about
Virion assembly factories in the nucleus of polyomavirus-infected cellsFlavivirus modulation of cellular metabolismVirus-derived small RNAs: molecular footprints of host-pathogen interactionsRecycling Endosomes and Viral InfectionThe Role of Electron Microscopy in Studying the Continuum of Changes in Membranous Structures during Poliovirus InfectionLipids at the interface of virus-host interactionsViral Replication Protein Inhibits Cellular Cofilin Actin Depolymerization Factor to Regulate the Actin Network and Promote Viral Replicase AssemblyTubule-guided cell-to-cell movement of a plant virus requires class XI myosin motorsDengue Virus Control of Type I IFN Responses: A History of Manipulation and ControlLuteovirus: insights into pathogenicityEarly dengue virus protein synthesis induces extensive rearrangement of the endoplasmic reticulum independent of the UPR and SREBP-2 pathwayMobility and interactions of coronavirus nonstructural protein 4.Unraveling the structure of viral replication complexes at super-resolution.Three-dimensional architecture of tick-borne encephalitis virus replication sites and trafficking of the replicated RNA.Dynamic imaging of the hepatitis C virus NS5A protein during a productive infection.High Temperature, High Ambient CO₂ Affect the Interactions between Three Positive-Sense RNA Viruses and a Compatible Host Differentially, but not Their Silencing Suppression Efficiencies.PolyC-binding protein 1 interacts with 5'-untranslated region of enterovirus 71 RNA in membrane-associated complex to facilitate viral replication.The tripartite virions of the brome mosaic virus have distinct physical properties that affect the timing of the infection process.Virophages or satellite viruses?Virus-induced aggregates in infected cells.Dependence of coronavirus RNA replication on an NH2-terminal partial nonstructural protein 1 in cis.The hop-like stress-induced protein 1 cochaperone is a novel cell-intrinsic restriction factor for mitochondrial tombusvirus replication.A host small GTP-binding protein ARL8 plays crucial roles in tobamovirus RNA replication.The TPR domain in the host Cyp40-like cyclophilin binds to the viral replication protein and inhibits the assembly of the tombusviral replicaseA Co-Opted DEAD-Box RNA helicase enhances tombusvirus plus-strand synthesis.The dependence of viral RNA replication on co-opted host factors.AMP-activated kinase restricts Rift Valley fever virus infection by inhibiting fatty acid synthesis.Amphipathic alpha-helix AH2 is a major determinant for the oligomerization of hepatitis C virus nonstructural protein 4BAminoterminal amphipathic α-helix AH1 of hepatitis C virus nonstructural protein 4B possesses a dual role in RNA replication and virus production.Inhibition of phospholipid biosynthesis decreases the activity of the tombusvirus replicase and alters the subcellular localization of replication proteins.Experimentally guided models reveal replication principles that shape the mutation distribution of RNA virusesHepatitis C virus-induced cytoplasmic organelles use the nuclear transport machinery to establish an environment conducive to virus replicationDiverse interactions of retroviral Gag proteins with RNAs.Inactivation of the host lipin gene accelerates