Published in J Virol on March 01, 1988
Complexes of Sendai virus NP-P and P-L proteins are required for defective interfering particle genome replication in vitro. J Virol (1992) 2.73
The NS1 protein of human respiratory syncytial virus is a potent inhibitor of minigenome transcription and RNA replication. J Virol (1998) 2.02
Baculovirus expression of the nucleoprotein gene of measles virus and utility of the recombinant protein in diagnostic enzyme immunoassays. J Clin Microbiol (1992) 1.87
Mutations in the 5' trailer region of a respiratory syncytial virus minigenome which limit RNA replication to one step. J Virol (2000) 1.23
Measles virus synthesizes both leaderless and leader-containing polyadenylated RNAs in vivo. J Virol (1989) 1.22
Leader sequence distinguishes between translatable and encapsidated measles virus RNAs. J Virol (1990) 1.13
Expression of five proteins from the Sendai virus P/C mRNA in infected cells. J Virol (1989) 0.91
Initiation and regulation of paramyxovirus transcription and replication. Virology (2015) 0.87
Purification and characterization of Nipah virus nucleocapsid protein produced in insect cells. J Clin Microbiol (2005) 0.83
The paramyxovirus polymerase complex as a target for next-generation anti-paramyxovirus therapeutics. Front Microbiol (2015) 0.79
A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem (1976) 903.81
Sendai virus contains overlapping genes expressed from a single mRNA. Cell (1983) 4.71
Transcription and replication of rhabdoviruses. Microbiol Rev (1987) 4.05
Sequence of 3,687 nucleotides from the 3' end of Sendai virus genome RNA and the predicted amino acid sequences of viral NP, P and C proteins. Nucleic Acids Res (1983) 3.62
Plus and minus strand leader RNAs in negative strand virus-infected cells. Cell (1979) 3.50
N protein of vesicular stomatitis virus selectively encapsidates leader RNA in vitro. Cell (1983) 3.46
Interaction of VSV leader RNA and nucleocapsid protein may control VSV genome replication. Cell (1981) 3.06
Determination of the complete nucleotide sequence of the Sendai virus genome RNA and the predicted amino acid sequences of the F, HN and L proteins. Nucleic Acids Res (1986) 2.60
Tubulin: a factor necessary for the synthesis of both Sendai virus and vesicular stomatitis virus RNAs. Proc Natl Acad Sci U S A (1986) 2.45
Determination by peptide mapping of the unique polypeptides in Sendai virions and infected cells. Virology (1978) 2.17
Regulation of Sendai virus transcription: evidence for a single promoter in vivo. J Virol (1977) 2.02
Vesicular stomatitis virus N and NS proteins form multiple complexes. J Virol (1986) 2.01
In vitro replication of Sendai virus wild-type and defective interfering particle genome RNAs. J Virol (1985) 1.53
Genomic and copy-back 3' termini in Sendai virus defective interfering RNA species. J Virol (1983) 1.28
Structural and functional analysis of Sendai virus nucleocapsid protein NP with monoclonal antibodies. Virology (1984) 1.21
Preparation and analysis of the nucleocapsid proteins of vesicular stomatitis virus and sendai virus, and analysis of the sendai virus leader-NP gene region. J Gen Virol (1984) 1.20
Monoclonal antibodies to the P protein of Sendai virus define its structure and role in transcription. Virology (1985) 1.09
Translation and identification of the mRNA species synthesized in vitro by the virion-associated RNA polymerase of vesicular stomatitis virus. Proc Natl Acad Sci U S A (1975) 4.17
Messenger RNA species synthesized in vitro by the virion-associated RNA polymerase of vesicular stomatitis virus. Cell (1975) 3.04
Studies on the in vitro adenylation of RNA by vesicular stomatitis virus. Virology (1974) 2.83
Complexes of Sendai virus NP-P and P-L proteins are required for defective interfering particle genome replication in vitro. J Virol (1992) 2.73
Translation and identification of the viral mRNA species isolated from subcellular fractions of vesicular stomatitis virus-infected cells. J Virol (1975) 2.68
Tubulin: a factor necessary for the synthesis of both Sendai virus and vesicular stomatitis virus RNAs. Proc Natl Acad Sci U S A (1986) 2.45
In vitro synthesis of methylated messenger RNA by the virion-associated RNA polymerase of vesicular stomatitis virus. Cell (1974) 2.42
Methylated and blocked 5' termini in vesicular stomatitis virus in vivo mRNAs. Cell (1975) 2.15
Viral proteins required for the in vitro replication of vesicular stomatitis virus defective interfering particle genome RNA. Virology (1988) 2.11
Assembly of vesicular stomatitis virus glycoprotein and matrix protein into HeLa cell plasma membranes. J Mol Biol (1976) 2.10
Phosphorylation of vesicular stomatitis virus in vivo and in vitro. J Virol (1974) 2.07
Initiation and replication of vesicular stomatitis virus genome RNA in a cell-free system. Proc Natl Acad Sci U S A (1983) 1.95
Sub-cellular localization of vesicular stomatitis virus messenger RNAs. Biochem Biophys Res Commun (1975) 1.91
