Human respiratory syncytial virus nucleoprotein and inclusion bodies antagonize the innate immune response mediated by MDA5 and MAVS
about
Viral suppression of innate immunity via spatial isolation of TBK1/IKKε from mitochondrial antiviral platformEvasion of antiviral immunity through sequestering of TBK1/IKKε/IRF3 into viral inclusion bodiesWho Regulates Whom? An Overview of RNA Granules and Viral InfectionsRespiratory Syncytial Virus and Cellular Stress Responses: Impact on Replication and PhysiopathologyNucleocapsid proteins: roles beyond viral RNA packagingRespiratory virus modulation of host nucleocytoplasmic transport; target for therapeutic intervention?Host cytoskeleton in respiratory syncytial virus assembly and buddingNew host factors important for respiratory syncytial virus (RSV) replication revealed by a novel microfluidics screen for interactors of matrix (M) proteinViral evasion of intracellular DNA and RNA sensingRespiratory Syncytial Virus: Infection, Detection, and New Options for Prevention and Treatment.Synaptogyrin-2 Promotes Replication of a Novel Tick-borne Bunyavirus through Interacting with Viral Nonstructural Protein NSs.Characterizing exogenous mRNA delivery, trafficking, cytoplasmic release and RNA-protein correlations at the level of single cells.Heat shock protein 70 regulates degradation of the mumps virus phosphoprotein via the ubiquitin-proteasome pathway.Dimerization of matrix protein is required for budding of respiratory syncytial virus.Screening for Host Factors Directly Interacting with RSV Protein: Microfluidics.Can we observe changes in mRNA "state"? Overview of methods to study mRNA interactions with regulatory proteins relevant in cancer related processes.Respiratory syncytial virus regulates human microRNAs by using mechanisms involving beta interferon and NF-κB.p38 and OGT sequestration into viral inclusion bodies in cells infected with human respiratory syncytial virus suppresses MK2 activities and stress granule assembly.Respiratory syncytial virus: virology, reverse genetics, and pathogenesis of disease.Ebola Virus Does Not Induce Stress Granule Formation during Infection and Sequesters Stress Granule Proteins within Viral Inclusions.The Respiratory Syncytial Virus Phosphoprotein, Matrix Protein, and Fusion Protein Carboxy-Terminal Domain Drive Efficient Filamentous Virus-Like Particle Formation.The P Protein of Spring Viremia of Carp Virus Negatively Regulates the Fish Interferon Response by Inhibiting the Kinase Activity of TANK-Binding Kinase 1.Respiratory syncytial virus infection: an innate perspective.Inclusion Body Fusion of Human Parainfluenza Virus Type 3 Regulated by Acetylated α-Tubulin Enhances Viral Replication.Alveolar Macrophages Can Control Respiratory Syncytial Virus Infection in the Absence of Type I Interferons.Immunological Features of Respiratory Syncytial Virus-Caused Pneumonia-Implications for Vaccine DesignRecent advances in understanding viral evasion of type I interferon.Host-Viral Interactions: Role of Pattern Recognition Receptors (PRRs) in Human Pneumovirus InfectionsIdentification of Interferon-Stimulated Gene Proteins That Inhibit Human Parainfluenza Virus Type 3Proteomic analysis of mitochondria in respiratory epithelial cells infected with human respiratory syncytial virus and functional implications for virus and cell biology.Extraribosomal l13a is a specific innate immune factor for antiviral defenseSustained activation of interferon regulatory factor 3 during infection by paramyxoviruses requires MDA5.Aberrant T cell immunity triggered by human Respiratory Syncytial Virus and human Metapneumovirus infection.Host and Viral Modulation of RIG-I-Mediated Antiviral Immunity.Respiratory syncytial virus-Host interaction in the pathogenesis of bronchiolitis and its impact on respiratory morbidity in later life.The innate immune response to RSV: Advances in our understanding of critical viral and host factors.Pathogen recognition receptor crosstalk in respiratory syncytial virus sensing: a host and cell type perspective.RSV glycoprotein and genomic RNA dynamics reveal filament assembly prior to the plasma membraneFunctional organization of cytoplasmic inclusion bodies in cells infected by respiratory syncytial virusA Novel Method to Quantify RNA-Protein Interactions In Situ Using FMTRIP and Proximity Ligation.
