scholarly article | Q13442814 |
P2093 | author name string | Amal A Rahmeh | |
Sean P J Whelan | |||
Bianca S Heinrich | |||
David K Cureton | |||
P2860 | cites work | Messenger RNA is translated when associated with the cytoskeletal framework in normal and VSV-infected HeLa cells | Q72886401 |
The deacetylase HDAC6 regulates aggresome formation and cell viability in response to misfolded protein stress | Q24301895 | ||
Interaction of the rabies virus P protein with the LC8 dynein light chain | Q24515070 | ||
Cytoplasmic dynein LC8 interacts with lyssavirus phosphoprotein | Q24515071 | ||
Three-dimensional analysis of a viral RNA replication complex reveals a virus-induced mini-organelle | Q27334421 | ||
Alphavirus RNA replicase is located on the cytoplasmic surface of endosomes and lysosomes | Q27482419 | ||
Analysis of a structural homology model of the 2'-O-ribose methyltransferase domain within the vesicular stomatitis virus L protein | Q27487781 | ||
Ribose 2'-O Methylation of the Vesicular Stomatitis Virus mRNA Cap Precedes and Facilitates Subsequent Guanine-N-7 Methylation by the Large Polymerase Protein | Q27490322 | ||
Structure of the vesicular stomatitis virus nucleocapsid in complex with the nucleocapsid-binding domain of the small polymerase cofactor, P | Q27646396 | ||
RNA molecular weight determinations by gel electrophoresis under denaturing conditions, a critical reexamination | Q29547816 | ||
Aggresomes, inclusion bodies and protein aggregation | Q29615253 | ||
Both NS and L proteins are required for in vitro RNA synthesis by vesicular stomatitis virus | Q30450594 | ||
Dissociation and reconstitution of the transcriptase and template activities of vesicular stomatitis B and T virions | Q30450661 | ||
RNA trafficking signals in human immunodeficiency virus type 1. | Q30453555 | ||
Role of kinesin-1 and cytoplasmic dynein in endoplasmic reticulum movement in VERO cells. | Q30489390 | ||
Single mRNA molecules demonstrate probabilistic movement in living mammalian cells | Q30716659 | ||
Remodeling the endoplasmic reticulum by poliovirus infection and by individual viral proteins: an autophagy-like origin for virus-induced vesicles | Q33604281 | ||
Reovirus sigmaNS protein is required for nucleation of viral assembly complexes and formation of viral inclusions. | Q33836647 | ||
Matrix protein and another viral component contribute to induction of apoptosis in cells infected with vesicular stomatitis virus | Q33870184 | ||
Parainfluenza virus 5 genomes are located in viral cytoplasmic bodies whilst the virus dismantles the interferon-induced antiviral state of cells | Q33910718 | ||
Efficient recovery of infectious vesicular stomatitis virus entirely from cDNA clones | Q33975389 | ||
Functional characterization of Negri bodies (NBs) in rabies virus-infected cells: Evidence that NBs are sites of viral transcription and replication | Q34017835 | ||
Transcription and replication initiate at separate sites on the vesicular stomatitis virus genome | Q34034236 | ||
Amino acid residues within conserved domain VI of the vesicular stomatitis virus large polymerase protein essential for mRNA cap methyltransferase activity | Q34092783 | ||
RNA-dependent DNA polymerase in virions of RNA tumour viruses | Q34206460 | ||
An antiviral role for the RNA interference machinery in Caenorhabditis elegans | Q34234621 | ||
A unique strategy for mRNA cap methylation used by vesicular stomatitis virus | Q34694397 | ||
Sequential transcription of the genes of vesicular stomatitis virus | Q35000897 | ||
Transcription and replication of nonsegmented negative-strand RNA viruses. | Q35857617 | ||
Order of transcription of genes of vesicular stomatitis virus | Q35984588 | ||
Parallels among positive-strand RNA viruses, reverse-transcribing viruses and double-stranded RNA viruses | Q36438773 | ||
