Degenerate RNA packaging signals in the genome of Satellite Tobacco Necrosis Virus: implications for the assembly of a T=1 capsid.
about
Mechanisms of virus assemblySequence-Specific, RNA–Protein Interactions Overcome Electrostatic Barriers Preventing Assembly of Satellite Tobacco Necrosis Virus Coat ProteinStructural Characterization of H-1 Parvovirus: Comparison of Infectious Virions to Empty CapsidsComputational virology: From the inside outAsymmetric genome organization in an RNA virus revealed via graph-theoretical analysis of tomographic dataModeling Viral Capsid Assembly.Revealing the density of encoded functions in a viral RNAVisualizing the global secondary structure of a viral RNA genome with cryo-electron microscopy.Direct Evidence for Packaging Signal-Mediated Assembly of Bacteriophage MS2The Role of Packaging Sites in Efficient and Specific Virus AssemblyEvidence that viral RNAs have evolved for efficient, two-stage packaging.Viral genome structures are optimal for capsid assemblySolving a Levinthal's paradox for virus assembly identifies a unique antiviral strategy.Construction and characterization of virus-like particles: a review.Identification of novel RNA secondary structures within the hepatitis C virus genome reveals a cooperative involvement in genome packagingBiologically-supported structural model for a viral satellite RNA.Bacteriophage MS2 genomic RNA encodes an assembly instruction manual for its capsidA Model for Viral Assembly around an Explicit RNA Sequence Generates an Implicit Fitness Landscape.HBV RNA pre-genome encodes specific motifs that mediate interactions with the viral core protein that promote nucleocapsid assembly.Assembled viral-like nanoparticles from elastic capsomers and polyion.Packaging signals in single-stranded RNA viruses: nature's alternative to a purely electrostatic assembly mechanism.Long-range architecture in a viral RNA genomeEffect of capsid confinement on the chromatin organization of the SV40 minichromosomeA two-stage mechanism of viral RNA compaction revealed by single molecule fluorescence.HIV-1 B-subtype capsid protein: a characterization of amino acid's conservation and its significant association with integrase signatures.The assembly pathway of an icosahedral single-stranded RNA virus depends on the strength of inter-subunit attractions.Scaffold properties are a key determinant of the size and shape of self-assembled virus-derived particlesBuilding a viral capsid in the presence of genomic RNA.Rewriting nature's assembly manual for a ssRNA virus.Alphavirus Nucleocapsid Packaging and Assembly.
P2860
Q26852826-68DAADDA-E8E6-481E-8779-262BD4D3AD56Q27675894-85A8AB1A-157B-4E07-B7D9-E80FDBE23869Q27676651-12DF9B38-6846-457F-9F88-53DBFD57696DQ28068453-30B86EDA-842F-4F5F-B55E-FD6EA417679CQ28544752-604A5D88-1DA0-4041-8055-0D68F780F2B4Q35052591-6CF4DD4C-2DF3-498A-901D-111FAE442238Q35129114-A123C363-18B3-46CE-A3C3-E846529D7BB8Q35534970-BD003D57-75D1-489F-BF98-DF31F24D239FQ35853411-189ADDF4-4FBB-4EF4-A863-52D32C670AB8Q35904484-708B7E84-934C-4C51-94FB-29406BD7E662Q36300706-DBFBF458-3CF3-44F0-8318-A130362072C1Q36932520-1DC55AF9-F9CA-4121-AAE1-C741F31BAD33Q37702005-DEC2A716-8C9F-4A06-9B74-02A73B428285Q38045834-69E7D874-6FA1-439D-BFC8-D15A641E99C2Q38293248-B34BE700-7637-4FCC-B7B4-D5E1587D6FE6Q38934006-F243C731-452F-4C01-83D1-D46AF8A01B70Q39796212-252654A2-2530-40C5-A7F3-173D8FB58F50Q40089071-0EDFC389-695E-4019-9B30-AA25A8AE43E3Q40154580-7AEE7305-03E3-4903-945C-F9939C9A2F84Q40252222-4E8BA76D-D6EC-4470-A405-8655AD4FD197Q40973092-3E997A9B-0FC1-4036-BCFC-A39246540EDFQ41585290-A3F11034-9F0E-445E-B0A2-49FF4D834899Q41779250-A7DE830F-687C-4BE0-A7E9-95501FF5A511Q42151853-84F9E5CD-76FB-40B3-B866-28FFEE18C2C7Q42240376-1AD32031-C156-4D6D-B71E-F9B5BD8F02FEQ42260546-753277A4-D2A5-4964-AAAD-ECB5E099AF4EQ42264819-F32CF245-05AF-47F5-8984-1B1C2F48007FQ43664435-EF64A91F-ED4B-4193-98C1-1ED84794D647Q45325473-C4872C1A-2EF1-49E8-8FF7-74E8A7755608Q52646713-2F92C21E-6D22-4683-9C84-1DBE2352F838
P2860
Degenerate RNA packaging signals in the genome of Satellite Tobacco Necrosis Virus: implications for the assembly of a T=1 capsid.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en-gb
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@nl
type
label
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en-gb
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@nl
prefLabel
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en-gb
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@nl
P2093
P50
P1476
Degenerate RNA packaging signa ...... the assembly of a T=1 capsid.
@en
P2093
Claire L Lane
David H J Bunka
Eric C Dykeman
Robert J Ford
Simon E V Phillips
Stephen W Lane
P356
10.1016/J.JMB.2011.07.063
P407
P577
2011-08-03T00:00:00Z