Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
about
Plant virus ecologyDiverse Array of New Viral Sequences Identified in Worldwide Populations of the Asian Citrus Psyllid (Diaphorina citri) Using Viral MetagenomicsMixed Infections of Four Viruses, the Incidence and Phylogenetic Relationships of Sweet Potato Chlorotic Fleck Virus (Betaflexiviridae) Isolates in Wild Species and Sweetpotatoes in Uganda and Evidence of Distinct Isolates in East AfricaIntegrated analyses using RNA-Seq data reveal viral genomes, single nucleotide variations, the phylogenetic relationship, and recombination for Apple stem grooving virusIn silico approach to reveal viral populations in grapevine cultivar Tannat using transcriptome dataLifestyles of plant viruses.Coral-zooxanthellae meta-transcriptomics reveals integrated response to pollutant stressThe Influence of DNA Extraction Procedure and Primer Set on the Bacterial Community Analysis by Pyrosequencing of Barcoded 16S rRNA Gene Amplicons.Simultaneous identification of DNA and RNA viruses present in pig faeces using process-controlled deep sequencingMolecular Characterization of a Novel Putative Partitivirus Infecting Cytospora sacchari, a Plant Pathogenic FungusMetatranscriptomic analysis of small RNAs present in soybean deep sequencing libraries.Metagenomic analysis of the viromes of three North American bat species: viral diversity among different bat species that share a common habitat.Exploring the diversity of plant DNA viruses and their satellites using vector-enabled metagenomics on whitefliesBiosecurity implications of new technology and discovery in plant virus research.Donkey orchid symptomless virus: a viral 'platypus' from Australian terrestrial orchids.Genomic characterization of Ambrosia asymptomatic virus 1 and evidence of other Tymovirales members in the Oklahoma tallgrass prairie revealed by sequence analysis.Protocols for metagenomic DNA extraction and Illumina amplicon library preparation for faecal and swab samples.Plant virus metagenomics: what we know and why we need to know more.Evaluating insect-microbiomes at the plant-insect interface.Appearances can be deceptive: revealing a hidden viral infection with deep sequencing in a plant quarantine contextViral ancestors of antiviral systemsInfection of host plants by Cucumber mosaic virus increases the susceptibility of Myzus persicae aphids to the parasitoid Aphidius colemaniThe dsRNA Virus Papaya Meleira Virus and an ssRNA Virus Are Associated with Papaya Sticky Disease.Determinants of taxonomic composition of plant viruses at the Nature Conservancy's Tallgrass Prairie Preserve, OklahomaHistorical perspective, development and applications of next-generation sequencing in plant virologyFLDS: A Comprehensive dsRNA Sequencing Method for Intracellular RNA Virus Surveillance.Overlooking the smallest matter: viruses impact biological invasions.A new virus discovered by immunocapture of double-stranded RNA, a rapid method for virus enrichment in metagenomic studies.Plant infection by two different viruses induce contrasting changes of vectors fitness and behavior.Virologists are "Symbionts" in Microbial Ecology.RNA-Seq reveals virus-virus and virus-plant interactions in nature.Detection and molecular characterisation of Grapevine Syrah virus-1 isolates from Central Europe.Applications of next generation high throughput sequencing technologies in characterization, discovery and molecular interaction of plant viruses.Complete genome sequence of three tomato ringspot virus isolates: evidence for reassortment and recombination.Characterization of a novel citrus tristeza virus genotype within three cross-protecting source GFMS12 sub-isolates in South Africa by means of Illumina sequencing.Effects of virus on plant fecundity and population dynamics.Molecular characterization of a novel victorivirus from the entomopathogenic fungus Beauveria bassiana.Characterisation and quantitation of mutant and wild-type genomes of Hardenbergia mosaic virus isolates co-infecting a wild plant of Hardenbergia comptoniana.The complete genome sequence of a Passion fruit woodiness virus isolate from Australia determined using deep sequencing, and its relationship to other potyviruses.[Pathology and viral metagenomics, a recent history].
