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Literature DB >> 12514006

Elevated abundance of bacteriophage infecting bacteria in soil.

Kevin E Ashelford¹, Martin J Day, John C Fry.

Abstract

Here we report the first direct counts of soil bacteriophage and show that substantial populations of these viruses exist in soil (grand mean = 1.5 x 10(7) g(-1)), at least 350-fold more than the highest numbers estimated from traditional viable plaque counts. Adding pure cultures of a Serratia phage to soil showed that the direct counting methods with electron microscopy developed here underestimated the added phage populations by at least eightfold. So, assuming natural phages were similarly underestimated, virus numbers in soil averaged 1.5 x 10(8) g(-1), which is equivalent to 4% of the total population of bacteria. This high abundance was to some extent confirmed by hybridizing colonies grown on Serratia and Pseudomonas selective media with cocktails of phage infecting these bacteria. This showed that 8.9 and 3.9%, respectively, hybridized with colonies from the two media and confirmed the presence of phage DNA sequences in the cultivable fraction of the natural population. Thus, soil phage, like their aquatic counterparts, are likely to be important in controlling bacterial populations and mediating gene transfer in soil.

Entities: Species

Mesh：

Substances：
DNA, Viral

Year: 2003 PMID： 12514006 PMCID： PMC152412 DOI： 10.1128/AEM.69.1.285-289.2003

Source DB: PubMed Journal: Appl Environ Microbiol ISSN： 0099-2240 Impact factor: 4.792

22 in total

1. Determination of virus abundance in marine sediments.

Authors: R Danovaro; A Dell'Anno; A Trucco; M Serresi; S Vanucci
Journal: Appl Environ Microbiol Date: 2001-03 Impact factor: 4.792

2. Seasonal population dynamics and interactions of competing bacteriophages and their host in the rhizosphere.

Authors: K E Ashelford; S J Norris; J C Fry; M J Bailey; M J Day
Journal: Appl Environ Microbiol Date: 2000-10 Impact factor: 4.792

3. Significance of bacteriophages for controlling bacterioplankton growth in a mesotrophic lake.

Authors: K P Hennes; M Simon
Journal: Appl Environ Microbiol Date: 1995-01 Impact factor: 4.792

4. Effect of Bacteriophage on Colonization of Sugarbeet Roots by Fluorescent Pseudomonas spp.

Authors: P M Stephens; M O'sullivan; F O'gara
Journal: Appl Environ Microbiol Date: 1987-05 Impact factor: 4.792

5. High abundance of viruses found in aquatic environments.

Authors: O Bergh; K Y Børsheim; G Bratbak; M Heldal
Journal: Nature Date: 1989-08-10 Impact factor: 49.962

6. The R-type pyocin of Pseudomonas aeruginosa is related to P2 phage, and the F-type is related to lambda phage.

Authors: K Nakayama; K Takashima; H Ishihara; T Shinomiya; M Kageyama; S Kanaya; M Ohnishi; T Murata; H Mori; T Hayashi
Journal: Mol Microbiol Date: 2000-10 Impact factor: 3.501

7. Application of DNA probes to analysis of bacteriophage distribution patterns in the environment.

Authors: O A Ogunseitan; G S Sayler; R V Miller
Journal: Appl Environ Microbiol Date: 1992-06 Impact factor: 4.792

8. Genomic sequences of bacteriophages HK97 and HK022: pervasive genetic mosaicism in the lambdoid bacteriophages.

Authors: R J Juhala; M E Ford; R L Duda; A Youlton; G F Hatfull; R W Hendrix
Journal: J Mol Biol Date: 2000-05-26 Impact factor: 5.469

Review 9. Prokaryotes: the unseen majority.

Authors: W B Whitman; D C Coleman; W J Wiebe
Journal: Proc Natl Acad Sci U S A Date: 1998-06-09 Impact factor: 11.205

10. Characterization of Serratia isolates from soil, ecological implications and transfer of Serratia proteamaculans subsp. quinovora Grimont et al. 1983 to Serratia quinivorans corrig., sp. nov.

Authors: Kevin E Ashelford; John C Fry; Mark J Bailey; Martin J Day
Journal: Int J Syst Evol Microbiol Date: 2002-11 Impact factor: 2.747

69 in total

Review 10. Bacteriophage genomics.

Authors: Graham F Hatfull
Journal: Curr Opin Microbiol Date: 2008-10-14 Impact factor: 7.934

Elevated abundance of bacteriophage infecting bacteria in soil.

1. Determination of virus abundance in marine sediments.

2. Seasonal population dynamics and interactions of competing bacteriophages and their host in the rhizosphere.

3. Significance of bacteriophages for controlling bacterioplankton growth in a mesotrophic lake.

4. Effect of Bacteriophage on Colonization of Sugarbeet Roots by Fluorescent Pseudomonas spp.

5. High abundance of viruses found in aquatic environments.

6. The R-type pyocin of Pseudomonas aeruginosa is related to P2 phage, and the F-type is related to lambda phage.

7. Application of DNA probes to analysis of bacteriophage distribution patterns in the environment.

8. Genomic sequences of bacteriophages HK97 and HK022: pervasive genetic mosaicism in the lambdoid bacteriophages.

Review 9. Prokaryotes: the unseen majority.

10. Characterization of Serratia isolates from soil, ecological implications and transfer of Serratia proteamaculans subsp. quinovora Grimont et al. 1983 to Serratia quinivorans corrig., sp. nov.

Review 1. Phage-host interaction: an ecological perspective.

2. Diversity and abundance of single-stranded DNA viruses in human feces.

Review 3. Diversity and Ecology of Viruses in Hyperarid Desert Soils.

4. Abundance, diversity, and dynamics of viruses on microorganisms in activated sludge processes.

5. Abundance and diversity of viruses in six Delaware soils.

6. Genomic and functional analyses of Rhodococcus equi phages ReqiPepy6, ReqiPoco6, ReqiPine5, and ReqiDocB7.

7. Amplification of uncultured single-stranded DNA viruses from rice paddy soil.

8. Evolutionarily conserved orthologous families in phages are relatively rare in their prokaryotic hosts.

9. Prevalence of lysogeny among soil bacteria and presence of 16S rRNA and trzN genes in viral-community DNA.

Review 10. Bacteriophage genomics.