Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
about
Imaging poliovirus entry in live cellsCellular transport and membrane dynamics of the glycine receptorHigh content image-based screening of a protease inhibitor library reveals compounds broadly active against Rift Valley fever virus and other highly pathogenic RNA virusesApical transport of influenza A virus ribonucleoprotein requires Rab11-positive recycling endosomeBicaudal D1-dependent trafficking of human cytomegalovirus tegument protein pp150 in virus-infected cellsCellular vimentin regulates construction of dengue virus replication complexes through interaction with NS4A proteinCircovirus transport proceeds via direct interaction of the cytoplasmic dynein IC1 subunit with the viral capsid proteinAssociation of hepatitis C virus replication complexes with microtubules and actin filaments is dependent on the interaction of NS3 and NS5AA kinesin-1 binding motif in vaccinia virus that is widespread throughout the human genomeCoupling viruses to dynein and kinesin-1The actin cytoskeleton as a barrier to virus infection of polarized epithelial cellsBaculovirus nuclear import: open, nuclear pore complex (NPC) sesameImmunological responses and actin dynamics in macrophages are controlled by N-cofilin but are independent from ADFMicrotubule plus end-associated CLIP-170 initiates HSV-1 retrograde transport in primary human cellsRotavirus viroplasm fusion and perinuclear localization are dynamic processes requiring stabilized microtubulesCellular mechanisms of alpha herpesvirus egress: live cell fluorescence microscopy of pseudorabies virus exocytosisIdentification of Cellular Proteome Modifications in Response to West Nile Virus InfectionSmall interference RNA profiling reveals the essential role of human membrane trafficking genes in mediating the infectious entry of dengue virusA Phage Tubulin Assembles Dynamic Filaments by an Atypical Mechanism to Center Viral DNA within the Host CellA Rab11- and microtubule-dependent mechanism for cytoplasmic transport of influenza A virus viral RNAInhibition of MLC phosphorylation restricts replication of influenza virus--a mechanism of action for anti-influenza agentsA hypothetical model of crossing Bombyx mori nucleopolyhedrovirus through its host midgut physical barriersiRNA Screen Identifies Trafficking Host Factors that Modulate Alphavirus InfectionConserved Tryptophan Motifs in the Large Tegument Protein pUL36 Are Required for Efficient Secondary Envelopment of Herpes Simplex Virus Capsids.Eclipse phase of herpes simplex virus type 1 infection: Efficient dynein-mediated capsid transport without the small capsid protein VP26.Adenovirus E4orf4 hijacks rho GTPase-dependent actin dynamics to kill cells: a role for endosome-associated actin assembly.Three-dimensional structure of the human cytomegalovirus cytoplasmic virion assembly complex includes a reoriented secretory apparatus.Virus trafficking - learning from single-virus trackingLive-cell imaging of Marburg virus-infected cells uncovers actin-dependent transport of nucleocapsids over long distances.PKA-dependent dynein switching from lysosomes to adenovirus: a novel form of host-virus competition.Conformational changes in the adenovirus hexon subunit responsible for regulating cytoplasmic dynein recruitment.Enterovirus 71 VP1 activates calmodulin-dependent protein kinase II and results in the rearrangement of vimentin in human astrocyte cells.Comparative analysis of differentially expressed genes in normal and white spot syndrome virus infected Penaeus monodon.Cellular proteins in influenza virus particlesVesicular egress of non-enveloped lytic parvoviruses depends on gelsolin functioningF11-mediated inhibition of RhoA signalling enhances the spread of vaccinia virus in vitro and in vivo in an intranasal mouse model of infectionPlus- and minus-end directed microtubule motors bind simultaneously to herpes simplex virus capsids using different inner tegument structuresPositive selection of primate genes that promote HIV-1 replication.The transforming parasite Theileria co-opts host cell mitotic and central spindles to persist in continuously dividing cells.The essential role of clathrin-mediated endocytosis in the infectious entry of human enterovirus 71.
P2860
Q21092757-201BB633-C1F3-44BA-AD84-86D033FF683BQ21129094-BABCE1BF-6F98-4AE4-AD7D-294908EAD93FQ21144476-8055BDA9-58BD-4ED0-BA3B-FD22D87EAFBBQ21560807-3DE40DEB-1E15-41EA-B9C8-8F8764CE5555Q24296677-4E9874EE-5F0B-4008-89EF-821B4D5C3F7CQ24310514-70A1E72E-EF5B-427A-90A5-28EEF875ECEEQ24311598-315FC2F3-89D2-4BF3-972C-509E0D33C99CQ24323048-C23AAA38-25DD-48D3-851D-E4820492567EQ24337857-3CD1B36B-5BAF-407D-968E-EB5088038475Q26864993-AB735634-7DA0-4A63-8E15-8ACF8769B93DQ27015995-E8B65AEA-4370-4E6D-B6F9-AD9288968E47Q27024372-05320EE3-F294-4AE9-B405-F8C319F6568EQ27303881-98820354-F2D4-4CC9-925B-FA937C557980Q27309233-68501F63-25A0-4749-8BF8-15E25606D4F9Q27313339-45A23C7D-2671-4A29-90D9-43496E65F805Q27322566-4B57A4FD-161F-4510-8C3B-3F398D7FA76CQ27488891-D77AD413-CE98-45DC-957F-8CF0F2C3F328Q27490952-1C104584-40FD-4EEB-A00D-8042A0DE69D8Q27681321-7AE10379-8A9E-47E0-82C5-2228BD94DE2DQ28305057-30AC93B4-3C35-4E55-8B04-52DDDE488A6BQ28478705-BDD666B9-4606-4F51-B5F0-4FD1F45D5667Q28542703-DCC372B3-3F62-4171-86B7-E81F1C7EB124Q28551117-A3726F09-D051-47FB-883D-C1CC3E492B97Q30355292-F87CFD3F-401F-4C7C-A984-F828E5B5D8BCQ30445612-340A8536-0288-4C5B-BABC-B35A33216237Q30477467-44F7590F-FD44-4236-A358-0ADE4440C1E9Q30480949-52120F11-8052-4EC7-A6E7-F743611AFDBEQ30490068-829C40EF-CED5-4B8D-AA38-A76ABF3C914CQ30544040-9C309C69-8203-4EE1-86EA-B7A4B74A9B69Q30577235-C9F929A2-E4FA-4813-97F1-12D37534B0DEQ30616830-528A5D69-EE2C-494E-9CD8-BEFAAA27C6D8Q31140321-19F46555-094C-4E25-8DF4-47A25CB9C31DQ33284834-74F338EC-F66F-4780-8662-CB28CB6831FFQ33340974-63E0EE08-3E72-4518-83E8-31A0F9AC42B7Q33360273-1C82EA6D-1E55-43B2-9268-FECE9A0BDD8BQ33521248-62BA0793-4D53-4E09-BEB9-8BCADC11BA34Q33632158-6D9CCB06-D6C5-4D4F-AA12-2716BF02FA2BQ33637979-505F63A4-6F2D-4A87-9457-3B3E959AD169Q33712012-725F3C01-1A92-4DA5-9A0F-F00BD6F13986Q33721725-DF46E31A-D846-4233-A827-7E4BDA4667FE
P2860
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@ast
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@en
type
label
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@ast
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@en
prefLabel
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@ast
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@en
P2093
P2860
P1476
Viral interactions with the cytoskeleton: a hitchhiker's guide to the cell.
@en
P2093
Beate Sodeik
Katinka Döhner
Kerstin Radtke
P2860
P304
P356
10.1111/J.1462-5822.2005.00679.X
P577
2006-03-01T00:00:00Z