Direct evidence that the poly(A) tail of influenza A virus mRNA is synthesized by reiterative copying of a U track in the virion RNA template. - Wikidata - wikimedia - TriplyDB

Direct evidence that the poly(A) tail of influenza A virus mRNA is synthesized by reiterative copying of a U track in the virion RNA template.

Direct evidence that the poly(A) tail of influenza A virus mRNA is synthesized by reiterative copying of a U track in the virion RNA template.

http://www.wikidata.org/entity/Q39550180

about

Shutoff of Host Gene Expression in Influenza A Virus and Herpesviruses: Similar Mechanisms and Common Themes Picornavirus RNA polyadenylation by 3D(pol), the viral RNA-dependent RNA polymerase Structural insight into the essential PB1–PB2 subunit contact of the influenza virus RNA polymerase Structural Analysis of Specific Metal Chelating Inhibitor Binding to the Endonuclease Domain of Influenza pH1N1 (2009) Polymerase The 3'-end-processing factor CPSF is required for the splicing of single-intron pre-mRNAs in vivo.Functional analysis of PA binding by influenza a virus PB1: effects on polymerase activity and viral infectivity 3D structure of the influenza virus polymerase complex: localization of subunit domains.The Influenza Virus Polymerase Complex: An Update on Its Structure, Functions, and Significance for Antiviral Drug Design The packaging signal of influenza viral RNA molecules.Functional analysis of conserved motifs in influenza virus PB1 protein Multiple anti-interferon actions of the influenza A virus NS1 protein All-in-one bacmids: an efficient reverse genetics strategy for influenza A virus vaccines.New insights into the nonconserved noncoding region of the subtype-determinant hemagglutinin and neuraminidase segments of influenza A viruses.Identification of influenza A nucleoprotein body domain residues essential for viral RNA expression expose antiviral target.The host interactome of influenza virus presents new potential targets for antiviral drugs.Influenza virus RNA polymerase: insights into the mechanisms of viral RNA synthesis.Cellular splicing factor RAF-2p48/NPI-5/BAT1/UAP56 interacts with the influenza virus nucleoprotein and enhances viral RNA synthesis.Genetic trans-complementation establishes a new model for influenza virus RNA transcription and replication.Influenza A: understanding the viral life cycle Structural and functional characterization of an influenza virus RNA polymerase-genomic RNA complex Emerging antiviral resistant strains of influenza A and the potential therapeutic targets within the viral ribonucleoprotein (vRNP) complex.Regulation of coronaviral poly(A) tail length during infection.A comprehensive map of the influenza A virus replication cycle Presence of poly(A) tails at the 3'-termini of some mRNAs of a double-stranded RNA virus, southern rice black-streaked dwarf virus.RNAseq expression analysis of resistant and susceptible mice after influenza A virus infection identifies novel genes associated with virus replication and important for host resistance to infection Selective Degradation of Host RNA Polymerase II Transcripts by Influenza A Virus PA-X Host Shutoff Protein.Complete genome sequence of an avian-origin H3N2 canine influenza virus isolated from dogs in South Korea.Characterization of the Role of Hexamer AGUAAA and Poly(A) Tail in Coronavirus Polyadenylation Complete genome sequence of a mammalian species-infectious and -pathogenic H6N5 avian influenza virus without evidence of adaptation A small-RNA enhancer of viral polymerase activity.pp32 and APRIL are host cell-derived regulators of influenza virus RNA synthesis from cRNA.Heterologous influenza vRNA segments with identical non-coding sequences stimulate viral RNA replication in trans.Endonuclease substrate selectivity characterized with full-length PA of influenza A virus polymerase.Dual Roles of the Hemagglutinin Segment-Specific Noncoding Nucleotides in the Extended Duplex Region of the Influenza A Virus RNA Promoter.Polyadenylation-dependent screening assay for respiratory syncytial virus RNA transcriptase activity and identification of an inhibitor.Biogenesis, assembly, and export of viral messenger ribonucleoproteins in the influenza A virus infected cell.Nuclear imprisonment: viral strategies to arrest host mRNA nuclear export.Viral subversion of nucleocytoplasmic trafficking At the centre: influenza A virus ribonucleoproteins.Polycistronic Expression of the Influenza A Virus RNA-Dependent RNA Polymerase by Using the Thosea asigna Virus 2A-Like Self-Processing Sequence.

