Protein expression redirects vesicular stomatitis virus RNA synthesis to cytoplasmic inclusions
about
Viral suppression of innate immunity via spatial isolation of TBK1/IKKε from mitochondrial antiviral platformResistance to Rhabdoviridae Infection and Subversion of Antiviral ResponsesVesicular stomatitis virus as a flexible platform for oncolytic virotherapy against cancerStructure and Functional Analysis of the RNA- and Viral Phosphoprotein-Binding Domain of Respiratory Syncytial Virus M2-1 ProteinUnderstanding and altering cell tropism of vesicular stomatitis virusMolecular and cellular aspects of rhabdovirus entryA single vertebrate DNA virus protein disarms invertebrate immunity to RNA virus infection.Colocalization of different influenza viral RNA segments in the cytoplasm before viral budding as shown by single-molecule sensitivity FISH analysis.Inhibition of Ebola virus entry by a C-peptide targeted to endosomes.Heat shock protein 70 regulates degradation of the mumps virus phosphoprotein via the ubiquitin-proteasome pathway.The Ebola virus glycoprotein mediates entry via a non-classical dynamin-dependent macropinocytic pathway.RNAi screening reveals requirement for host cell secretory pathway in infection by diverse families of negative-strand RNA viruses.Actin-Modulating Protein Cofilin Is Involved in the Formation of Measles Virus Ribonucleoprotein Complex at the Perinuclear Region.Rabies Virus Infection Induces the Formation of Stress Granules Closely Connected to the Viral Factories.Characterization of a viral phosphoprotein binding site on the surface of the respiratory syncytial nucleoprotein.A vesiculovirus showing a steepened transcription gradient and dominant trans-repression of virus transcription.Preferential Budding of Vesicular Stomatitis Virus from the Basolateral Surface of Polarized Epithelial Cells Is Not Solely Directed by Matrix Protein or GlycoproteinInclusion bodies are a site of ebolavirus replicationInduction of stress granule-like structures in vesicular stomatitis virus-infected cellsTargeting human respiratory syncytial virus transcription anti-termination factor M2-1 to inhibit in vivo viral replication.Migration of Nucleocapsids in Vesicular Stomatitis Virus-Infected Cells Is Dependent on both Microtubules and Actin FilamentsCytoplasmic granule formation and translational inhibition of nodaviral RNAs in the absence of the double-stranded RNA binding protein B2Dynamics of virus-receptor interactions in virus binding, signaling, and endocytosisThe insertion of fluorescent proteins in a variable region of respiratory syncytial virus L polymerase results in fluorescent and functional enzymes but with reduced activities.Borna Disease Virus Assembles Porous Cage-like Viral Factories in the Nucleus.Robust kinetics of an RNA virus: Transcription rates are set by genome levels.Fine mapping and characterization of the L-polymerase-binding domain of the respiratory syncytial virus phosphoprotein.Membrane and inclusion body targeting of lyssavirus matrix proteins.Microtubule Regulation and Function during Virus Infection.Genetic inactivation of COPI coatomer separately inhibits vesicular stomatitis virus entry and gene expression.A recombinant vesicular stomatitis virus bearing a lethal mutation in the glycoprotein gene uncovers a second site suppressor that restores fusion.Negri bodies are viral factories with properties of liquid organelles.New Insights into Structural Disorder in Human Respiratory Syncytial Virus Phosphoprotein and Implications for Binding of Protein Partners.Functional organization of cytoplasmic inclusion bodies in cells infected by respiratory syncytial virusHuman Metapneumovirus Induces Formation of Inclusion Bodies for Efficient Genome Replication and Transcription.Arenavirus infection induces discrete cytosolic structures for RNA replication.An amino acid of human parainfluenza virus type 3 nucleoprotein is critical for template function and cytoplasmic inclusion body formation.Structural properties of the C terminus of vesicular stomatitis virus N protein dictate N-RNA complex assembly, encapsidation, and RNA synthesis.Upon Infection the Cellular WD Repeat-containing Protein 5 (WDR5) Localizes to Cytoplasmic Inclusion Bodies and Enhances Measles Virus Replication.Inclusion bodies of human parainfluenza virus type 3 inhibit antiviral stress granule formation by shielding viral RNAs.
