Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038362 (stomatitis)
8,852 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The complete nucleotide sequence of the mRNA of the matrix (M) protein of vesicular stomatitis virus [New Jersey serotype, VSV(NJ)] was derived from a cDNA clone and mRNA. The mRNA is 758 nucleotides long (excluding polyadenylic acid) and encodes a protein of 229 amino acids. The predicted amino acid sequence was compared with that of the corresponding protein of Indiana serotype [VSV(IND)] and a fish rhabdovirus, spring viremia of carp virus (SVCV). An amino acid identity of 62% was found between the M proteins of VSV(NJ) and VSV(IND) while only 24% was present between VSV(NJ) and SVCV. A highly basic NH2-terminal domain followed by a proline-proline-X-tyrosine sequence was present in all the three M polypeptides. Except for the L gene sequence, the complete nucleotide sequence of the four genes of VSV(NJ) are now known. The comparison of the amino acid sequences between the Indiana and New Jersey serotypes demonstrates a high degree of homology between these genes except for the phosphoprotein gene, NS.
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PMID:Complete nucleotide sequence of the matrix protein mRNA of vesicular stomatitis virus (New Jersey serotype). 300 43

In vitro translation of a mixture of the vesicular stomatitis virus (VSV) polyadenylated mRNAs yielded a previously undetected protein with a molecular weight of approximately 7,000 (7K protein). Hybrid-arrested translation demonstrated that both the 7K protein and the VSV phosphoprotein (P protein) were encoded by the P protein message. Immunoprecipitation of the 7K protein with monoclonal antiserum directed against the P protein indicated that the two products were encoded in the same open reading frame. A protein of approximately the same size was immunoprecipitated from cytoplasmic extracts of VSV-infected cells by both the polyclonal and monoclonal antisera, and it is likely that it was a previously unrecognized viral gene product. Translational mapping of the P protein mRNA in vitro indicated that the 7K protein was encoded in the 3' one-third of the sequence. The synthesis of the 7K protein in vitro was unaffected by hybrid arrest conditions which blocked the 5' two-thirds of the mRNA and inhibited synthesis of the P protein. These results imply that the ribosomes bind and initiate translation internally on the P protein mRNA at a site located hundreds of nucleotides downstream from the capped 5' end.
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PMID:Internal initiation of translation on the vesicular stomatitis virus phosphoprotein mRNA yields a second protein. 300 88

The phosphoprotein (NS) gene from the Indiana serotype of vesicular stomatitis virus (VSV; Mudd-Summers strain) was cloned and sequenced. The NS gene encodes a protein of 265 amino acids which was expressed from a simian virus 40 vector in COS cells. The post-translational modification characteristic of viral NS, the extensive phosphorylation of a cluster of serine and threonine residues, was also evident in recombinant NS protein. The NS gene displays a property common to the phosphoprotein genes of negative-strand RNA viruses: the phosphoprotein mRNA has a second open reading frame (ORF) which could encode a small (7500 mol. wt.) protein. Both measles virus and Sendai virus employ the second ORF of their phosphoprotein gene, and the resultant proteins have an amino acid composition similar to that predicted for the VSV ORF. Comparison of phosphoproteins from different VSV strains revealed two conserved domains that we propose are critical for the function of NS in transcription and replication.
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PMID:Cloning and expression of a viral phosphoprotein: structure suggests vesicular stomatitis virus NS may function by mimicking an RNA template. 301 52

The vesicular stomatitis virus nucleocapsid protein, N, associated specifically with the viral phosphoprotein, NS, in an in vitro system which supported vesicular stomatitis virus RNA replication. Essentially all the N protein was found complexed with NS. In addition, multiple forms of the N-NS complex were detected which differed in their sedimentation properties and ratios of N to NS.
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PMID:Vesicular stomatitis virus N and NS proteins form multiple complexes. 301 38

A full-length cDNA copy of the phosphoprotein (NS) mRNA of vesicular stomatitis virus (New Jersey serotype) was inserted into pGEM4 vector downstream of the promoter for bacteriophage SP6 RNA polymerase. Transcription of the cDNA in vitro resulted in the synthesis of NS mRNA, which was subsequently translated into NS protein in a cell-free rabbit reticulocyte system. The biological activity of the expressed NS protein was demonstrated by in vitro synthesis of mRNA by transcription-reconstitution with purified viral L protein and N-RNA template. Deletion mapping of the NS gene defined a specific domain between amino acid residues 213 and 247, which was essential for in vitro transcription. Removal of the COOH-terminal 21 amino acids, on the other hand, did not have a significant effect on transcription. This domain appears to be involved in efficient binding of NS protein to the N protein-RNA template.
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PMID:Identification of a domain within the phosphoprotein of vesicular stomatitis virus that is essential for transcription in vitro. 302 53

The nucleotide sequence of the 3' end of the genome of Chandipura (CHP) virus, including the complete sequences of the nucleocapsid (N) and phosphoprotein (NS) genes was determined, principally from cloned cDNAs of the N and NS mRNAs. The NS mRNA of CHP virus is 908 bases in length and encodes a protein of 293 amino acids. Comparison of the CHP virus NS protein sequence with those of vesicular stomatitis virus of the New Jersey serotype (VSV (NJ)) and of the Indiana serotype (VSV (IND] revealed homologies of only 23 and 21%, respectively, with no consecutive stretches of more than four amino acids identical among the three sequences. As with the two VSV serotypes, the highest homology between the NS proteins of CHP and VSV was in a 20-amino acid region near the carboxy termini of the proteins. Of the potential phosphorylation sites, there are eight conserved serine or threonine residues among the three sequences. Despite the dissimilarity among primary sequences of the NS proteins, their overall structure, as assessed by amino acid composition and by the relative hydropathicities of the sequences, has been conserved throughout evolution. The N mRNA of CHP virus is 1291 bases long and encodes a protein of 422 amino acids. In contrast to the NS protein, the CHP N protein is at least 50% homologous to the N proteins of each of the VSV serotypes. We have identified a region near the center of these N protein sequences which is conserved among members of both the rhabdovirus and paramyxovirus families. This extent of conservation of the N protein sequences underscores the high rate of mutability of the NS protein sequences among the vesiculoviruses.
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PMID:Sequences of Chandipura virus N and NS genes: evidence for high mutability of the NS gene within vesiculoviruses. 302 73

