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1.
PLoS One ; 9(4): e95380, 2014.
Artigo em Inglês | MEDLINE | ID: mdl-24743558

RESUMO

Marine Group I (MGI) Thaumarchaeota are one of the most abundant and cosmopolitan chemoautotrophs within the global dark ocean. To date, no representatives of this archaeal group retrieved from the dark ocean have been successfully cultured. We used single cell genomics to investigate the genomic and metabolic diversity of thaumarchaea within the mesopelagic of the subtropical North Pacific and South Atlantic Ocean. Phylogenetic and metagenomic recruitment analysis revealed that MGI single amplified genomes (SAGs) are genetically and biogeographically distinct from existing thaumarchaea cultures obtained from surface waters. Confirming prior studies, we found genes encoding proteins for aerobic ammonia oxidation and the hydrolysis of urea, which may be used for energy production, as well as genes involved in 3-hydroxypropionate/4-hydroxybutyrate and oxidative tricarboxylic acid pathways. A large proportion of protein sequences identified in MGI SAGs were absent in the marine cultures Cenarchaeum symbiosum and Nitrosopumilus maritimus, thus expanding the predicted protein space for this archaeal group. Identifiable genes located on genomic islands with low metagenome recruitment capacity were enriched in cellular defense functions, likely in response to viral infections or grazing. We show that MGI Thaumarchaeota in the dark ocean may have more flexibility in potential energy sources and adaptations to biotic interactions than the existing, surface-ocean cultures.


Assuntos
Archaea/genética , Archaea/classificação , DNA Arqueal/genética , Filogenia
2.
PLoS One ; 6(3): e17769, 2011 Mar 17.
Artigo em Inglês | MEDLINE | ID: mdl-21437234

RESUMO

Leptothrix ochracea is a common inhabitant of freshwater iron seeps and iron-rich wetlands. Its defining characteristic is copious production of extracellular sheaths encrusted with iron oxyhydroxides. Surprisingly, over 90% of these sheaths are empty, hence, what appears to be an abundant population of iron-oxidizing bacteria, consists of relatively few cells. Because L. ochracea has proven difficult to cultivate, its identification is based solely on habitat preference and morphology. We utilized cultivation-independent techniques to resolve this long-standing enigma. By selecting the actively growing edge of a Leptothrix-containing iron mat, a conventional SSU rRNA gene clone library was obtained that had 29 clones (42% of the total library) related to the Leptothrix/Sphaerotilus group (≤96% identical to cultured representatives). A pyrotagged library of the V4 hypervariable region constructed from the bulk mat showed that 7.2% of the total sequences also belonged to the Leptothrix/Sphaerotilus group. Sorting of individual L. ochracea sheaths, followed by whole genome amplification (WGA) and PCR identified a SSU rRNA sequence that clustered closely with the putative Leptothrix clones and pyrotags. Using these data, a fluorescence in-situ hybridization (FISH) probe, Lepto175, was designed that bound to ensheathed cells. Quantitative use of this probe demonstrated that up to 35% of microbial cells in an actively accreting iron mat were L. ochracea. The SSU rRNA gene of L. ochracea shares 96% homology with its closet cultivated relative, L. cholodnii, This establishes that L. ochracea is indeed related to this group of morphologically similar, filamentous, sheathed microorganisms.


Assuntos
Genômica/métodos , Hibridização in Situ Fluorescente/métodos , Leptothrix/citologia , Leptothrix/genética , Análise de Sequência de DNA/métodos , Temperatura , Biodiversidade , Células Clonais , Ferro/metabolismo , Dados de Sequência Molecular , Filogenia , RNA Ribossômico/genética , Subunidades Ribossômicas Menores/genética
3.
Science ; 333(6047): 1296-300, 2011 Sep 02.
Artigo em Inglês | MEDLINE | ID: mdl-21885783

RESUMO

Recent studies suggest that unidentified prokaryotes fix inorganic carbon at globally significant rates in the immense dark ocean. Using single-cell sorting and whole-genome amplification of prokaryotes from two subtropical gyres, we obtained genomic DNA from 738 cells representing most cosmopolitan lineages. Multiple cells of Deltaproteobacteria cluster SAR324, Gammaproteobacteria clusters ARCTIC96BD-19 and Agg47, and some Oceanospirillales from the lower mesopelagic contained ribulose-1,5-bisphosphate carboxylase-oxygenase and sulfur oxidation genes. These results corroborated community DNA and RNA profiling from diverse geographic regions. The SAR324 genomes also suggested C(1) metabolism and a particle-associated life-style. Microautoradiography and fluorescence in situ hybridization confirmed bicarbonate uptake and particle association of SAR324 cells. Our study suggests potential chemolithoautotrophy in several uncultured Proteobacteria lineages that are ubiquitous in the dark oxygenated ocean and provides new perspective on carbon cycling in the ocean's largest habitat.


Assuntos
Crescimento Quimioautotrófico , Deltaproteobacteria/metabolismo , Gammaproteobacteria/metabolismo , Água do Mar/microbiologia , Transportadores de Cassetes de Ligação de ATP/genética , Transportadores de Cassetes de Ligação de ATP/metabolismo , Ciclo do Carbono , Dióxido de Carbono/metabolismo , Escuridão , Deltaproteobacteria/classificação , Deltaproteobacteria/genética , Deltaproteobacteria/crescimento & desenvolvimento , Gammaproteobacteria/classificação , Gammaproteobacteria/genética , Gammaproteobacteria/crescimento & desenvolvimento , Genes Bacterianos , Genoma Bacteriano , Metagenoma , Dados de Sequência Molecular , Oceanos e Mares , Oxirredução , Filogenia , Ribulose-Bifosfato Carboxilase/genética , Enxofre/metabolismo , Compostos de Enxofre/metabolismo
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