Metagenome sequence analysis of filamentous microbial communities obtained from geochemically distinct geothermal channels reveals specialization of three aquificales lineages.
about
Ecophysiology of an uncultivated lineage of Aigarchaeota from an oxic, hot spring filamentous 'streamer' community.Geomicrobiology of sublacustrine thermal vents in Yellowstone Lake: geochemical controls on microbial community structure and function.Carbon Dioxide Fixation by Metallosphaera yellowstonensis and Acidothermophilic Iron-Oxidizing Microbial Communities from Yellowstone National ParkSoil microbial responses to increased moisture and organic resources along a salinity gradient in a polar desertIsolation of diverse members of the Aquificales from geothermal springs in Tengchong, China.Microbial Community Responses to Increased Water and Organic Matter in the Arid Soils of the McMurdo Dry Valleys, Antarctica.Merging metagenomics and geochemistry reveals environmental controls on biological diversity and evolution.Microbial contributions to coupled arsenic and sulfur cycling in the acid-sulfide hot spring Champagne Pool, New ZealandThe distribution, diversity and function of predominant Thermoproteales in high-temperature environments of Yellowstone National Park.Carbon source preference in chemosynthetic hot spring communities.Metabolic characteristics of dominant microbes and key rare species from an acidic hot spring in Taiwan revealed by metagenomics.Assembly and Succession of Iron Oxide Microbial Mat Communities in Acidic Geothermal Springs.Novel, Deep-Branching Heterotrophic Bacterial Populations Recovered from Thermal Spring MetagenomesThe YNP Metagenome Project: Environmental Parameters Responsible for Microbial Distribution in the Yellowstone Geothermal Ecosystem.Phylogenetic and Functional Analysis of Metagenome Sequence from High-Temperature Archaeal Habitats Demonstrate Linkages between Metabolic Potential and GeochemistryIn Situ Gene Expression Responsible for Sulfide Oxidation and CO2 Fixation of an Uncultured Large Sausage-Shaped Aquificae Bacterium in a Sulfidic Hot SpringIntegration of Metagenomic and Stable Carbon Isotope Evidence Reveals the Extent and Mechanisms of Carbon Dioxide Fixation in High-Temperature Microbial Communities.Niche specialization of novel Thaumarchaeota to oxic and hypoxic acidic geothermal springs of Yellowstone National ParkGreater temporal changes of sediment microbial community than its waterborne counterpart in Tengchong hot springs, Yunnan Province, ChinaMicrobial diversity and autotrophic activity in Kamchatka hot springs.Chemolithotrophic growth of the aerobic hyperthermophilic bacterium Thermocrinis ruber OC 14/7/2 on monothioarsenate and arsenite.[Nitrogen Fixation in Thermophilic Chemosynthetic Microbial Communities Depending on Hydrogen, Sulfate, and Carbon Dioxide].Multiscale analysis of autotroph-heterotroph interactions in a high-temperature microbial community
P2860
Q27322161-A41E9701-6F31-467C-A7DA-D77EB235B751Q27328475-1EC28A6A-4DBE-4A1B-BD97-782A5904A9D2Q29035813-6A601234-21D3-47BA-A672-6DF4963C1635Q30773576-92F4B4B6-B14E-40B4-B65B-110F297F34DFQ30910773-F77F7945-20E9-471F-9718-CAD1894078C4Q31119306-BFF040E9-DCFE-49D5-9CF3-097F2DFB9F1BQ33718633-383F3B77-B608-418B-BB0D-0CEFBF499579Q34452332-A7C0A69C-0E16-42D3-A04E-73D1CBF820CFQ34524313-95A936A3-8659-415C-AECE-A1E79AACBDF3Q35573464-BEF4CBF3-CEAC-4037-88B3-5BF5168E2861Q35859380-8AC354CC-1CBD-45D8-BA7E-7B8578BB91B8Q35935238-B2C3075F-B42E-471D-B6A9-0F9F98803D80Q36685765-ED769AEF-D41B-4A95-ACDE-8F6D556DC568Q36817606-AC4BBC47-3599-405F-BFB0-0FDF240C40D1Q36844651-0B6BD700-56D1-4A3F-A883-4AD846E3D333Q37016492-090CDFD6-02DB-4CD8-BF72-C52AA859018CQ37622107-667F4590-3141-46A0-97BA-4A2ADCE24B2DQ37650417-55FCD239-D3B1-4E47-9B4F-7542C4927B86Q37736315-A625B02D-D110-432E-A14E-42A2C11E825BQ43029358-E5C12CAE-861F-4C51-95DA-3031C94A4BE7Q46834472-C20ADFDC-0A75-4AFA-99F5-31FF2AD1303EQ49788081-504C6CAA-EAFB-4840-A8A9-FE6D79CAE501Q59127579-835E917D-4F3F-49F9-9E70-A5EB94226F02
P2860
Metagenome sequence analysis of filamentous microbial communities obtained from geochemically distinct geothermal channels reveals specialization of three aquificales lineages.
description
2013 nî lūn-bûn
@nan
2013 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Metagenome sequence analysis o ...... of three aquificales lineages.
@ast
Metagenome sequence analysis o ...... of three aquificales lineages.
@en
Metagenome sequence analysis o ...... of three aquificales lineages.
@nl
type
label
Metagenome sequence analysis o ...... of three aquificales lineages.
@ast
Metagenome sequence analysis o ...... of three aquificales lineages.
@en
Metagenome sequence analysis o ...... of three aquificales lineages.
@nl
prefLabel
Metagenome sequence analysis o ...... of three aquificales lineages.
@ast
Metagenome sequence analysis o ...... of three aquificales lineages.
@en
Metagenome sequence analysis o ...... of three aquificales lineages.
@nl
P2093
P2860
P50
P356
P1476
Metagenome sequence analysis o ...... of three aquificales lineages.
@en
P2093
Anna-Louise Reysenbach
Bruce W Fouke
Cristina Takacs-Vesbach
Douglas B Rusch
Mark A Kozubal
Markus J Herrgard
Natsuko Hamamura
Richard E Macur
Ryan deM Jennings
Timothy R McDermott
P2860
P356
10.3389/FMICB.2013.00084
P577
2013-05-29T00:00:00Z