An examination of the electrostatic interactions between the N-terminal tail of the Brome Mosaic Virus coat protein and encapsidated RNAs.
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Mechanisms of virus assemblyFluctuating Nonlinear Spring Model of Mechanical Deformation of Biological ParticlesComputational virology: From the inside outThe tripartite virions of the brome mosaic virus have distinct physical properties that affect the timing of the infection process.Pathways for virus assembly around nucleic acids.An atomic model of brome mosaic virus using direct electron detection and real-space optimizationRole of electrostatics in the assembly pathway of a single-stranded RNA virusThe plant host can affect the encapsidation of brome mosaic virus (BMV) RNA: BMV virions are surprisingly heterogeneousModeling Viral Capsid Assembly.Atomic force microscopy in biomaterials surface science.Direct Evidence for Packaging Signal-Mediated Assembly of Bacteriophage MS2The Robust Assembly of Small Symmetric Nanoshells.A Thermodynamic Model for Genome Packaging in Hepatitis B Virus.Functional analysis of the N-terminal basic motif of a eukaryotic satellite RNA virus capsid protein in replication and packaging.Viral genome structures are optimal for capsid assemblyPhosphorylation of the Brome Mosaic Virus Capsid Regulates the Timing of Viral InfectionTransmissible gastroenteritis coronavirus genome packaging signal is located at the 5' end of the genome and promotes viral RNA incorporation into virions in a replication-independent processHBV maintains electrostatic homeostasis by modulating negative charges from phosphoserine and encapsidated nucleic acidsNon-encapsidation activities of the capsid proteins of positive-strand RNA viruses.Single Particle Observation of SV40 VP1 Polyanion-Induced Assembly Shows That Substrate Size and Structure Modulate Capsid Geometry.Examining the Heterogeneous Genome Content of Multipartite Viruses BMV and CCMV by Native Mass Spectrometry.The Effect of RNA Secondary Structure on the Self-Assembly of Viral Capsids.Effects of RNA branching on the electrostatic stabilization of viruses.Effects of long-range interactions on curvature energies of viral shells.Impact of the topology of viral RNAs on their encapsulation by virus coat proteins.RNA topology remolds electrostatic stabilization of viruses.How simple can a model of an empty viral capsid be? Charge distributions in viral capsids.Templated co-assembly into nanorods of polyanions and artificial virus capsid proteins.The intrinsically disordered N-terminal arm of the brome mosaic virus coat protein specifically recognizes the RNA motif that directs the initiation of viral RNA replication.Engineering the Ionic Self-Assembly of Polyoxometalates and Facial-Like Peptides.Intrinsically-disordered N-termini in human parechovirus 1 capsid proteins bind encapsidated RNA.The different faces of mass action in virus assembly.Contact Mechanics of a Small Icosahedral Virus.Systematic analysis of biological roles of charged amino acid residues located throughout the structured inner wall of a virus capsid.
P2860
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P2860
An examination of the electrostatic interactions between the N-terminal tail of the Brome Mosaic Virus coat protein and encapsidated RNAs.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
An examination of the electros ...... protein and encapsidated RNAs.
@ast
An examination of the electros ...... protein and encapsidated RNAs.
@en
type
label
An examination of the electros ...... protein and encapsidated RNAs.
@ast
An examination of the electros ...... protein and encapsidated RNAs.
@en
prefLabel
An examination of the electros ...... protein and encapsidated RNAs.
@ast
An examination of the electros ...... protein and encapsidated RNAs.
@en
P2093
P2860
P50
P1476
An examination of the electros ...... protein and encapsidated RNAs
@en
P2093
Bogdan Dragnea
C Cheng Kao
Nayaran Chandra Das
P2860
P304
P356
10.1016/J.JMB.2012.03.023
P407
P577
2012-04-01T00:00:00Z