A novel immunogold cryoelectron microscopic approach to investigate the structure of the intracellular and extracellular forms of vaccinia virus.
about
Whole cell cryo-electron tomography reveals distinct disassembly intermediates of vaccinia virusThree-Dimensional Structural Characterization of HIV-1 Tethered to Human Cells.Native immunogold labeling of cell surface proteins and viral glycoproteins for cryo-electron microscopy and cryo-electron tomography applicationsOpen reading frame 1a-encoded subunits of the arterivirus replicase induce endoplasmic reticulum-derived double-membrane vesicles which carry the viral replication complexA glutaredoxin, encoded by the G4L gene of vaccinia virus, is essential for virion morphogenesis.Vaccinia virus intracellular mature virions contain only one lipid membrane.Analysis of a vaccinia virus mutant expressing a nonpalmitylated form of p37, a mediator of virion envelopment.Characterization of vaccinia virus intracellular cores: implications for viral uncoating and core structureStructural maturation of the transmissible gastroenteritis coronavirus.Cryo-electron tomography of vaccinia virus.Vaccinia virus tropism for primary hematolymphoid cells is determined by restricted expression of a unique virus receptor.Endoplasmic reticulum-Golgi intermediate compartment membranes and vimentin filaments participate in vaccinia virus assemblyVaccinia virus H3L envelope protein is a major target of neutralizing antibodies in humans and elicits protection against lethal challenge in mice.An unconventional role for cytoplasmic disulfide bonds in vaccinia virus proteins.Structure of intracellular mature vaccinia virus visualized by in situ atomic force microscopyIntracellular trafficking of a palmitoylated membrane-associated protein component of enveloped vaccinia virus.Role of cell signaling in poxvirus-mediated foreign gene expression in mammalian cellsA vaccinia virus core protein, p39, is membrane associated.Identification of the major membrane and core proteins of vaccinia virus by two-dimensional electrophoresis.Assembly of African swine fever virus: role of polyprotein pp220A novel virus binding assay using confocal microscopy: demonstration that the intracellular and extracellular vaccinia virions bind to different cellular receptors.Resistance of a vaccinia virus A34R deletion mutant to spontaneous rupture of the outer membrane of progeny virions on the surface of infected cellsCorrelative super-resolution fluorescence and electron microscopy using conventional fluorescent proteins in vacuo.Differential antigen requirements for protection against systemic and intranasal vaccinia virus challenges in mice.Selective CD4+ T cell help for antibody responses to a large viral pathogen: deterministic linkage of specificities.CD4+ T cells provide intermolecular help to generate robust antibody responses in vaccinia virus-vaccinated humans.VirusMapper: open-source nanoscale mapping of viral architecture through super-resolution microscopy.The vaccinia virus 14-kilodalton (A27L) fusion protein forms a triple coiled-coil structure and interacts with the 21-kilodalton (A17L) virus membrane protein through a C-terminal alpha-helix.Vaccinia virus protein A3 is required for the production of normal immature virions and for the encapsidation of the nucleocapsid protein L4.Myxoma and vaccinia viruses bind differentially to human leukocytes.Generation of filamentous instead of icosahedral particles by repression of African swine fever virus structural protein pB438LThe major structural protein of African swine fever virus, p73, is packaged into large structures, indicative of viral capsid or matrix precursors, on the endoplasmic reticulumAfrican swine fever virus is enveloped by a two-membraned collapsed cisterna derived from the endoplasmic reticulum.Identification of functional domains in the 14-kilodalton envelope protein (A27L) of vaccinia virus.Structure and assembly of intracellular mature vaccinia virus: isolated-particle analysis.Structure and assembly of intracellular mature vaccinia virus: thin-section analysesVaccinia virus membrane proteins p8 and p16 are cotranslationally inserted into the rough endoplasmic reticulum and retained in the intermediate compartmentVaccinia virus infection disrupts microtubule organization and centrosome function.Appearance of the bona fide spiral tubule of ORF virus is dependent on an intact 10-kilodalton viral protein.Atomic force microscopy investigation of vaccinia virus structure.