P2860
Q24294301-ADB8CA47-1D96-4CB8-86C9-E8A9CEBFBCBCQ26801290-C76F95B2-9E27-4010-A354-F4D106F05FA9Q27021839-F56B01BD-20F3-4D9D-A1F5-AD667FD50DAFQ27679531-DCE9F5AD-8D2C-4799-8696-B30A29775AD3Q27687067-AC8ECF0A-0D77-42B4-AE05-872B31DC5258Q28732060-6FF042CF-4C57-49CE-A6C5-329BECED98E4Q33957049-512F2516-7466-4C46-8C61-BBFD58D1261BQ34720292-294D34C9-6B2F-4140-B52F-1A95E7AE390DQ34963154-DF24222A-CC49-40B8-9A99-388B5A12F38AQ35111022-3B08A1B3-6643-4A0D-A7D1-AFF73B59618EQ35226192-43A0C49F-F5EC-4EBC-A711-C809A75F8D86Q35571345-FFA54C38-F374-4FE8-8A33-8A6A4804D4D5Q36086238-879FFB61-E120-4D93-A80B-ADE08B4FC0A4Q36165348-DF5C5571-3A7E-4BC2-BDC0-3BF83AC5B92DQ36171959-992D8C16-1FAB-491E-B235-8BFE5B21B067Q36172158-D773F3D1-FEFB-4476-9237-F430ED6721BCQ36281798-BEC43E52-41E2-40E3-8273-160E568EF513Q36363434-53E699AE-9ED8-4F44-9ADE-9C6EE462CABDQ36506918-E5B9A608-D324-4CF8-9FD6-B4056998CD05Q36914809-7CBDEB1C-9E3B-4B9F-B132-3F5D163460C0Q37002579-BCA3C51A-7428-429B-BF68-A259BB5E6618Q37336660-FBA900CB-4980-4A97-96B4-695D8012DC8FQ38515936-09B54C1D-EF43-42B0-8EF7-317F85FC2635Q38548470-5C66F9D8-DD12-40EE-8B3E-1381B8B7BB5BQ38734221-6EBA84E7-E27F-4220-B86D-CB4EEF0AEE7BQ38905100-9A72F4EA-7BCF-4170-B3C7-F8FC4540BF27Q38912739-EA41BCCC-C99E-4377-946B-8ABD8F8AED0AQ39263769-E19A96B0-BC84-410B-BA8E-0D19EB7F0298Q39373886-D41E491B-D444-4335-A24F-412E151EF6E5Q39445347-82BD9317-4239-477D-9E2B-DB0AC1E72DBBQ39523243-CBFA8615-EC90-429A-94E3-D1FD58FB9943Q40133967-54B8AB90-0A4C-4C61-8182-46E3F10DC66CQ40403859-48072D8C-E9CB-44A7-8ED5-A784C011DD89Q41701408-C6F7A841-1A3D-428F-B73F-4B1128D7FE18Q41924199-694DD27E-995D-4E36-BE83-35547727B410Q42096806-86EE8967-2C55-4693-B755-53C6127B8C68Q42270304-56255478-F0C6-4181-B848-8DAAF0A79DB4Q42281065-F56F6D98-E880-4FB5-9225-BDD988FC3E0BQ46323158-74B69C8B-44F8-4CE7-BCAF-C9C755BBD906Q52666773-5A3C9774-1575-4A79-88EF-C2D6281AA9B5
P2860
Protein expression redirects vesicular stomatitis virus RNA synthesis to cytoplasmic inclusions
description
2010 nî lūn-bûn
@nan
2010 թուականին հրատարակուած գիտական յօդուած
@hyw
2010 թվականին 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
Protein expression redirects v ...... esis to cytoplasmic inclusions
@ast
Protein expression redirects v ...... esis to cytoplasmic inclusions
@en
Protein expression redirects v ...... esis to cytoplasmic inclusions
@nl
type
label
Protein expression redirects v ...... esis to cytoplasmic inclusions
@ast
Protein expression redirects v ...... esis to cytoplasmic inclusions
@en
Protein expression redirects v ...... esis to cytoplasmic inclusions
@nl
prefLabel
Protein expression redirects v ...... esis to cytoplasmic inclusions
@ast
Protein expression redirects v ...... esis to cytoplasmic inclusions
@en
Protein expression redirects v ...... esis to cytoplasmic inclusions
@nl
P2093
P2860
P3181
P1433
P1476
Protein expression redirects v ...... esis to cytoplasmic inclusions
@en
P2093
Amal A Rahmeh
Bianca S Heinrich
David K Cureton
Sean P J Whelan
P2860
P304
P3181
P356
10.1371/JOURNAL.PPAT.1000958
P407
P577
2010-01-01T00:00:00Z