In vitro replication of Sendai virus wild-type and defective interfering particle genome RNAs. J Virol (1985) 1.53
Vesicular stomatitis virus envelope glycoprotein alterations induced by host cell transformation. Cell (1974) 1.45
Deletion analysis defines a carboxyl-proximal region of Sendai virus P protein that binds to the polymerase L protein. Virology (1994) 1.44
The Sendai virus C protein binds the L polymerase protein to inhibit viral RNA synthesis. Virology (1997) 1.41
Oligosaccharide moieties of the glycoprotein of vesicular stomatitis virus. J Virol (1976) 1.40
The Sendai virus V protein interacts with the NP protein to regulate viral genome RNA replication. Virology (1996) 1.40
Structure, transcription, and replication of measles virus. Curr Top Microbiol Immunol (1995) 1.35
Mutations in conserved domain I of the Sendai virus L polymerase protein uncouple transcription and replication. Virology (1995) 1.33
Domains of the measles virus N protein required for binding to P protein and self-assembly. Virology (1996) 1.32
Mutations in the measles virus C protein that up regulate viral RNA synthesis. Virology (2001) 1.27
In vivo methylation of vesicular stomatitis virus and its host-cell messenger RNA species. Virology (1976) 1.27
Host range mutants of vesicular stomatitis virus defective in in vitro RNA methylation. Proc Natl Acad Sci U S A (1982) 1.26
The vesicular stomatitis virus L protein possesses the mRNA methyltransferase activities. Virology (1988) 1.23
Studies on the in vivo and in vitro messenger RNA species of vesicular stomatitis virus. Virology (1975) 1.23
A highly conserved region of the Sendai virus nucleocapsid protein contributes to the NP-NP binding domain. Virology (1997) 1.19
Alternative amino acids at a single site in the Sendai virus L protein produce multiple defects in RNA synthesis in vitro. Virology (1995) 1.13
Promoter analysis of the vesicular stomatitis virus RNA polymerase. Virology (1993) 1.10
Mutations in conserved domain II of the large (L) subunit of the Sendai virus RNA polymerase abolish RNA synthesis. Virology (1999) 1.07
Dissection of individual functions of the Sendai virus phosphoprotein in transcription. J Virol (1999) 1.05
Characterization of the infections of permissive and nonpermissive cells by host range mutants of vesicular stomatitis virus defective in RNA methylation. Virology (1984) 1.03
Synthesis of leader RNA and editing of the P mRNA during transcription by purified measles virus. J Virol (1991) 1.02
An amino-proximal domain of the L protein binds to the P protein in the measles virus RNA polymerase complex. Virology (1994) 1.02
Sendai virus wild-type and mutant C proteins show a direct correlation between L polymerase binding and inhibition of viral RNA synthesis. Virology (2001) 1.01
Mutations in conserved domains IV and VI of the large (L) subunit of the sendai virus RNA polymerase give a spectrum of defective RNA synthesis phenotypes. Virology (2000) 0.97
Intracellular events in the replication of defective interfering particles of vesicular stomatitis virus. Virology (1979) 0.97
Mutations in domain V of the Sendai virus L polymerase protein uncouple transcription and replication and differentially affect replication in vitro and in vivo. Virology (2000) 0.97
Comparison of identical temperature-sensitive mutations in the L polymerase proteins of sendai and parainfluenza3 viruses. Virology (2000) 0.97
Role of primary constitutive phosphorylation of Sendai virus P and V proteins in viral replication and pathogenesis. Virology (1999) 0.93
A simple method for the preparation of extracts from animal cells which catalyze efficient in vitro protein synthesis. J Biol Chem (1983) 0.93
Alteration of the 5' terminal caps of the mRNAs of vesicular stomatitis virus by cycloleucine in vivo. Virology (1981) 0.92
Requirements for measles virus induction of RANTES chemokine in human astrocytoma-derived U373 cells. J Virol (1999) 0.92
Identification of nucleocapsid protein residues required for Sendai virus nucleocapsid formation and genome replication. J Gen Virol (1999) 0.87
Double-stranded RNA adenosine deaminase activity during measles virus infection. Virus Res (1995) 0.87
Measles virus nucleocapsid protein can function in Sendai virus defective interfering particle genome synthesis in vitro. Virology (1995) 0.87
Hypermutation of the phosphoprotein and altered mRNA editing in the hamster neurotropic strain of measles virus. Virology (1995) 0.82
Characterization of the non-permissive infection of rabbit cornea cells by vesicular stomatitis virus. J Gen Virol (1980) 0.82
Characterization of paramyxoviruses isolated from three snakes. Virus Res (1996) 0.78
An amino-terminal domain of the Sendai virus nucleocapsid protein is required for template function in viral RNA synthesis. J Virol (1997) 0.78
Determinants of serotype specificity in transcription of vesicular stomatitis virus synthetic nucleocapsids. Virology (1994) 0.77
The specific inhibition of vesicular stomatitis virus replication by toyocamycin. Virology (1979) 0.75