PCR primers that amplify fungal rRNA genes from environmental samples.
about
Development of the human infant intestinal microbiotaThe ectomycorrhizal fungal community in a neotropical forest dominated by the endemic dipterocarp Pakaraimaea dipterocarpaceaShotgun metagenomes and multiple primer pair-barcode combinations of amplicons reveal biases in metabarcoding analyses of fungiMolecular analysis of fungal microbiota in samples from healthy human skin and psoriatic lesionsMolecular identification of ectomycorrhizal mycelium in soil horizonsChanges in Fungal Community Composition in Response to Elevated Atmospheric CO2 and Nitrogen Fertilization Varies with Soil HorizonValidation and application of a PCR primer set to quantify fungal communities in the soil environment by real-time quantitative PCR.Site- and horizon-specific patterns of microbial community structure and enzyme activities in permafrost-affected soils of GreenlandMolecular detection of fungal communities in the Hawaiian marine sponges Suberites zeteki and Mycale armataFrom the Tunnels into the Treetops: New Lineages of Black Yeasts from Biofilm in the Stockholm Metro System and Their Relatives among Ant-Associated Fungi in the ChaetothyrialesChanges in the microbial community structure of bacteria, archaea and fungi in response to elevated CO(2) and warming in an Australian native grassland soil.Characterization of bacterial and fungal soil communities by automated ribosomal intergenic spacer analysis fingerprints: biological and methodological variabilityElevated atmospheric CO2 stimulates soil fungal diversity through increased fine root production in a semiarid shrubland ecosystem.Potential bias of fungal 18S rDNA and internal transcribed spacer polymerase chain reaction primers for estimating fungal biodiversity in soil.In vivo monitoring of obligate biotrophic pathogen growth by kinetic PCR.Diversity of fungi in organic soils under a moorland--Scots pine (Pinus sylvestris L.) gradient.Estimating biodiversity of fungi in activated sludge communities using culture-independent methods.Enrichment versus biofilm culture: a functional and phylogenetic comparison of polycyclic aromatic hydrocarbon-degrading microbial communities.Molecular profiling of rhizosphere microbial communities associated with healthy and diseased black spruce (Picea mariana) seedlings grown in a nurseryCharacterization of the oral fungal microbiota in smokers and non-smokers.Determining diversity of freshwater fungi on decaying leaves: comparison of traditional and molecular approaches.Diversity and ecology of soil fungal communities: increased understanding through the application of molecular techniques.Soil eukaryotic functional diversity, a metatranscriptomic approach.Soil microbial community responses to multiple experimental climate change driversIsolation, characterization, and insecticidal activity of an endophyte of drunken horse grass, Achnatherum inebrians.Functional diversity in resource use by fungi.Characterization of early microbial communities on volcanic deposits along a vegetation gradient on the island of Miyake, Japan.Patterns of fungal diversity and composition along a salinity gradient.Microbial Community Dynamics in Soil Depth Profiles Over 120,000 Years of Ecosystem DevelopmentVertical distribution of fungal communities in tallgrass prairie soil.Leaf-associated bacterial and fungal taxa shifts in response to larvae of the tree hole mosquito, Ochlerotatus triseriatus.Analysis of ribosomal RNA indicates seasonal fungal community dynamics in Andropogon gerardii roots.Isolation and characterization of Arctic microorganisms decomposing bioplastics.Molecular evidence that deep-branching fungi are major fungal components in deep-sea methane cold-seep sediments.Exploring and quantifying fungal diversity in freshwater lake ecosystems using rDNA cloning/sequencing and SSU tag pyrosequencing.Effects of Elevated Atmospheric CO(2) on Rhizosphere Soil Microbial Communities in a Mojave Desert EcosystemMolecular survey of concrete sewer biofilm microbial communities.Influence of elevated CO(2) on the fungal community in a coastal scrub oak forest soil investigated with terminal-restriction fragment length polymorphism analysis.Cloning and characterization of a pectin lyase gene from Colletotrichum lindemuthianum and comparative phylogenetic/structural analyses with genes from phytopathogenic and saprophytic/opportunistic microorganismsBacterial, archaeal and fungal succession in the forefield of a receding glacier.