We have investigated the functional significance of phosphoserine residues that lie in the L protein-binding domain between amino acids 213 and 247 of the phosphoprotein (NS) of vesicular stomatitis virus. A series of mutant NS proteins were made by cell-free translation of mRNAs transcribed from the cloned gene. Site-directed substitution of alanine for both serine 236 and serine 242 essentially abolished RNA synthesis catalyzed by the NS-L complex. Substitution of either of these serines reduced RNA synthesis by 75%. Serine 218 played no major role in RNA synthesis. Phosphorylation of NS by the L protein was abrogated by substitution of either serine 236 or serine 242. These results indicate that phosphorylation of serines 236 and 242 in the NS protein regulates its binding with the L protein and the N-RNA template and is essential for activation of viral RNA synthesis.
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PMID:Phosphorylation within a specific domain of the phosphoprotein of vesicular stomatitis virus regulates transcription in vitro. 303 53

The structural protein, NS, of purified vesicular stomatitis virus (VSV) is a phosphoprotein. In infected cells phosphorylated NS is found both free in the cytoplasm and as part of the viral ribonucleoprotein (RNP) complex containing both the 42S RNA and the structural proteins L, N, and NS, indicating that phosphorylation occurs as an early event in viral maturation. VSV contains an endogenous protein kinase activity, probably of host region, which catalyzes the in vitro phosphorylation of the viral proteins NS, M, and L, but not of N or G. The phosphorylated sites on NS appear to be different in the in vivo and in vitro reactions, and are differentially sensitive to alkaline phosphatase. After removal of the membrane components of purified VSV with a dextran-polyethylene glycol two-phase separation, the kinase activity remains tightly associated with the viral RNP. However, viral RNP isolated from infected cells shows only a small amount of kinase activity. The protein kinase enzyme appears to be a cellular contaminant of purified VSV because an activity from the uninfected cell extract can phosphorylate in vitro the dissociated viral proteins NS and M. The virion-associated activity may be derived either from the cytoplasm or the plasma membrane of the host cell since both of these cellular components contain protein kinase activity similar to that found in purified VSV.
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PMID:Phosphorylation of vesicular stomatitis virus in vivo and in vitro. 435 1

Protein kinases of similar but not identical activity were found associated with vesicular stomatitis (VS) virions grown in mouse L cells, primary chicken embryo (CE) cells, and BHK-21 cells, as well as being present in VS virions grown in HeLa and Aedes albopictus cells. The virion kinase preferentially phosphorylated the nucleocapsid NS protein in vitro and to a lesser extent the envelope M protein. Other virion proteins were phosphorylated in vitro only after drastic detergent treatment. Partial evidence that the virion kinase is of cellular origin was obtained by finding reduced enzyme activity in virions released from cells pretreated with actinomycin D and cycloheximide. Selective detergent and detergent-salt fractionation of VS virions revealed that the kinase activity was present in the envelope but not the spikes. The virion kinase activity in a Triton-salt-solubilized envelope fraction could be separated from M and G proteins and partially purified by phosphocellulose column chromatography. Virions released from L, CE, and BHK-21 cells infected in the presence of [(32)P]orthophosphate were labeled almost exclusively in the NS protein. Both soluble and nucleocapsid-associated NS phosphoprotein were present in cytoplasmic extracts of VS viral-infected L cells. The origin and function of the NS phosphoprotein remain to be elucidated.
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PMID:Protein kinase and phosphoproteins of vesicular stomatitis virus. 435 19

Among the protein kinases associated with vesicular stomatitis virus (VSV), one was identified by immunoprecipitation to be pp60src, the transformation-specific product coded for by avian sarcoma virus, or its endogenous cellular homolog. This activity phosphorylated only tyrosine. pp60src was enriched in the membranes, whereas the serine- and threonine-specific kinases were concentrated with viral cores. The content of pp60src in VSV can be manipulated by growing VSV in different host cells. Monolayer baby hamster kidney cells transformed by an avian sarcoma virus produced VSV progeny which contained 7-fold greater pp60src activity than progeny produced by control untransformed or revertant cells. In contrast, suspension cultures of baby hamster kidney cells which produced VSV with increased tyrosine-specific kinase activity did not affect the content of pp60src. When pp60src was specifically increased in cells, the endogenous phosphorylation of tyrosine residues in the VSV matrix M protein was also enhanced, to as much as 20-fold. The phosphorylation of serine or threonine in this protein or in the other VSV phosphoprotein NS was not affected. Cellular tyrosine-specific kinases other than pp60scr did not change the overall phosphorylation pattern of any VSV phosphoproteins. Experiments designed to test the effects of endogenous phosphorylation on the various functions of the M protein failed to detect any significant alterations.
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PMID:Host-dependent phosphorylation and kinase activity associated with vesicular stomatitis virus. 627 33


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