DNA packaging mutant: repression of the vaccinia virus A32 gene results in noninfectious, DNA-deficient, spherical, enveloped particles.
about
Common origin of four diverse families of large eukaryotic DNA virusesStructural and Functional Studies of the Phage Sf6 Terminase Small Subunit Reveal a DNA-Spooling Device Facilitated by Structural PlasticityStructures of the phage Sf6 large terminase provide new insights into DNA translocation and cleavagePoxvirus DNA replicationAfrican swine fever virus polyproteins pp220 and pp62 assemble into the core shellCharacterization of the archaeal thermophile Sulfolobus turreted icosahedral virus validates an evolutionary link among double-stranded DNA viruses from all domains of lifeEngineering of the fluorescent-energy-conversion arm of phi29 DNA packaging motor for single-molecule studiesVaccinia virus nonstructural protein encoded by the A11R gene is required for formation of the virion membrane.The effect of N- or C-terminal alterations of the connector of bacteriophage phi29 DNA packaging motor on procapsid assembly, pRNA binding, and DNA packagingThe vaccinia virus A9L gene encodes a membrane protein required for an early step in virion morphogenesis.Vaccinia virus WR gene A5L is required for morphogenesis of mature virions.Repression of vaccinia virus Holliday junction resolvase inhibits processing of viral DNA into unit-length genomes.Vaccinia virus telomeres: interaction with the viral I1, I6, and K4 proteinsEndoplasmic reticulum-Golgi intermediate compartment membranes and vimentin filaments participate in vaccinia virus assemblyStructure/Function analysis of the vaccinia virus F18 phosphoprotein, an abundant core component required for virion maturation and infectivity.Vaccinia virus J1R protein: a viral membrane protein that is essential for virion morphogenesis.Vaccinia virus proteome: identification of proteins in vaccinia virus intracellular mature virion particles.Interactions of the vaccinia virus A19 proteinInvestigation of structural and functional motifs within the vaccinia virus A14 phosphoprotein, an essential component of the virion membrane.Bacteriophage assemblyExpression profiling of the intermediate and late stages of poxvirus replication.Genome-wide analysis of vaccinia virus protein-protein interactions.Real-time sensing and discrimination of single chemicals using the channel of phi29 DNA packaging nanomotor.Molecular genetic and biochemical characterization of the vaccinia virus I3 protein, the replicative single-stranded DNA binding protein.Orthopoxvirus targets for the development of new antiviral agents.Development of Potent Antiviral Drugs Inspired by Viral Hexameric DNA-Packaging Motors with Revolving Mechanism.Vaccinia virus A19 protein participates in the transformation of spherical immature particles to barrel-shaped infectious virions.Predicted poxvirus FEN1-like nuclease required for homologous recombination, double-strand break repair and full-size genome formation.Interaction of the vaccinia virus RNA polymerase-associated 94-kilodalton protein with the early transcription factor.Elucidating the essential role of the A14 phosphoprotein in vaccinia virus morphogenesis: construction and characterization of a tetracycline-inducible recombinant.The genome of fowlpox virusThe major core protein P4a (A10L gene) of vaccinia virus is essential for correct assembly of viral DNA into the nucleoprotein complex to form immature viral particles.Repression of African swine fever virus polyprotein pp220-encoding gene leads to the assembly of icosahedral core-less particles.Cidofovir inhibits genome encapsidation and affects morphogenesis during the replication of vaccinia virus.Genetic analysis of the vaccinia virus I6 telomere-binding protein uncovers a key role in genome encapsidation.Genome segregation and packaging machinery in Acanthamoeba polyphaga mimivirus is reminiscent of bacterial apparatus.Polintons: a hotbed of eukaryotic virus, transposon and plasmid evolution.Isolation and Characterization of vΔI3 Confirms that the Vaccinia Virus SSB Plays an Essential Role in Viral Replication.Single-Particle Discrimination of Retroviruses from Extracellular Vesicles by Nanoscale Flow Cytometry.A new approach for detecting adventitious viruses shows Sf-rhabdovirus-negative Sf-RVN cells are suitable for safe biologicals production.