P2860
Q24294301-B90395ED-45FD-4A8B-B42F-08E7A2372E8DQ24312835-89AB045B-7D77-4EBE-9BA7-0C0E5546C677Q26700102-B7A37925-4BFD-47AC-8FDB-DA16016D5E63Q26748983-13F28479-E20A-4344-94EA-4D58E82E9B48Q26770021-C2433A8D-372E-4496-9F29-C2F95F3D5A37Q26796151-A8C21C8F-E208-4320-87CD-61DE16AEEBCBQ28067634-F60943DA-DF4D-4FBE-804A-3F990C04604AQ28115807-8351D17D-605C-448C-A6AB-EC28C365357EQ28392078-30F90FC3-109B-4565-9195-35C8A3C28E40Q30240274-118AE378-4C05-46C3-B5AD-9E41D2D982D5Q33432496-34489B64-655D-42F0-964B-57E2E7290854Q33878047-3E53E4A1-A75A-4BC9-8670-FC30BC7DB686Q35111022-72F6B4D2-E6BC-4A33-A167-174740B04F1BQ35559707-1923E4F1-C909-46C0-8EA9-A7A2D9536039Q36087650-F2FC3191-A518-45CA-971A-CFCCB7812D91Q36431066-967B91F4-7573-4E64-AB03-8CC244418F9DQ36486630-799B2C1E-7B35-462D-9668-BE2B6FD15F0CQ36559764-9998E1DF-F675-43E4-ACE9-E94BD3EA736EQ36692791-B15BBD2A-399A-477C-A500-0937F4393006Q37174456-E7C65EEE-9875-41D7-83EF-7D9AA658EAE6Q37415410-0FDE8D27-48C4-44A9-A83E-BA978DBABD78Q37415470-64B0E944-023D-4951-BBA6-F5C0165E5A13Q37577700-6D4CE85C-C3CC-449C-8F80-D7BD441B68AFQ37593225-0083AD5C-375D-448C-9E1B-49650ADDF5D3Q37661423-963A4196-2F56-47D2-BBA5-1258328CB5A6Q37729137-36B62CB4-1961-4EB9-AA0D-03F6B0F6A605Q38061716-B205497F-8061-4AA5-A759-DC6221C05B31Q38163544-C4C07C5B-C954-40A3-B779-10968168BF4CQ38735173-9B41BA8B-0206-47F4-A809-0305E846B6F4Q38926106-47554039-A00F-4B39-969B-6A61A9764692Q38988159-E8C7B140-1860-4B46-935D-74AAC2706FEFQ38998010-3A779A1F-339F-4475-85A0-27C75F646D75Q39027049-2A21051C-531B-475B-B9BA-64F02FFABE33Q39092892-0FD2919E-7015-48A2-9A12-A9A27BB1CCBFQ39198689-F7E3C710-C405-4D99-9D0B-B9063F07A790Q40522232-31AD7F3F-6A3B-47F9-B156-A16734E9DAB5Q40721454-2F628B13-F020-4E17-ADDD-08D3CAB5CFBDQ41689780-4F588B79-54D4-461F-9FE1-17E3EC91FC25Q41701408-1923E17D-ED3E-485D-94CB-036FD0233A83Q41774100-9795591F-83F5-445E-98E8-9C142BF05C77
P2860
Human respiratory syncytial virus nucleoprotein and inclusion bodies antagonize the innate immune response mediated by MDA5 and MAVS
description
2012 nî lūn-bûn
@nan
2012 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@ast
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en-gb
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@nl
type
label
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@ast
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en-gb
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@nl
prefLabel
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@ast
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en-gb
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@nl
P2093
P2860
P3181
P356
P1433
P1476
Human respiratory syncytial vi ...... onse mediated by MDA5 and MAVS
@en
P2093
Aaron W Lifland
Chiara Zurla
Eric Alonas
Jeenah Jung
Philip J Santangelo
P2860
P304
P3181
P356
10.1128/JVI.00215-12
P407
P577
2012-08-01T00:00:00Z