Rewiring the RNAs of influenza virus to prevent reassortment.
about
Characterization of uncultivable bat influenza virus using a replicative synthetic virusIsolation of a novel swine influenza virus from Oklahoma in 2011 which is distantly related to human influenza C virusesDisruption of Specific RNA-RNA Interactions in a Double-Stranded RNA Virus Inhibits Genome Packaging and Virus InfectivityNS-based live attenuated H1N1 pandemic vaccines protect mice and ferretsHeterologous Packaging Signals on Segment 4, but Not Segment 6 or Segment 8, Limit Influenza A Virus Reassortment.New strategies for the development of H5N1 subtype influenza vaccines: progress and challenges.Influenza viruses with rearranged genomes as live-attenuated vaccines.In vivo bioluminescent imaging of influenza a virus infection and characterization of novel cross-protective monoclonal antibodies.Genomic reassortment of influenza A virus in North American swine, 1998-2011.Reassortment process after co-infection of pigs with avian H1N1 and swine H3N2 influenza viruses.Influenza A virus-generated small RNAs regulate the switch from transcription to replication.A nine-segment influenza a virus carrying subtype H1 and H3 hemagglutinins.Generation of replication-competent recombinant influenza A viruses carrying a reporter gene harbored in the neuraminidase segmentInfluenza virus reassortment occurs with high frequency in the absence of segment mismatch.Expected and Unexpected Features of the Newly Discovered Bat Influenza A-like VirusesAttenuated influenza virus construct with enhanced hemagglutinin protein expressionOne influenza virus particle packages eight unique viral RNAs as shown by FISH analysis.The influenza A virus PB2, PA, NP, and M segments play a pivotal role during genome packaging.An eight-segment swine influenza virus harboring H1 and H3 hemagglutinins is attenuated and protective against H1N1 and H3N2 subtypes in pigs.Structural insights into the coupling of virion assembly and rotavirus replication.A conserved influenza A virus nucleoprotein code controls specific viral genome packaging.Incorporation of the influenza A virus NA segment into virions does not require cognate non-coding sequences.Influenza virus RNA structure: unique and common features.Development and applications of single-cycle infectious influenza A virus (sciIAV).Novel Influenza D virus: Epidemiology, pathology, evolution and biological characteristics.Genomic analysis of codon, sequence and structural conservation with selective biochemical-structure mapping reveals highly conserved and dynamic structures in rotavirus RNAs with potential cis-acting functions.Live Attenuated Reassortant Vaccines Based on A/Leningrad/134/17/57 Master Donor Virus Against H5 Avian Influenza.Implications of segment mismatch for influenza A virus evolution.Importance of the 1+7 configuration of ribonucleoprotein complexes for influenza A virus genome packaging.Analysis of the Variability in the Non-Coding Regions of Influenza A Viruses
P2860
Q21089589-D7C757A4-5327-4C59-A85F-B6FFC4466007Q28486082-81A5F550-C7F1-4738-8E02-90032051B407Q28551423-AD60170B-E71C-49AC-9FED-E69ED0F4D79FQ30394706-49964F52-DCF6-4DAD-8DBA-F3695D26FF8CQ30400213-0D593FC3-9B71-49BA-B133-5DB2BBA704B2Q30407424-E80209E4-185F-4569-A614-02D970227BFFQ30427712-CBAEABA4-2D79-45B7-90AF-A133425701E1Q30430923-2864ACCC-BEE5-4A4C-AD4C-CBEB992B299AQ33879275-80A5D9E8-3CE4-40E0-A1B0-F69E9770C2B5Q33885285-26922870-7564-48E2-B17A-B9F1A949C498Q33953132-DE412CA5-407B-43A0-9154-CFC56F817864Q34046208-0CCCF00E-FF75-428B-8213-C233FE06314FQ34296134-07876B9F-D154-4542-BE28-1BDF8E1A2304Q34778503-F8CE2874-BF58-4C9B-B125-513C3E778187Q35652414-37C759C6-646F-4C40-A827-B83CA82B5DF6Q35943504-1771055B-6DD4-46CB-AA59-839F9A1E75D0Q36061616-103DE96D-B831-4227-A1BB-F2CBA6BA7111Q36155624-3F41AA62-62B6-4430-97B4-C23083A83EC0Q37123091-03C5C739-8512-4603-845B-BDB11153CF7BQ37167334-5AB7F301-C167-460D-963D-A40662EDCD53Q37281825-DF0EBF83-20FA-404D-B907-C0FA85B3244AQ37668115-3BE51FDF-28C1-4134-9467-68BA51288706Q37798025-5F8E8D28-3FE0-41E4-B10B-F7133C474B0CQ38556537-1DBB3B2B-3DDA-42A8-B962-9B20D0D4462FQ38622545-E48C8732-CCD4-47A1-8AD0-1407E28D976DQ41350844-86405740-1261-4B7B-AAD1-96CC8D73D174Q47125913-5AF95E44-BAA6-4A7E-9C92-DCDEC0843CC6Q47290634-C64B1841-41DA-4A72-B6D2-2D3B12D710D9Q47557982-B93A767E-9FBC-4B16-A418-A6A0290AC694Q58702485-666299C3-2ACB-4727-8A45-81B89725EB27
P2860
Rewiring the RNAs of influenza virus to prevent reassortment.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 08 September 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Rewiring the RNAs of influenza virus to prevent reassortment.
@en
Rewiring the RNAs of influenza virus to prevent reassortment.
@nl
type
label
Rewiring the RNAs of influenza virus to prevent reassortment.
@en
Rewiring the RNAs of influenza virus to prevent reassortment.
@nl
prefLabel
Rewiring the RNAs of influenza virus to prevent reassortment.
@en
Rewiring the RNAs of influenza virus to prevent reassortment.
@nl
P2860
P356
P1476
Rewiring the RNAs of influenza virus to prevent reassortment.
@en
P2093
Qinshan Gao
P2860
P304
15891-15896
P356
10.1073/PNAS.0908897106
P407
P50
P577
2009-09-08T00:00:00Z