P2860

Q26752361-1A06EFAD-9154-4CD9-B5DC-DBFEC8619361 Q26996671-9CBA1C0E-CF81-463E-9BBE-489E0720D460 Q27655568-45D2DF7E-E77C-4BA6-9C5F-EB80EB82EE8B Q27671365-4C11E59C-3665-4BC3-94D3-D883C14CD496 Q27863699-4E15F55C-0406-495F-95C4-4A874F81AA12 Q27863706-68497A7F-E9FF-459B-A681-FE97E78D796E Q27863781-B1A7BA1F-3020-4BFB-B955-15F9554E56BF Q28071809-75422726-D81D-4AEB-AEC9-8C3C3619B1C6 Q28343840-45940E8C-5076-4FEC-BF0B-31356E56C5B3 Q28729946-884EFE7C-4CAA-4EFB-8814-3447D7145F69 Q30361157-440E1473-1706-444A-80AD-AA0BD2040D82 Q30363730-21CAECFA-9FD1-4C2E-9D16-2F26AD6DD3DD Q30365054-D6A2D726-F33D-49BA-A999-43948FEB0D61 Q30398356-C1DCFF31-A9E8-46AC-9A2B-B63B6C300082 Q30405769-C99C8E42-267B-4561-9F96-EB848843FBC8 Q30791826-03F68041-4694-4779-9D3F-376372AC4C53 Q30978524-C328A6AF-9A39-4613-BE81-F78E9995E067 Q33455562-B4D30A73-AF52-454C-B955-14462B06FA02 Q34089400-5AFE608C-30A7-408E-A762-802713CBFBD8 Q34178189-3DD040A6-0DC3-4377-AF62-7D60C965F45E Q34269400-59C440B5-A430-475A-AEAE-9E1D63DC5A03 Q34907070-83B55EEB-DE19-4C80-8784-1267E679E092 Q35006697-51E2EA19-8FE8-49AF-92E2-CB9ABCD144DF Q35544369-F1B69398-F1BF-45B7-8BDC-BE9A45433C3A Q35761436-BF087B47-1020-4D77-9C1E-BFF24CC2F1A4 Q35915706-DE723563-0C37-4E58-AD22-E0448DC116C1 Q36154844-25B03255-1531-4319-A1B5-33DA8C10A3FB Q36168099-7C131CEC-DE1C-4E4A-A529-01219E915883 Q36363801-B900F427-93A7-41FC-8C7A-CF24476710DD Q36414388-58317EDE-739A-4BB9-BD09-8EBDCB74817F Q36479667-A85A4195-0139-4AD6-B69D-9FA2FE6F919D Q36489285-1061071D-1863-4B8C-8C2C-1A2E2C292ADE Q36825882-48C4145E-C254-427F-8DA2-1AB48473CF83 Q37512805-BEFEBB87-B2FE-44A4-8F9F-4F17D2FA1D4B Q37537503-E67D2D44-8519-4165-A03F-4087DDB693AE Q38117553-145F75EE-634D-421C-8988-E5D3CA74B6E3 Q38122997-FB080F17-8AF2-4BD1-B298-6F6112210072 Q38167400-4DCB83DA-4E19-47B7-BE06-1C00A86E4691 Q38270617-B0AE2626-13B6-42B9-8FAE-9EA221BC3CF4 Q38832421-C9435BD4-B4BA-43C5-B956-2448673DED54

P2860

Direct evidence that the poly(A) tail of influenza A virus mRNA is synthesized by reiterative copying of a U track in the virion RNA template.

http://www.wikidata.org/entity/Q39550180

description

1999 nî lūn-bûn

@nan

1999年の論文

@ja

1999年論文

@yue

1999年論文

@zh-hant

1999年論文

@zh-hk

1999年論文

@zh-mo

1999年論文

@zh-tw

1999年论文

@wuu

1999年论文

@zh

1999年论文

@zh-cn

name

Direct evidence that the poly

@nl

Direct evidence that the poly( ...... ck in the virion RNA template.