RNA virus replication through viral exploitation of the expanded endoplasmic reticulum membraneDengue virus induces and requires glycolysis for optimal replicationThe expanding functions of cellular helicases: the tombusvirus RNA replication enhancer co-opts the plant eIF4AIII-like AtRH2 and the DDX5-like AtRH5 DEAD-box RNA helicases to promote viral asymmetric RNA replication.Noncanonical role for the host Vps4 AAA+ ATPase ESCRT protein in the formation of Tomato bushy stunt virus replicaseCo-opted oxysterol-binding ORP and VAP proteins channel sterols to RNA virus replication sites via membrane contact sites.A Drosophila toolkit for the visualization and quantification of viral replication launched from transgenic genomes.GAPDH--a recruits a plant virus movement protein to cortical virus replication complexes to facilitate viral cell-to-cell movement
P2860
Q21558475-D9E28485-5D69-44A3-AC1C-24266BE039F8Q24575425-62DFB797-2A52-4343-8806-E8168508D913Q26750532-129B6F66-0270-417C-9902-EB99D414ECA8Q26752566-FB9661D1-58CB-4D2E-A958-0CF83D829E4AQ26782410-551CBD74-3C69-4791-A7CA-6509B9827614Q26860983-48F830F2-2E23-47AC-AECA-7CDE4DB25C08Q27315960-F8420028-19A1-412F-8486-E4CE3E8F828AQ27348727-2D280D00-B174-45F7-9917-B6C80C1201EDQ28087420-9705C2F9-DB4A-4A08-B968-3259D403738AQ28245214-F8531DBC-5462-4C18-8893-F45FA4F8D538Q28484077-4827ED4F-5061-4C29-8FE2-34F16E2C99DBQ30501719-6ABAC7AB-CA04-4CD6-8713-9103947C0445Q30533817-310A9886-C09A-48B2-A93E-3082AA42325BQ30539647-E3E84A4B-926B-4DFA-B321-F87EDEB3D162Q30576516-C5F382F9-502D-4562-8855-347BEF38D6EEQ30990366-A4913B99-30AB-4070-8453-4FF1F96015CEQ31149456-9839D4B5-BAA8-48CE-A91C-08BC34C74117Q33887723-1DDC3F34-02E8-4745-869C-18A539D45BC8Q34029101-005DC224-6CD8-47D0-A490-53F33FCB89D1Q34034603-9EA10DCE-44F8-4940-846A-982CF364C41FQ34059202-43AB9F30-FF02-4DE2-B9D6-E6810A77C134Q34059324-F302B9CB-81B8-4BEF-9A6E-2932436CC543Q34102695-A8618C66-EE3A-4ABE-B544-D0714781B6CFQ34162254-35DA51B9-0997-4A48-B5EC-8BA476927D26Q34167914-1E1BA32E-E58F-4208-8D7A-5FE88F361400Q34241671-F93608DE-8E80-4F4C-9CF8-C94ACB231523Q34244912-8A92D598-60B9-47A0-AF70-857B7853B223Q34416649-60A6A113-94DB-4FAB-85F5-E8407A9F7DBEQ34506649-BC87543E-EF0D-4008-93D9-C4264EB0BAF8Q35023984-35D452F9-028D-4096-8AA8-82C1E018D5A8Q35030377-B7B5AC4D-4005-444E-9E67-76233F30EACAQ35034273-95219F0F-AA1D-4722-9604-AE8AEDCCDCB1Q35087489-864F908C-8EEE-43EA-9021-5F6D947C2F8EQ35105634-CEBCC013-1AA7-4F20-B4A2-D540297065DAQ35115662-25BC8677-56F6-4FCB-B7F5-DC8399903919Q35151994-F494D09C-9D4D-4081-BBCF-87155CDC8A8FQ35157229-1E28215C-9CC6-40D0-9444-DAFF7E3511F5Q35347251-A780BEB3-B676-447C-92B5-4163A23CAD8FQ35410067-1E419666-1732-4503-AA4E-DDFB903CA620Q35439162-A7B8B1D1-AF38-4AD0-8522-3BCE0F7D2334
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on July 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Cytoplasmic viral replication complexes
@en
Cytoplasmic viral replication complexes.
@nl
type
label
Cytoplasmic viral replication complexes
@en
Cytoplasmic viral replication complexes.
@nl
prefLabel
Cytoplasmic viral replication complexes
@en
Cytoplasmic viral replication complexes.
@nl
P2860
P1433
P1476
Cytoplasmic viral replication complexes
@en
P2093
Johan A den Boon
Paul Ahlquist
P2860
P356
10.1016/J.CHOM.2010.06.010
P50
P577
2010-07-01T00:00:00Z