabolic potential predicted from the annotated genomes, we devised an anaerobic enrichment media that stimulated the growth of these Tenericutes at 10 °C, resulting in a mixed culture where these organisms represented ∼60% of the total cells by targeted fluorescence in situ hybridization (FISH). Visual identification by FISH confirmed these organisms were not directly associated with Eukaryotes and electron cryomicroscopy of cells in the enrichment culture confirmed an ultrastructure consistent with the defining phenotypic property of Tenericutes, with a single membrane and no cell wall. On the basis of their unique gene content, phylogenetic placement and ultrastructure, we propose these organisms represent a novel class within the Tenericutes, and suggest the names Candidatus 'Izimaplasma sp. HR1' and Candidatus 'Izimaplasma sp. HR2' for the two genome representatives.
UR - http://hdl.handle.net/10754/622450
UR - http://www.nature.com/articles/ismej201655
UR - http://www.scopus.com/inward/record.url?scp=84964056011&partnerID=8YFLogxK
U2 - 10.1038/ismej.2016.55
DO - 10.1038/ismej.2016.55
M3 - Article
SN - 1751-7362
VL - 10
SP - 2679
EP - 2692
JO - The ISME Journal
JF - The ISME Journal
IS - 11
ER -