P2860
Q27303005-746B88A7-6D93-4761-A91A-95B9A894DFE5Q27321247-D12ACA12-4BFD-48B5-9088-60A2525EE031Q27335433-AD1F0CBC-FBFE-4CAC-9F08-DEDECF3881CAQ27469372-AEA883EA-D593-407D-B523-33B592248754Q33604728-DEFF08B3-B907-4E3C-875F-51DC222F7540Q33641762-488EA99B-DB3D-4832-8AFF-48A84C842C5EQ33784474-6C15787C-2282-44ED-B371-EF908AC4EEF1Q33802038-540C271B-80EF-487F-9916-447E6EA41057Q33818690-6D9EF009-65DA-4C18-A0F0-4D1A4ACC9B34Q33864380-84999DAD-007A-411E-B8F2-149AC7B6D607Q33912043-BDFCA2EC-B89B-4EDE-9BF8-549D6243B995Q33956910-E3962EFF-7AA4-4E6F-A772-B7921A2F1A53Q33987410-6E7BD5A7-67A0-468A-8351-482D0DC23EDEQ34756523-C5C92169-C816-48AF-84A1-3934C5E38FBDQ34996724-8F73A5C9-0213-4667-A090-CE09C4AE7E43Q35182349-0677A373-73B7-4A43-82B7-20710A9D7795Q35292450-C9106B21-EE40-4675-A457-2FE47BFE5356Q35870461-04B806F0-6AC9-4F1F-9622-F9DC6E766A19Q35871688-76C4E334-4437-411C-8FE4-29B6E5B2B77BQ35879355-F127B47A-A5A7-46B8-A6B6-6C86A479E83FQ35884079-61901E89-5FC0-4A17-BA81-39F4D5CDBC93Q36103310-9A6FD355-874D-47A3-8ABD-3DA3ECF47C49Q36391498-E2B56747-B671-4858-BAA5-B8BD6209EED0Q36747784-C55405BB-D376-4ABC-A311-5A89A84DA426Q36825059-B588B2B2-780F-4447-AA65-83F453EC701AQ36920299-5F1DC4A8-96C7-4882-B19A-EB0CC4FFD647Q37061804-88CE7A86-DD81-4D57-A5FA-B925FAAD074FQ38331459-B0E37726-EF25-4D00-B24A-F639C9F4FBD5Q38900735-7A561CED-6B02-4018-ABBB-CF4F14E3FC1DQ39198482-FCD3B959-6541-42AA-B402-F79AF0F53396Q39321181-8534B252-9451-4C85-9594-575DE8A225A9Q39580953-7869BF6B-DE1F-4E04-A9DC-6F9E30321677Q39582070-81F2C2B6-265A-4DE3-9023-EE9CB69CAD8DQ39596379-B3AFF82B-A1DC-4107-9C77-F79C1092BF62Q39605111-40A0C6E7-56A8-4F54-AF91-2AA4E74AC2CCQ39605119-48FAD146-FE12-4E1E-894F-FA6B259256BFQ39881356-CB531D98-A6A4-4097-AF15-0D901A23B985Q40392464-DAD8F4CA-3680-4258-9147-815577508BF8Q41039244-90C103DB-122A-46DF-878B-D739D536F782Q41338149-357CEED2-994B-4AF7-B6C4-6192BAF0E9DE
P2860
A novel immunogold cryoelectron microscopic approach to investigate the structure of the intracellular and extracellular forms of vaccinia virus.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
A novel immunogold cryoelectro ...... lular forms of vaccinia virus.
@en
type
label
A novel immunogold cryoelectro ...... lular forms of vaccinia virus.
@en
prefLabel
A novel immunogold cryoelectro ...... lular forms of vaccinia virus.
@en
P2093
P2860
P1433
P1476
A novel immunogold cryoelectro ...... llular forms of vaccinia virus
@en
P2093
G Griffiths
J Krijnse-Locker
M Cyrklaff
P2860
P304
P356
10.1002/J.1460-2075.1996.TB00590.X
P407
P50
P577
1996-05-01T00:00:00Z