P2860
Q24529306-EE176E02-9BD1-48AF-AB48-DC7292265745Q27671091-D88B4391-722C-40BA-9368-13EE4EAC5330Q27677862-918D6CCB-FCEA-4D68-A199-EF728B61FD38Q28294254-98CA2A06-671E-443A-82B4-17AFFE9ADBF6Q30332237-C46A8C9E-0A14-4EE2-8770-EA2F38697C17Q33250133-628EB85C-AEA8-4A48-87F7-E291337055F6Q33501768-45B8B8EF-7D9E-47BF-BB5B-05ED4E83AD00Q33788819-6A865D1E-EF76-41AF-8C6E-989EF90F40FCQ33795162-4704ECB6-8259-465C-99C1-CE451081B947Q33811821-8113F753-A0A0-491A-8EBB-C1CF149C28F5Q33813478-8C8463D0-385F-499A-BD55-D2EFB82BE4F5Q33843207-549D7E62-FA49-4111-B15D-440126221191Q33847472-6C28DBFC-3882-4C6A-AC55-9EE849BD44ECQ33956910-41363FF7-EC33-4DDB-89EE-4C25860C3FD7Q33990733-FF2D45C6-97C1-4B02-8BA2-81875E3030A7Q34347131-9A9E760B-5511-475D-8314-C62C44952DC9Q34434835-3069B3B8-6676-45EB-A967-BB4BC6EAA623Q34864699-05AB23BB-A3D4-4C23-98EA-AA1D6BE751C1Q35182365-1431D5D4-0B74-470B-B205-37A051908A98Q35260969-57DD3D0C-858D-423E-8E06-DBCC1427C76AQ35383164-10C8C2AE-4893-4CB3-9192-F64D2B0A5101Q35700178-8148C44A-6939-4952-839F-BE1CC53B6EFEQ35914607-4351BE22-9EC3-4566-BEE4-D6FC977ED516Q36023195-33112474-461A-4C68-BF92-93DA7B17209DQ37173398-7BBAD5EA-2D0D-44FC-8747-B31C16EBFA19Q37224816-A91A8A3D-5004-4E7A-9DB0-C6625E1F0AF4Q37252836-8AE40C57-61B6-4D3D-ABF0-14AA6D1CD497Q37371038-085BED18-9F8F-4652-B954-51501494FC16Q37452102-B62F39A2-C9AD-4F29-9DA1-EE31C9993633Q39590521-DC55AE72-CDFD-48AB-AC51-C1B37555362DQ39590582-2E808435-89F8-4E91-B658-65E88457113BQ39603114-568B7F47-51EE-4FF2-9B16-2926E544C943Q39682876-0DB71A1F-842D-408E-8498-1E4E2F3B2F8DQ39804417-3B4CA696-A8C5-4973-9A35-55EAF51949E4Q39997681-640AC09A-5730-4D9D-B352-7E3D21A35FA2Q42192918-D780EE7B-6FDC-4B96-BDE0-4E8BAA231AB4Q43023688-5CE77D72-3C37-4845-8B8B-9D4AB0201180Q45325412-134E15EC-6D7F-4C28-810C-B4F9CA97A6F1Q47126636-2F9B8897-5E74-4F14-9A2D-6737C5C69360Q49163443-8A388DFD-43D0-4B59-AA72-5FA6ACA9E277
P2860
DNA packaging mutant: repression of the vaccinia virus A32 gene results in noninfectious, DNA-deficient, spherical, enveloped particles.
description
1998 nî lūn-bûn
@nan
1998 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@ast
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@en
type
label
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@ast
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@en
prefLabel
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@ast
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@en
P2093
P2860
P1433
P1476
DNA packaging mutant: repressi ...... pherical, enveloped particles.
@en
P2093
A S Weisberg
E J Wolffe
M C Cassetti
M Merchlinsky
P2860
P304
P577
1998-07-01T00:00:00Z