Incidence of lysogeny within temperate and extreme soil environments.
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Freshwater Metaviromics and Bacteriophages: A Current Assessment of the State of the Art in Relation to Bioinformatic ChallengesOptimization of viral resuspension methods for carbon-rich soils along a permafrost thaw gradientStormwater runoff drives viral community composition changes in inland freshwaters.Prevalence 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 soilSearching for a "hidden" prophage in a marine bacterium.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 lakesViruses in the desert: a metagenomic survey of viral communities in four perennial ponds of the Mauritanian Sahara.High-level diversity of tailed phages, eukaryote-associated viruses, and virophage-like elements in the metaviromes of antarctic soils.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.Horizontal gene exchange in environmental microbiotaDistinct circular single-stranded DNA viruses exist in different soil typesLow viral predation pressure in cold hypersaline Arctic sediments and limits on lytic replication.Metaviromes of Extracellular Soil Viruses along a Namib Desert Aridity GradientDiversity and Ecology of Viruses in Hyperarid Desert Soils.Acyl-homoserine lactones can induce virus production in lysogenic bacteria: an alternative paradigm for prophage induction.Microbial ecology and biogeochemistry of continental Antarctic soils.Potential impact of environmental bacteriophages in spreading antibiotic resistance genes.Counts and sequences, observations that continue to change our understanding of viruses in nature.Environmental drivers of viral community composition in Antarctic soils identified by viromicsLysogeny in nature: mechanisms, impact and ecology of temperate phages.Ménage à trois in the human gut: interactions between host, bacteria and phages.Deciphering the virus-to-prokaryote ratio (VPR): insights into virus-host relationships in a variety of ecosystems.Absence of lysogeny in wild populations of Erwinia amylovora and Pantoea agglomeransDynamics of autochthonous soil viral communities parallels dynamics of host communities under nutrient stimulation.Genome sequence of temperate bacteriophage Psymv2 from Antarctic Dry Valley soil isolate Psychrobacter sp. MV2.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).Ecological and Evolutionary Benefits of Temperate Phage: What Does or Doesn't Kill You Makes You Stronger.Phage Therapy: Beyond Antibacterial Action.Overview of Trends in the Application of Metagenomic Techniques in the Analysis of Human Enteric Viral Diversity in Africa's Environmental Regimes
P2860
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P2860
Incidence of lysogeny within temperate and extreme soil environments.
description
2007 nî lūn-bûn
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2007年の論文
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2007年学术文章
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2007年学术文章
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2007年学术文章
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2007年学术文章
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2007年学术文章
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2007年学术文章
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2007年學術文章
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name
Incidence of lysogeny within temperate and extreme soil environments.
@en
Incidence of lysogeny within temperate and extreme soil environments.
@nl
type
label
Incidence of lysogeny within temperate and extreme soil environments.
@en
Incidence of lysogeny within temperate and extreme soil environments.
@nl
prefLabel
Incidence of lysogeny within temperate and extreme soil environments.
@en
Incidence of lysogeny within temperate and extreme soil environments.
@nl
P2093
P2860
P1476
Incidence of lysogeny within temperate and extreme soil environments.
@en
P2093
David W Smith
K Eric Wommack
Kurt E Williamson
Mark Radosevich
P2860
P304
P356
10.1111/J.1462-2920.2007.01374.X
P577
2007-10-01T00:00:00Z