@en

type

label

Direct evidence that the poly

@nl

Direct evidence that the poly( ...... ck in the virion RNA template.

@en

prefLabel

Direct evidence that the poly

@nl

Direct evidence that the poly( ...... ck in the virion RNA template.

@en

P1433

Q39550180-C9E2E9EC-CDB4-477E-8245-D2861C3B4E0B

P1476

Q39550180-36F99CAF-8062-4F3E-82DC-072FAC51A37E

P2093

Q39550180-204D7024-B4E8-40CB-817A-6E2DE1590985

Q39550180-2B200100-672F-43B2-A765-315910C20A36

Q39550180-32112467-FD6B-410B-9FB9-BE869EA202BD

Q39550180-3CB00216-958D-4E98-85D1-50BEF5A3241B

P2860

Q39550180-0796002D-737A-4521-ACDC-DCE958CDAEDA

Q39550180-085B3DAC-BE4B-4B78-A338-F82371EFE238

Q39550180-09B017BF-2D81-4568-A467-FEA9EC9392CE

Q39550180-116798C8-68E7-43B7-AFD7-984C3AAA9BFB

Q39550180-17D3A5A7-3FCB-4FE5-8EF3-A71DB43BAB73

Q39550180-19F74F1C-6995-4520-B223-198909E2601B

Q39550180-23F2495A-4DC9-4668-B729-F8989961514D

Q39550180-2F4C23A8-8B49-4728-A6DE-6D1C6EEEA156

Q39550180-70AA708D-6697-407B-AAA8-A28D704B569C

Q39550180-739D4A51-F579-4EDD-8CC3-1DCDE1F28328

P304

Q39550180-25002222-0A65-4DF3-B639-4209FD924AF5

P31

Q39550180-3371D014-FD9C-4E37-99D1-78AA81FCEF34

P407

Q39550180-AAFBFA86-84A1-4A40-A9EA-E53786981269

P433

Q39550180-7F0A49E8-993A-4884-B4BC-D4669DA6C69E

P478

Q39550180-A3219D0C-9EFD-4793-82D2-7A2A48CF5516

P577

Q39550180-B2DE76F1-A94A-418B-8EC3-D6E7D45C5DBF

P698

Q39550180-8B1C299D-3C83-4AF7-A54F-DDAA9FBFBFD1

P932

Q39550180-2368B0D5-BF5C-49B1-9DE8-78511BB937D9

P1433

Journal of Virology

P1476

Direct evidence that the poly( ...... ck in the virion RNA template.

@en

P2093

Brownlee GG

http://www.w3.org/2001/XMLSchema#string

Fodor E

http://www.w3.org/2001/XMLSchema#string

Poon LL

http://www.w3.org/2001/XMLSchema#string

Pritlove DC

http://www.w3.org/2001/XMLSchema#string

P2860

The polyadenylation signal of influenza virus RNA involves a stretch of uridines followed by the RNA duplex of the panhandle structure

A unique cap(m7GpppXm)-dependent influenza virion endonuclease cleaves capped RNAs to generate the primers that initiate viral RNA transcription.

Polyadenylation sites for influenza virus mRNA.

The influenza virus panhandle is involved in the initiation of transcription.

The RNA polymerase of influenza virus, bound to the 5' end of virion RNA, acts in cis to polyadenylate mRNA.

Site on the vesicular stomatitis virus genome specifying polyadenylation and the end of the L gene mRNA.

The genes of influenza virus.

Characterization of the polyadenylation signal of influenza virus RNA

A hairpin loop at the 5' end of influenza A virus virion RNA is required for synthesis of poly(A)+ mRNA in vitro.

Polyadenylation of influenza virus mRNA transcribed in vitro from model virion RNA templates: requirement for 5' conserved sequences.

P304

3473-3476

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P407

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

73

http://www.w3.org/2001/XMLSchema#string

P577

1999-04-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

10074205

http://www.w3.org/2001/XMLSchema#string

P932

104115

http://www.w3.org/2001/XMLSchema#string