Isolation of an infectious ribonucleoprotein from vesicular stomatitis virus containing an active RNA transcriptase | Q36512627 | ||
Method of examining viral RNA metabolism in cells in culture: metabolism of vesicular stomatitis virus RNA | Q36568599 | ||
Replication and amplification of defective interfering particle RNAs of vesicular stomatitis virus in cells expressing viral proteins from vectors containing cloned cDNAs | Q36808047 | ||
Interaction of mRNA with proteins in vesicular stomatitis virus-infected cells. | Q36857943 | ||
N protein alone satisfies the requirement for protein synthesis during RNA replication of vesicular stomatitis virus | Q36911597 | ||
Toll-like receptor 3 (TLR3) plays a major role in the formation of rabies virus Negri Bodies. | Q37097294 | ||
Morphogenesis of the nucleoprotein of vesicular stomatitis virus | Q37142326 | ||
Alternate, virus-induced membrane rearrangements support positive-strand RNA virus genome replication | Q37388582 | ||
Preferential translation of vesicular stomatitis virus mRNAs is conferred by transcription from the viral genome | Q39320821 | ||
Mammalian reovirus nonstructural protein microNS forms large inclusions and colocalizes with reovirus microtubule-associated protein micro2 in transfected cells | Q39753074 | ||
Transcriptional activity and mutational analysis of recombinant vesicular stomatitis virus RNA polymerase. | Q40044300 | ||
Effect of glucosamine treatment on vesicular stomatitis virus macromolecular synthesis: Host cell dependence | Q40256113 | ||
Visualization of intracellular transport of vesicular stomatitis virus nucleocapsids in living cells. | Q40267817 | ||
A single amino acid change in the L-polymerase protein of vesicular stomatitis virus completely abolishes viral mRNA cap methylation | Q40416522 | ||
Unconventional mechanism of mRNA capping by the RNA-dependent RNA polymerase of vesicular stomatitis virus. | Q40460335 | ||
Reovirus nonstructural protein mu NS recruits viral core surface proteins and entering core particles to factory-like inclusions | Q40594974 | ||
A novel centrosome-associated protein with affinity for microtubules | Q40713677 | ||
Opposing effects of inhibiting cap addition and cap methylation on polyadenylation during vesicular stomatitis virus mRNA synthesis | Q41829930 | ||
A conserved motif in region v of the large polymerase proteins of nonsegmented negative-sense RNA viruses that is essential for mRNA capping | Q41914591 | ||
Cytochemical, fluorescent-antibody and electron microscopic studies on the growth of reovirus (ECHO 10) in tissue culture | Q43500409 | ||
The vesicular stomatitis virus L protein possesses the mRNA methyltransferase activities | Q44587475 | ||
The L protein of vesicular stomatitis virus modulates the response of the polyadenylic acid polymerase to S-adenosylhomocysteine | Q45125114 | ||
The interaction of antibody with the major surface glycoprotein of vesicular stomatitis virus. I. Analysis of neutralizing epitopes with monoclonal antibodies. | Q45393162 | ||
Intracellular distribution of poliovirus proteins and the induction of virus-specific cytoplasmic structures | Q45797426 | ||
The interaction of antibody with the major surface glycoprotein of vesicular stomatitis virus I. Analysis of neutralizing epitopes with monoclonal antibodies | Q45805148 | ||
Guidance of bidirectional motor complexes by mRNA cargoes through control of dynein number and activity | Q47070241 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | ImageQuant | Q112270642 |
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | virology | Q7215 |
vesicular stomatitis | Q11549084 | ||
P304 | page(s) | e1000958 | |
P577 | publication date | 2010-01-01 | |
P1433 | published in | PLOS Pathogens | Q283209 |
P1476 | title | Protein expression redirects vesicular stomatitis virus RNA synthesis to cytoplasmic inclusions | |
P478 | volume | 6 |
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