Use of Fe(III) as an electron acceptor to recover previously uncultured hyperthermophiles: isolation and characterization of Geothermobacterium ferrireducens gen. nov., sp. nov
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Genome Analysis of Thermosulfurimonas dismutans, the First Thermophilic Sulfur-Disproportionating Bacterium of the Phylum ThermodesulfobacteriaExtracellular Electron Transfer to Fe(III) Oxides by the Hyperthermophilic Archaeon Geoglobus ahangari via a Direct Contact MechanismThermophily in the Geobacteraceae: Geothermobacter ehrlichii gen. nov., sp. nov., a novel thermophilic member of the Geobacteraceae from the "Bag City" hydrothermal ventDiversity of functional genes of methanogens, methanotrophs and sulfate reducers in deep-sea hydrothermal environments.Selective phylogenetic analysis targeted at 16S rRNA genes of thermophiles and hyperthermophiles in deep-subsurface geothermal environmentsMicrobial community structure and sulfur biogeochemistry in mildly-acidic sulfidic geothermal springs in Yellowstone National Park.Thermodesulfobacterium geofontis sp. nov., a hyperthermophilic, sulfate-reducing bacterium isolated from Obsidian Pool, Yellowstone National Park.Growth of thermophilic and hyperthermophilic Fe(III)-reducing microorganisms on a ferruginous smectite as the sole electron acceptor.Microbial communities and chemosynthesis in yellowstone lake sublacustrine hydrothermal vent waters.Iron management and production of electricity by microorganisms.Adaptations of archaeal and bacterial membranes to variations in temperature, pH and pressure.Ecological differentiation in planktonic and sediment-associated chemotrophic microbial populations in Yellowstone hot springs.Energy sources for chemolithotrophs in an arsenic- and iron-rich shallow-sea hydrothermal system.Microbial Fe(III) oxide reduction potential in Chocolate Pots hot spring, Yellowstone National Park.Genome-wide gene expression patterns and growth requirements suggest that Pelobacter carbinolicus reduces Fe(III) indirectly via sulfide production.Grand challenges in extreme microbiology.Effects of trace element concentrations on culturing thermophiles.Characterization of extracellular minerals produced during dissimilatory Fe(III) and U(VI) reduction at 100 degrees C by Pyrobaculum islandicum.Community analysis of plant biomass-degrading microorganisms from Obsidian Pool, Yellowstone National Park.Metal-tolerant thermophiles: metals as electron donors and acceptors, toxicity, tolerance and industrial applications.[Nitrogen Fixation in Thermophilic Chemosynthetic Microbial Communities Depending on Hydrogen, Sulfate, and Carbon Dioxide].The thermal limits to life on EarthRelating Microbial Community and Physicochemical Parameters of a Hot Spring: Champagne Pool, Wai-o-tapu, New Zealand
P2860
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P2860
Use of Fe(III) as an electron acceptor to recover previously uncultured hyperthermophiles: isolation and characterization of Geothermobacterium ferrireducens gen. nov., sp. nov
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2002 nî lūn-bûn
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2002 թուականի Ապրիլին հրատարակուած գիտական յօդուած
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2002 թվականի ապրիլին հրատարակված գիտական հոդված
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2002年の論文
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2002年論文
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2002年論文
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2002年論文
@zh-hk
2002年論文
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2002年論文
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2002年论文
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name
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@ast
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@en
type
label
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@ast
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@en
prefLabel
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@ast
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@en
P2093
P2860
P921
P1476
Use of Fe(III) as an electron ...... rrireducens gen. nov., sp. nov
@en
P2093
Anna-Louise Reysenbach
Dawn E Holmes
Kazem Kashefi
P2860
P304
P356
10.1128/AEM.68.4.1735-1742.2002
P407
P577
2002-04-01T00:00:00Z