Interactions between vaccinia virus IEV membrane proteins and their roles in IEV assembly and actin tail formation
about
Actin-based motility of intracellular microbial pathogensThe Structure of the Poxvirus A33 Protein Reveals a Dimer of Unique C-Type Lectin-Like DomainsModulation of the myxoma virus plaque phenotype by vaccinia virus protein F11.The formin FHOD1 and the small GTPase Rac1 promote vaccinia virus actin-based motility.Arp2/3-mediated actin-based motility: a tail of pathogen abuse.Repulsion of superinfecting virions: a mechanism for rapid virus spread.Visualization of intracellular movement of vaccinia virus virions containing a green fluorescent protein-B5R membrane protein chimera.F11-mediated inhibition of RhoA signalling enhances the spread of vaccinia virus in vitro and in vivo in an intranasal mouse model of infectionRhoD Inhibits RhoC-ROCK-Dependent Cell Contraction via PAK6.Effects of deletion or stringent repression of the H3L envelope gene on vaccinia virus replication.Vaccinia virus F12L protein is required for actin tail formation, normal plaque size, and virulence.The vaccinia virus A33R protein provides a chaperone function for viral membrane localization and tyrosine phosphorylation of the A36R protein.Vaccinia virus intracellular movement is associated with microtubules and independent of actin tailsVaccinia virus F13L protein with a conserved phospholipase catalytic motif induces colocalization of the B5R envelope glycoprotein in post-Golgi vesiclesThere is an A33-dependent mechanism for the incorporation of B5-GFP into vaccinia virus extracellular enveloped virions.Directed egress of animal viruses promotes cell-to-cell spreadIdentification of second-site mutations that enhance release and spread of vaccinia virus.Ligand-induced and nonfusogenic dissolution of a viral membrane.Capturing the natural diversity of the human antibody response against vaccinia virusMapping and functional analysis of interaction sites within the cytoplasmic domains of the vaccinia virus A33R and A36R envelope proteinsInvestigation of structural and functional motifs within the vaccinia virus A14 phosphoprotein, an essential component of the virion membrane.Viral exploitation of actin: force-generation and scaffolding functions in viral infection.Loss of cytoskeletal transport during egress critically attenuates ectromelia virus infection in vivo.Increased interaction between vaccinia virus proteins A33 and B5 is detrimental to infectious extracellular enveloped virion production.The A33-dependent incorporation of B5 into extracellular enveloped vaccinia virions is mediated through an interaction between their lumenal domainsThe vaccinia virus B5 protein requires A34 for efficient intracellular trafficking from the endoplasmic reticulum to the site of wrapping and incorporation into progeny virions.Vaccinia virus E2L null mutants exhibit a major reduction in extracellular virion formation and virus spread.Mutations in the vaccinia virus A33R and B5R envelope proteins that enhance release of extracellular virions and eliminate formation of actin-containing microvilli without preventing tyrosine phosphorylation of the A36R protein.Active vaccination with vaccinia virus A33 protects mice against lethal vaccinia and ectromelia viruses but not against cowpoxvirus; elucidation of the specific adaptive immune response.Poxvirus proteomics and virus-host protein interactions.Vaccinia virus A34 glycoprotein determines the protein composition of the extracellular virus envelope.Emergence of a Viral RNA Polymerase Variant during Gene Copy Number Amplification Promotes Rapid Evolution of Vaccinia Virus.The vaccinia virus-encoded Bcl-2 homologues do not act as direct Bax inhibitors.Intracellular localization of vaccinia virus extracellular enveloped virus envelope proteins individually expressed using a Semliki Forest virus replicon.Cellular gene expression survey of vaccinia virus infection of human HeLa cells.Acidic residues in the membrane-proximal stalk region of vaccinia virus protein B5 are required for glycosaminoglycan-mediated disruption of the extracellular enveloped virus outer membrane.An E2-F12 complex is required for intracellular enveloped virus morphogenesis during vaccinia infection.Vaccinia virus proteins A36 and F12/E2 show strong preferences for different kinesin light chain isoforms.Interaction between vaccinia virus extracellular virus envelope A33 and B5 glycoproteins.Vaccinia virus infection disrupts microtubule organization and centrosome function.
P2860
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P2860
Interactions between vaccinia virus IEV membrane proteins and their roles in IEV assembly and actin tail formation
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
Interactions between vaccinia ...... embly and actin tail formation
@en
Interactions between vaccinia ...... mbly and actin tail formation.
@nl
type
label
Interactions between vaccinia ...... embly and actin tail formation
@en
Interactions between vaccinia ...... mbly and actin tail formation.
@nl
prefLabel
Interactions between vaccinia ...... embly and actin tail formation
@en
Interactions between vaccinia ...... mbly and actin tail formation.
@nl
P2093
P2860
P1433
P1476
Interactions between vaccinia ...... embly and actin tail formation
@en
P2093
P2860
P304
P407
P577
1999-04-01T00:00:00Z