Molecular characterization of the diversity and distribution of a thermal spring microbial community by using rRNA and metabolic genes.
about
Complete genome sequence of Thermocrinis albus type strain (HI 11/12)Introducing mothur: open-source, platform-independent, community-supported software for describing and comparing microbial communitiesMetagenomes from high-temperature chemotrophic systems reveal geochemical controls on microbial community structure and functionCoordinating environmental genomics and geochemistry reveals metabolic transitions in a hot spring ecosystemPannonibacter indica sp. nov., a highly arsenate-tolerant bacterium isolated from a hot spring in India.Community structures of N2 -fixing bacteria associated with the phyllosphere of a Holm oak forest and their response to drought.Assessment of the diversity, abundance, and ecological distribution of members of candidate division SR1 reveals a high level of phylogenetic diversity but limited morphotypic diversity.Genetic evidence for bacterial chemolithoautotrophy based on the reductive tricarboxylic acid cycle in groundwater systems.Diversification of bacterial community composition along a temperature gradient at a thermal springArchaeal and bacterial diversity in hot springs on the Tibetan Plateau, China.Unravelling the carbon and sulphur metabolism in coastal soil ecosystems using comparative cultivation-independent genome-level characterisation of microbial communitiesA comprehensive census of microbial diversity in hot springs of Tengchong, Yunnan Province China using 16S rRNA gene pyrosequencing.Control of temperature on microbial community structure in hot springs of the Tibetan Plateau.High abundance of heterotrophic prokaryotes in hydrothermal springs of the Azores as revealed by a network of 16S rRNA gene-based methods.Metagenome sequence analysis of filamentous microbial communities obtained from geochemically distinct geothermal channels reveals specialization of three aquificales lineages.An analysis of geothermal and carbonic springs in the western United States sustained by deep fluid inputs.Metagenomic evaluation of bacterial and archaeal diversity in the geothermal hot springs of manikaran, India.Spatial distribution of bacterial communities driven by multiple environmental factors in a beach wetland of the largest freshwater lake in ChinaOrganic matter quantity and source affects microbial community structure and function following volcanic eruption on Kasatochi Island, Alaska.The cyanobacterium Mastigocladus fulfills the nitrogen demand of a terrestrial hot spring microbial mat.Metatranscriptomic analysis of microbes in an Oceanfront deep-subsurface hot spring reveals novel small RNAs and type-specific tRNA degradation.Phylogenetic diversity of nitrogen-utilizing genes in hydrothermal chimneys from 3 middle ocean ridges.Metagenomics of an Alkaline Hot Spring in Galicia (Spain): Microbial Diversity Analysis and Screening for Novel Lipolytic EnzymesMicrobial community analysis of pH 4 thermal springs in Yellowstone National Park.Comparative genomic analysis of phylogenetically closely related Hydrogenobaculum sp. isolates from Yellowstone National ParkMetagenomic evidence for sulfur lithotrophy by Epsilonproteobacteria as the major energy source for primary productivity in a sub-aerial arctic glacial deposit, Borup Fiord PassMolecular Mechanisms Contributing to the Growth and Physiology of an Extremophile Cultured with Dielectric Heating.Molecular characterization of potential nitrogen fixation by anaerobic methane-oxidizing archaea in the methane seep sediments at the number 8 Kumano Knoll in the Kumano Basin, offshore of Japan.Distribution of CO(2) fixation and acetate