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Draft Genome Sequence of the Bactrocera oleae Symbiont “ Candidatus Erwinia dacicola”

Citation
Blow et al. (2016). Genome Announcements 4 (5)
Names
Ca. Erwinia dacicola
Abstract
ABSTRACT “ Candidatus Erwinia dacicola” is a Gammaproteobacterium that forms a symbiotic association with the agricultural pest Bactrocera oleae . Here, we present a 2.1-Mb draft hybrid genome assembly for “ Ca. Erwinia dacicola” generated from single-cell and metagenomic data.

Complete Genome Sequence of “ Candidatus Viadribacter manganicus” Isolated from a German Floodplain Area

Citation
Braun, Szewzyk (2016). Genome Announcements 4 (5)
Names
Ca. Viadribacter manganicus
Abstract
ABSTRACT Iron- and manganese-depositing bacteria occur in many soils and all water systems, and their biogenic depositions of ochre in technical systems may cause severe clogging problems and monetary losses. “ Candidatus Viadribacter manganicus” is a small coccoid, iron- and manganese-depositing bacterium isolated from the Lower Oder Valley National Park, Germany.

Nitrogen fixation in a chemoautotrophic lucinid symbiosis

Citation
König et al. (2016). Nature Microbiology 2 (1)
Names
Ca. Thiodiazotropha fergusoni “Thiodiazotropha endolucinida”
Abstract
AbstractThe shallow water bivalve Codakia orbicularis lives in symbiotic association with a sulfur-oxidizing bacterium in its gills. The endosymbiont fixes CO2 and thus generates organic carbon compounds, which support the host's growth. To investigate the uncultured symbiont's metabolism and symbiont–host interactions in detail we conducted a proteogenomic analysis of purified bacteria. Unexpectedly, our results reveal a hitherto completely unrecognized feature of the C. orbicularis symbiont's

Thousands of microbial genomes shed light on interconnected biogeochemical processes in an aquifer system

Citation
Anantharaman et al. (2016). Nature Communications 7 (1)
Names
“Kerfeldiibacteriota” “Komeiliibacteriota” “Lindowiibacteriota” “Liptoniibacteriota” “Lloydiibacteriota” “Margulisiibacteriota” “Nealsoniibacteriota” “Niyogiibacteriota” “Portnoyibacteriota” “Raymondiibacteriota” “Ryaniibacteriota” “Schekmaniibacteriota” “Spechtiibacteriota” “Staskawicziibacteriota” “Sungiibacteriota” “Tagaibacteriota” “Tayloriibacteriota” “Terryibacteriota” “Vebleniibacteriota” “Yonathiibacteriota” “Zambryskiibacteriota” “Rifleibacteriota” “Ozemibacteria”
Abstract
AbstractThe subterranean world hosts up to one-fifth of all biomass, including microbial communities that drive transformations central to Earth’s biogeochemical cycles. However, little is known about how complex microbial communities in such environments are structured, and how inter-organism interactions shape ecosystem function. Here we apply terabase-scale cultivation-independent metagenomics to aquifer sediments and groundwater, and reconstruct 2,540 draft-quality, near-complete and complet