Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans
about
Expanding the marine virosphere using metagenomicsBacteriophage T7 DNA polymerase - sequenaseViromes, not gene markers, for studying double-stranded DNA virus communitiesEmerging methods to study bacteriophage infection at the single-cell levelLife-style and genome structure of marine Pseudoalteromonas siphovirus B8b isolated from the northwestern Mediterranean SeaMethanesulfonate (MSA) Catabolic Genes from Marine and Estuarine BacteriaIlluminating structural proteins in viral "dark matter" with metaproteomicsComplete genome sequence of Pseudoalteromonas phage vB_PspS-H40/1 (formerly H40/1) that infects Pseudoalteromonas sp. strain H40 and is used as biological tracer in hydrological transport studiesNovel Abundant Oceanic Viruses of Uncultured Marine Group II Euryarchaeota.Unprecedented evidence for high viral abundance and lytic activity in coral reef waters of the South Pacific OceanComparative metagenomic analyses reveal viral-induced shifts of host metabolism towards nucleotide biosynthesis.Bacteria-phage coevolution as a driver of ecological and evolutionary processes in microbial communities.Marine viruses, a genetic reservoir revealed by targeted viromicsGenomic characteristics and environmental distributions of the uncultivated Far-T4 phagesRising to the challenge: accelerated pace of discovery transforms marine virology.Novel N4 Bacteriophages Prevail in the Cold BiosphereExpansion of Cultured Bacterial Diversity by Large-Scale Dilution-to-Extinction Culturing from a Single Seawater Sample.Metagenomic Analysis of Virioplankton of the Subtropical Jiulong River Estuary, China.Genomes of Abundant and Widespread Viruses from the Deep OceanSingle-cell genomics-based analysis of virus-host interactions in marine surface bacterioplanktonComplete genome sequences of bacteriophages P12002L and P12002S, two lytic phages that infect a marine Polaribacter strainComplete genome sequence of Paracoccus marcusii phage vB_PmaS-R3 isolated from the South China SeaComplete genome sequence of bacteriophage P8625, the first lytic phage that infects Verrucomicrobia.Characterization and Complete Genome Sequence of a Novel Siphoviridae Bacteriophage BS5.Acidianus Tailed Spindle Virus: a New Archaeal Large Tailed Spindle Virus Discovered by Culture-Independent MethodsInsight into the unknown marine virus majorityMarine phage genomics: the tip of the icebergExploring the risks of phage application in the environment.Counts and sequences, observations that continue to change our understanding of viruses in nature.Marine cyanophages demonstrate biogeographic patterns throughout the global ocean.Depth-stratified functional and taxonomic niche specialization in the 'core' and 'flexible' Pacific Ocean Virome.A novel roseobacter phage possesses features of podoviruses, siphoviruses, prophages and gene transfer agents.Assessing Illumina technology for the high-throughput sequencing of bacteriophage genomes.New biosynthetic pathway for pink pigments from uncultured oceanic viruses.Environmental Viral Genomes Shed New Light on Virus-Host Interactions in the Ocean.Linking internal and external bacterial community control gives mechanistic framework for pelagic virus-to-bacteria ratios.Characterization and Genome Sequencing of a Novel Bacteriophage PH101 Infecting Pseudoalteromonas marina BH101 from the Yellow Sea of China.Polar freshwater cyanophage S-EIV1 represents a new widespread evolutionary lineage of phages.Genome diversity of marine phages recovered from Mediterranean metagenomes: Size mattersGenome characteristics and environmental distribution of the first phage that infects the LD28 clade, a freshwater methylotrophic bacterial group.
P2860
Q21092406-CDCE59F4-66EE-4D15-AAA9-B960F5A4DB2CQ21131096-28885E03-E2BB-443F-A2B6-C464141C35FFQ27028192-B5B991A5-4487-44CB-A9B5-211CCEF2D49CQ28087251-1F00FBD8-6E84-4198-B734-CEB2B354AF44Q28385890-E5F93517-AB69-47B6-B54B-665377DB9450Q28547267-FF2E069F-4FB9-492E-BE16-4D0B35BFE8AEQ28603194-9DE6C85F-E030-44D7-A5E7-24F18A337AD1Q28817616-FC5CF496-4FB3-4ED6-9CBC-5D4864EE2083Q33695633-9E03B804-F001-4131-9CEC-6A31662F3E62Q34229578-840ABE9D-3D10-4C32-AC92-54FCFEA06774Q34411948-4811C182-5E2C-4763-8ADC-4D745F1F8D2FQ34637653-AE6BF3D7-502B-4261-B5E1-D55FFA7CDAF0Q35058934-60D16FCA-7197-4994-BFE8-53E8F5A45F38Q35179628-C15D7F96-AE50-4CA6-930C-AB133A522D7EQ35552823-78867DE4-A448-4ADF-B773-C88856986079Q35646840-9AC1453D-F8E7-4A5D-A8C2-445492159771Q35843189-7EC7C6E0-F884-4227-A920-73A18D078B53Q35915397-08AD552C-7760-4CC4-BCED-614E8E387DCBQ36086589-E798E350-A6E1-4766-A419-8E27812F3AD0Q36178838-BC96F906-3AC7-4AD2-90E9-780C49B7CE7EQ36191957-0BCA8FE4-475C-44BB-9EB3-688AF911EF85Q36270553-4E07E157-9CF0-41C9-B89B-FC26665D506FQ36274224-D06D1F39-A6B3-4ABC-A6C4-7F7A1FF7E43EQ36351506-349FE771-8006-44CB-824F-CA694ED15A76Q36694068-3F402749-908E-4B84-B4D8-24B5EA8BF498Q37049556-0F23F53B-CACC-4B0C-A657-2702951CBE55Q37055691-15DA055E-E3DD-4477-82C5-16F71E208689Q38172129-2B94D44F-45E5-4315-BAF1-087652ECFDCEQ38366948-AC2712E8-A8F4-4E85-85E5-60D19A026883Q39084426-17B4625F-B395-4ED3-BC80-14DE56EC8D9FQ39148546-2B022917-744D-4544-BF80-32EEF8DF3757Q39624979-DE4D735C-1F84-41FC-935E-544CAFB9A2FDQ39697489-F91F35B1-C5D0-4A34-A300-2DBAE51AFB0DQ39942272-3B78138D-46E3-41C9-8CED-274F2B616218Q40307424-E9437E68-FEC5-47CC-83C6-EAD9180E2EEEQ40732959-62FEA612-089E-4B0D-9016-9460478F59DDQ41053859-A1C9AB1C-5533-4203-9A75-DF458D8A3C77Q41141051-D3CB0133-0AAB-47D2-913B-8E5AA57C4134Q41930752-C40AE3CE-5177-47D8-A873-B0EE75AF3BD8Q41934823-271EEBC6-CFAF-45AD-BC46-1518B7415B83
P2860
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 24 June 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans
@en
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans.
@nl
type
label
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans
@en
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans.
@nl
prefLabel
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans
@en
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans.
@nl
P2093
P2860
P356
P1476
Genome of a SAR116 bacteriophage shows the prevalence of this phage type in the oceans
@en
P2093
Dongmin Kang
Hyun-Myung Oh
Ilnam Kang
P2860
P304
12343-12348
P356
10.1073/PNAS.1219930110
P407
P577
2013-06-24T00:00:00Z