mineralization pathways in microorganisms from extremophilic anaerobic biotopes.Differences in temperature and water chemistry shape distinct diversity patterns in thermophilic microbial communities.Functional genes and thermophilic microorganisms responsible for arsenite oxidation from the shallow sediment of an untraversed hot spring outlet.Diversity of bacterial communities related to the nitrogen cycle in a coastal tropical bay.Microbial diversity in Los Azufres geothermal field (Michoacán, Mexico) and isolation of representative sulfate and sulfur reducers.Diversity of bacteria and archaea from two shallow marine hydrothermal vents from Vulcano Island.Environmental constraints underpin the distribution and phylogenetic diversity of nifH in the Yellowstone geothermal complex.Arsenite oxidase gene diversity among Chloroflexi and Proteobacteria from El Tatio Geyser Field, Chile.Chemolithotrophic growth of the aerobic hyperthermophilic bacterium Thermocrinis ruber OC 14/7/2 on monothioarsenate and arsenite.Nasofacial infection in a cat due to a novel bacterium in Neisseriaceae.Local and Regional Scale Heterogeneity Drive Bacterial Community Diversity and Composition in a Polar Desert
P2860
Q24629506-AC91C041-4B5F-4AC2-9795-D757057EC2A6Q24647611-B4031CB2-5142-40D5-89E3-C7A170FDE5A3Q28473269-6B914F85-D0BA-4391-AB04-9C4CDE7DED83Q28484090-0EAFDE3C-6186-4896-A4B8-739A3C060A07Q30560676-5682D318-E33E-4DFF-883B-7461CFA5D761Q30661935-4FEBAC6D-319D-4BE4-8D55-F66EC6152DA7Q33435186-B3F71529-0B8D-41E5-8648-7D1ACB7C488CQ33674772-65111160-EEAC-488F-8898-25EA6CA768F5Q33920293-6F696FF8-02F4-4E74-9B70-8787E6A71494Q33939859-AD323A12-5B1A-4345-9753-2F1A9CC35877Q34203943-B0F65570-9115-4BB4-98CE-20851298020BQ34551333-3AC633C8-809C-4998-95FD-E062D7532058Q34717862-B63B7F02-E914-4177-9B14-8DD170671611Q34740843-D954EFA3-690E-4CA2-AC6A-61E4C2B49C8AQ34765460-5DB02F0D-E28E-46EA-9DC4-2F5419757E72Q35055973-DE7A0C10-F804-4FE2-8E03-8F13F27BEC3FQ35104269-57A008F5-22BE-4553-9ED7-573C5EEB779FQ35124392-B1088C23-80AE-4F8B-A869-CA94E61C55C4Q35648987-CC6EBEFB-FE5C-4FF0-BCC4-EAA3BA8E5D7AQ35729482-BF1B3022-9428-4839-A8AF-B9F719B22867Q35739212-D914DD34-1087-4935-8E5B-23F35055E11CQ35774995-2E4E1173-2E3D-49EA-ABD5-D72E148ABB5BQ35860725-A30348CF-B142-4D2D-BD7C-93EB595C5161Q36180811-CF4B137C-802D-4AB5-810D-BB4FE0BC8138Q36757203-5B2EBC8B-BFA0-4394-A719-AF5DD1C920D9Q36782251-520AD1E8-55D0-44B9-8BB5-81780D907C36Q37346481-B3BC9DD8-85E7-421A-B684-970C8E171F5AQ37451375-E5B1708B-39CE-446A-BD6B-AB906FCFDF17Q38052033-32D3E31A-958C-4176-9298-3E8F15F82CE7Q38618047-5DD58F95-4AB0-429E-9A18-224CE3E27D7EQ38934359-53B76BB7-FEDD-427F-9E87-7BA8FAE0FA92Q39027679-7B3DD823-8F65-451E-B315-AEB67A4746C4Q41964677-4F3F2FFE-7ED5-4279-99D6-394DC580D9D2Q43030584-1582E251-866E-4D24-86A5-E1C641A0C653Q44315239-BB8E3490-77FF-4E01-8698-F505AD90C88CQ46564477-7500EF30-BCB2-4D42-8267-6E3B65697549Q46834472-9C4D5EEF-7F19-4487-A406-E68D9B322F53Q51001120-CF04DE63-B5CE-4665-9E46-B8FAD21DE414Q58728857-B98F3C1B-E08F-4AD2-8C47-9F2D7DEB9A24
P2860
Molecular characterization of the diversity and distribution of a thermal spring microbial community by using rRNA and metabolic genes.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Molecular characterization of ...... sing rRNA and metabolic genes.
@en
type
label
Molecular characterization of ...... sing rRNA and metabolic genes.
@en
prefLabel
Molecular characterization of ...... sing rRNA and metabolic genes.
@en
P2093
P2860
P356
P1476
Molecular characterization of ...... sing rRNA and metabolic genes.
@en
P2093
Ara S Kooser
Brandi R Cron
Cristina D Takacs-Vesbach
Justine R Hall
Kendra R Mitchell
Laura J Crossey
Olan Jackson-Weaver
P2860
P304
P356
10.1128/AEM.00233-08
P407
P577
2008-06-06T00:00:00Z