P2860
Q21003936-3755B5CD-5AB7-49B5-91F6-CE98FAC180BCQ21133730-9E2F5882-0A99-4C51-8618-43AF00602856Q22003039-AFE818B7-607F-47A1-B64C-B39179AC1E34Q24669852-A1CC0283-7245-4A1A-8E32-E6120DE0D0A0Q24685677-65105B74-F475-4555-AB88-5140DEFD81CCQ27500370-900E687D-356A-411F-B322-C45A9DED5DD6Q28476926-D4467DBC-950C-463A-BA29-93F229CB75E8Q28654635-6CE92293-F6B7-4E6D-9AA6-6A5ADC4D5D57Q28756870-88D8229C-527B-48F2-B913-46B6FD1B93ACQ28822163-050DBBD5-DE49-4764-8814-835CD950F18CQ30572160-67828DBD-C1A2-4455-B254-09A1735ED294Q30724812-741FDCDC-6B2D-4FD6-893A-20BB063ACF28Q30805888-2257B41F-390E-4091-8D76-27FEFE96344BQ30883033-2BAA2C09-6F04-4A6A-AD12-B6ABD43B7953Q30984089-C8240D19-5748-4880-B57B-9293E9233444Q31029131-CD9377AF-9E7B-4678-B193-63AD00F17938Q31042812-671B86DA-9F35-4180-8F8E-0C64F764C230Q31051250-4D74239A-2F1C-4B96-8F59-9107D8C7A6FAQ31074289-66ACBC42-F396-48AD-8468-2DDBC33D7588Q31112778-B6B44F33-DA3E-4656-8B08-BCF42941036AQ31141376-762BEAE2-1F6C-461E-8595-EA7C7BB01A0CQ33204706-F336FD94-33B5-48F7-9532-E90E3C4490AEQ33307517-8837B804-DCBD-4D01-B8C8-3D42A53977EDQ33519871-4DE871E6-762D-4E41-95E0-A8F77F63D303Q33598901-D550F735-F9A3-4539-A501-7375EF6666EDQ33690749-F7527BDB-7D6D-4C05-A5DF-4F114E60D7BCQ33697499-6885766F-D32E-46AA-93C7-D91A525C56ADQ33706288-7DA98F09-6B0F-4455-9988-5B51B1DD95F6Q33707045-566752A6-E8E8-45C9-9BF0-7A2AB16747C9Q33717865-3CDD6540-D10A-454F-8324-CCA44136B477Q33739560-20FC9074-7EFA-4826-AB62-B1707E86A840Q33785918-76D96543-215F-4214-9980-1523BFE8E187Q33889815-E2FD29B3-3F16-4BCA-B0E7-F904E25B67E7Q33909118-C141C910-35F4-4001-AD97-A8A53EF0D4CCQ33920168-49FDB133-750C-4063-BB25-7203A52E8EBAQ33967905-812DD33F-CAD0-472D-A980-6C092CFD0EC2Q34043624-BE787228-6A45-4312-9D8C-B3137A4FB1ADQ34058827-DC8A661B-423A-40E8-8431-A40A8063AD89Q34094662-2C7015CC-FBD5-4BD3-B8DA-78943D0DB318Q34096829-497E9E9E-A5F6-4EE6-B624-8F8CF0987FBA
P2860
PCR primers that amplify fungal rRNA genes from environmental samples.
description
2000 nî lūn-bûn
@nan
2000 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
PCR primers that amplify fungal rRNA genes from environmental samples.
@ast
PCR primers that amplify fungal rRNA genes from environmental samples.
@en
type
label
PCR primers that amplify fungal rRNA genes from environmental samples.
@ast
PCR primers that amplify fungal rRNA genes from environmental samples.
@en
prefLabel
PCR primers that amplify fungal rRNA genes from environmental samples.
@ast
PCR primers that amplify fungal rRNA genes from environmental samples.
@en
P2860
P1476
PCR primers that amplify fungal rRNA genes from environmental samples.
@en
P2093
J Borneman
R J Hartin
P2860
P304
P356
10.1128/AEM.66.10.4356-4360.2000
P407
P577
2000-10-01T00:00:00Z