P2860
Q24810379-90B3A0B9-79EE-42F7-93DB-D7597CB715B4Q26700142-4D5E799D-A2F3-466D-A554-75D2253FEAD8Q28818759-6F855BC7-DA3A-4B86-A795-87EA307284A2Q30000092-D70ACA91-886B-43F9-B08B-11AC6FE8F8C7Q31012192-3168A893-014D-4F4D-AD6C-E6CAB667BC9AQ33891614-3E73B4ED-718F-4D8F-ADD1-FEC18DEF693CQ33984579-F184191A-832C-400B-A060-65A08E83BDCDQ33998497-996918BD-C3B6-4E1B-9BE8-C13B17E6755BQ34238627-3D884ECA-F0FC-40C8-8BE3-B09A0EDF7547Q34242565-18C93FE6-01D0-4EDC-993A-0AAAF1DB5F06Q34339416-511EA129-250A-4806-A312-78517068B3B7Q34416671-7086E1BE-7134-43F8-B8AF-1E2B5C93706DQ34841409-A948BADA-750F-47AC-8C60-FF76705F32CAQ34945325-6881CB96-A0F3-478F-A3A5-2C3CCDEC4129Q35041402-9F8C784A-0274-4B6A-828A-004FB9D9A9A0Q35092452-C229FA12-08F0-4D21-B7D9-AD660C00D36AQ35158770-0933871E-D270-43FA-AEA4-9C656CEA4631Q35162823-F0553A5A-F5B0-4DA3-88C0-948A39E5BFF2Q35211285-5A9A2E2F-3979-4632-89EB-593A0D956497Q35213115-B791CF40-CBB8-478D-AFB1-749AA372050BQ35491742-62807FF6-95BD-46C1-BDFA-E0B93C2B838AQ35682412-2E3FE18C-4B6B-43C6-ABF8-7163B7621646Q36014037-C7CF9D3D-A705-4D68-A781-AC8BB327A6A6Q37238797-FDDF1B99-E51F-48D3-BE71-88191AA1AA2EQ37566705-432804A8-1D41-4F93-90CE-F4D9843368B1Q38989907-760ADE31-C35A-43D0-A0B8-1E9F753CF32BQ39125626-6096CD9C-5248-4B74-8862-740BD9E5388FQ39909855-AB8504FF-A70C-46B2-8568-D5E2D6BAF6A7Q40113563-FDC45971-2CCB-480B-8C4B-3F40C3FDA36AQ40406656-12D4C3FA-A02F-4C0B-9946-26ED3E83DD90Q40567303-0B86BB3E-1A8E-4959-971F-09036A627EA8Q40977655-2AAC2F12-6F89-46ED-B13B-F71008B74D0FQ42151404-9FD67A25-EE68-46A8-8B70-F96A228EB108Q42185403-C922CAA9-AA20-4845-9320-142089BE10A8Q42231968-CA8011F2-CF53-43EC-BC6E-367E0D51C538Q42235171-5B2C3B87-BBD4-4E24-B510-E7B6BFCA4BAEQ42249840-7971A2DE-0051-4118-A65C-F025E84887EFQ42594668-54B73AAF-5BDF-4175-BD01-720F764712E4Q42681839-A25424BA-65E3-4D82-8CF9-D520DD1503EDQ43422693-FB0FE7BB-0C43-4F9F-B17E-8D410225D6C8
P2860
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
description
2010 nî lūn-bûn
@nan
2010 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մարտին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@ast
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@en
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@nl
type
label
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@ast
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@en
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@nl
prefLabel
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@ast
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@en
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@nl
P2093
P1433
P1476
Ecogenomics: using massively parallel pyrosequencing to understand virus ecology.
@en
P2093
Bruce A Roe
Felipe Chavarría
Graham B Wiley
Guoan Shen
Hongshing Lai
James D White
Jiaxi Quan
Marilyn J Roossinck
Prasenjit Saha
P356
10.1111/J.1365-294X.2009.04470.X
P478
19 Suppl 1
P577
2010-03-01T00:00:00Z