Sampling natural viral communities from soil for culture-independent analyses.
about
Atmospheric movement of microorganisms in clouds of desert dust and implications for human healthOptimization of viral resuspension methods for carbon-rich soils along a permafrost thaw gradientPrevalence of lysogeny among soil bacteria and presence of 16S rRNA and trzN genes in viral-community DNA.Amplification of uncultured single-stranded DNA viruses from rice paddy soilBacteriophages may bias outcome of bacterial enrichment cultures.Diversity and phylogeny of bacteria on Zimbabwe tobacco leaves estimated by 16S rRNA sequence analysis.Impacts of poultry house environment on poultry litter bacterial community composition.Temporal dynamics and decay of putatively allochthonous and autochthonous viral genotypes in contrasting freshwater lakesIsolation and characterization of soilborne virulent bacteriophages infecting the pathogen Rhodococcus equi.The bacteria and bacteriophages from a Mesquite Flats site of the Death Valley desert.Direct assessment of viral diversity in soils by random PCR amplification of polymorphic DNA.Laboratory procedures to generate viral metagenomes.Marine viruses, a genetic reservoir revealed by targeted viromicsDark Matter of the Biosphere: the Amazing World of Bacteriophage DiversityEvaluation of Tangential Flow Filtration for the Concentration and Separation of Bacteria and Viruses in Contrasting Marine EnvironmentsEfficient purification and concentration of viruses from a large body of high turbidity seawater.Coral Mucus Is a Hot Spot for Viral InfectionsEnumerating Virus-Like Particles and Bacterial Populations in the Sinuses of Chronic Rhinosinusitis Patients Using Flow CytometrySpatial and temporal dynamics of virus occurrence in two freshwater lakes captured through metagenomic analysis.Diversity and Ecology of Viruses in Hyperarid Desert Soils.A fosmid cloning strategy for detecting the widest possible spectrum of microbes from the international space station drinking water systemInfluence of Environmental Factors on Phage-Bacteria Interaction and on the Efficacy and Infectivity of Phage P100.Bacteriophages and genetic mobilization in sewage and faecally polluted environments.Counts and sequences, observations that continue to change our understanding of viruses in nature.Randomly amplified polymorphic DNA PCR as a tool for assessment of marine viral richness.Environmental drivers of viral community composition in Antarctic soils identified by viromicsMetagenomic analysis of the viral community in Namib Desert hypoliths.Bacteriophages and its applications: an overview.Diversity and Distribution Characteristics of Viruses in Soils of a Marine-Terrestrial Ecotone in East China.Movement of viruses between biomes.Assessment of factors influencing direct enumeration of viruses within estuarine sediments.Dynamics of autochthonous soil viral communities parallels dynamics of host communities under nutrient stimulation.Enumerating viruses in coral mucus.Abundance and diversity of viruses in six Delaware soils.Soil Viral Communities Vary Temporally and along a Land Use Transect as Revealed by Virus-Like Particle Counting and a Modified Community Fingerprinting Approach (fRAPD).Bias in bacteriophage morphological classification by transmission electron microscopy due to breakage or loss of tail structures.Corallivory and the microbial debacle in two branching scleractinians.Incidence of lysogeny within temperate and extreme soil environments.
P2860
Q24685017-BD658DBF-B568-487D-91FF-BCD1C8587918Q28833577-443A863F-EC61-495E-8A49-E8A8B472ACA5Q30836271-5CA88EE8-3CC8-4F40-A0A6-873D789F9911Q33360687-EB78722A-0451-40E2-AEA7-41ED404A8C36Q33913311-730AF193-2B76-467F-ABF3-793BFC6AD23DQ33928795-615C5A53-2120-4724-B4C0-F863E884294CQ34031455-2B1231B8-F9CB-4454-B3F7-6B90F5896FA5Q34330706-4D2660BF-FFB8-4474-8A7B-7A5DEB66BECBQ34621269-BE9B8441-D8DD-4240-9BAD-48391A4AD4FFQ34655899-04B2D9D9-40A8-473F-B3C5-7787C5DE6884Q34781671-C064977B-E40A-4128-8DAB-7FA1ECBD7841Q34965860-6F869704-09C7-48F7-BA25-8CA21265E61CQ35058934-FAB49C06-E3E9-4783-BAC7-006CE20D3B08Q35643856-B436397A-C38B-4517-AB11-5F20D7581980Q35754618-F55B47F5-ECC7-4579-B62B-66D8E68AD0AEQ35757203-2AA9B0FA-5999-456F-834B-5A9F8391D72DQ36000483-227BCA8E-FD2D-437A-AD97-B4D1F289A6ACQ36015413-D4EDC6E0-F0A3-4D37-8A6E-AB3E3F5A49E2Q36059736-2704B4CC-4342-4F49-8A69-106C2DB98101Q36497495-AB17CEAC-2037-43C2-AAE3-485E5438C2C2Q36528819-D5BFFDF5-8A2E-4A0D-948D-D6088D853A3BQ37135494-99E59FC1-829D-4224-B1FC-747D05C5CB3FQ37871062-D5831825-C472-4DBF-ABD1-0CCE2A0856A5Q38366948-D7BD67A4-0099-4340-A1CE-FE5A3883C18AQ38607236-0F3F1993-2828-4C2B-AB81-774C094728C5Q38861360-84FD8EDC-4C3D-4986-9B3B-8AB330F43D29Q38861366-3094B527-4904-4E3A-96A6-DBED92815A84Q38975521-3D7DC139-DF4A-4AFD-97E2-FA9CC907166CQ40076937-D6C40994-779E-4F74-9689-45B9A8932478Q40171794-E33B353F-7A37-4D79-AF34-B506918DDA20Q41485107-16C59159-8AB9-40D5-AFB5-708462D35939Q41608407-7226AD3A-0488-4FFA-BFDE-553039D5A6E4Q41863332-66099462-4663-407D-A59D-0291B3DAA186Q41899277-A3EFE79A-8F47-4AE1-AE27-EBD8C50615D8Q42700448-9AA81837-CEB2-4905-BF96-21E5D2297806Q43427369-322C0676-94F5-423B-8ED8-4D0F38304CF7Q47552758-5D69DC29-07F9-4971-B89F-7DA9CF59C0C2Q51702854-386CB0A3-2A60-4E25-95A2-2E90C32F10C2
P2860
Sampling natural viral communities from soil for culture-independent analyses.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Sampling natural viral communities from soil for culture-independent analyses.
@en
type
label
Sampling natural viral communities from soil for culture-independent analyses.
@en
prefLabel
Sampling natural viral communities from soil for culture-independent analyses.
@en
P2093
P2860
P1476
Sampling natural viral communities from soil for culture-independent analyses.
@en
P2093
K Eric Wommack
Kurt E Williamson
Mark Radosevich
P2860
P304
P356
10.1128/AEM.69.11.6628-6633.2003
P407
P577
2003-11-01T00:00:00Z