Amino acid residues within conserved domain VI of the vesicular stomatitis virus large polymerase protein essential for mRNA cap methyltransferase activity
about
An unconventional pathway of mRNA cap formation by vesiculovirusesCommon and unique features of viral RNA-dependent polymerasesProtein expression redirects vesicular stomatitis virus RNA synthesis to cytoplasmic inclusionsOrganization, Function, and Therapeutic Targeting of the Morbillivirus RNA-Dependent RNA Polymerase ComplexWest Nile Virus 5'-Cap Structure Is Formed by Sequential Guanine N-7 and Ribose 2'-O Methylations by Nonstructural Protein 5Structure and Function of Flavivirus NS5 MethyltransferaseVesicular Stomatitis Virus mRNA Capping Machinery Requires Specific cis-Acting Signals in the RNAAnalysis of a structural homology model of the 2'-O-ribose methyltransferase domain within the vesicular stomatitis virus L protein.Identification of Sendai Virus L Protein Amino Acid Residues Affecting Viral mRNA Cap MethylationRibose 2'-O Methylation of the Vesicular Stomatitis Virus mRNA Cap Precedes and Facilitates Subsequent Guanine-N-7 Methylation by the Large Polymerase ProteinUnderstanding and altering cell tropism of vesicular stomatitis virusNewly identified phosphorylation site in the vesicular stomatitis virus P protein is required for viral RNA synthesisA temperature sensitive VSV identifies L protein residues that affect transcription but not replication.S-adenosyl homocysteine-induced hyperpolyadenylation of vesicular stomatitis virus mRNA requires the methyltransferase activity of L proteinHistidine-mediated RNA transfer to GDP for unique mRNA capping by vesicular stomatitis virus RNA polymeraseA freeze frame view of vesicular stomatitis virus transcription defines a minimal length of RNA for 5' processingRational design of human metapneumovirus live attenuated vaccine candidates by inhibiting viral mRNA cap methyltransferaseArchitecture and regulation of negative-strand viral enzymatic machineryMolecular architecture of the vesicular stomatitis virus RNA polymerase.Capping of vesicular stomatitis virus pre-mRNA is required for accurate selection of transcription stop-start sites and virus propagationMethyltransferase-defective avian metapneumovirus vaccines provide complete protection against challenge with the homologous Colorado strain and the heterologous Minnesota strain.A unique strategy for mRNA cap methylation used by vesicular stomatitis virus.Vesicular stomatitis virus as a vector to deliver virus-like particles of human norovirus: a new vaccine candidate against an important noncultivable virus.Sequestration by IFIT1 impairs translation of 2'O-unmethylated capped RNA.Inactivation of a human norovirus surrogate, human norovirus virus-like particles, and vesicular stomatitis virus by gamma irradiationEnhanced removal of a human norovirus surrogate from fresh vegetables and fruits by a combination of surfactants and sanitizers.mRNA maturation in giant viruses: variation on a theme.Lack of correlation between virus barosensitivity and the presence of a viral envelope during inactivation of human rotavirus, vesicular stomatitis virus, and avian metapneumovirus by high-pressure processingRecoding of the vesicular stomatitis virus L gene by computer-aided design provides a live, attenuated vaccine candidateVesicular stomatitis viruses resistant to the methylase inhibitor sinefungin upregulate RNA synthesis and reveal mutations that affect mRNA cap methylationCritical phosphoprotein elements that regulate polymerase architecture and function in vesicular stomatitis virusCritical Role of K1685 and K1829 in the Large Protein of Rabies Virus in Viral Pathogenicity and Immune EvasionStructure and Function of the N-Terminal Domain of the Vesicular Stomatitis Virus RNA PolymeraseSignature motifs of GDP polyribonucleotidyltransferase, a non-segmented negative strand RNA viral mRNA capping enzyme, domain in the L protein are required for covalent enzyme-pRNA intermediate formationRoles of LEF-4 and PTP/BVP RNA triphosphatases in processing of baculovirus late mRNAs.AKT1-dependent activation of NF-kappaB by the L protein of parainfluenza virus 5.mRNA cap methylation influences pathogenesis of vesicular stomatitis virus in vivo.Sensitivity of the polymerase of vesicular stomatitis virus to 2' substitutions in the template and nucleotide triphosphate during initiation and elongation.Polymerases of paramyxoviruses and pneumoviruses.An In Vitro RNA Synthesis Assay for Rabies Virus Defines Ribonucleoprotein Interactions Critical for Polymerase Activity
P2860
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P2860
Amino acid residues within conserved domain VI of the vesicular stomatitis virus large polymerase protein essential for mRNA cap methyltransferase activity
description
2005 nî lūn-bûn
@nan
2005 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Amino acid residues within con ...... cap methyltransferase activity
@ast
Amino acid residues within con ...... cap methyltransferase activity
@en
Amino acid residues within con ...... cap methyltransferase activity
@nl
type
label
Amino acid residues within con ...... cap methyltransferase activity
@ast
Amino acid residues within con ...... cap methyltransferase activity
@en
Amino acid residues within con ...... cap methyltransferase activity
@nl
prefLabel
Amino acid residues within con ...... cap methyltransferase activity
@ast
Amino acid residues within con ...... cap methyltransferase activity
@en
Amino acid residues within con ...... cap methyltransferase activity
@nl
P2093
P2860
P1433
P1476
Amino acid residues within con ...... cap methyltransferase activity
@en
P2093
Errin C Fontaine-Rodriguez
Jianrong Li
Sean P J Whelan
P2860
P304
13373-13384
P356
10.1128/JVI.79.21.13373-13384.2005
P407
P577
2005-11-01T00:00:00Z