Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Canine distemper virus (CDV) has been rescued from a full-length cDNA clone. Besides Measles virus (MV) and Rinderpest virus, a third morbillivirus is now available for genetic analysis using reverse genetics. A plasmid p(+)CDV was constructed by sequential cloning using the Onderstepoort vaccine strain large-plaque-forming variant. The presence of a T7 promoter allowed transcription of full-length antigenomic RNA by a T7 RNA polymerase, which was provided by a host range mutant of vaccinia virus (MVA-T7). Plasmids expressing the nucleocapsid protein, the phosphoprotein, and the viral RNA-dependent RNA polymerase, also under control of a T7 promoter, have been generated. Infection of HeLa cells with MVA-T7 and subsequent transfection of p(+)CDV plus the helper plasmids led to syncytium formation and release of infectious recombinant (r) CDV. Comparison of the rescued virus with the parental virus revealed no major differences in the progression of infection or in the shape and size of syncytia. A genetic tag, consisting of two nucleotide changes within the coding region of the L protein, has been identified in the rCDV genome. Expression by rCDV of all the major viral structural proteins has been demonstrated by immunofluorescence.
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PMID:Establishment of a rescue system for canine distemper virus. 1104 18

The paramyxovirus RNA-dependent RNA polymerase consists of two subunits, the transcription co-factor phosphoprotein P and the large protein L, which possesses all the catalytic functions such as RNA synthesis (both transcription replication), methylation, capping and polyadenylation. The L protein has high sequence homology among the negative sense RNA viruses. The domains and residues on the L protein involved in the above-mentioned activities are not well defined, although the role of conserved GDNQ motif of the putative catalytic centre of L protein of few related viruses have been examined. In order to gain insight into the role played by the GDNQ motif of the L protein of Rinderpest virus (RPV), we have examined mutations at each amino acid in this motif of the L protein of Rinderpest virus and tested the biological activity in vivo and in vitro. Site directed mutants were generated and transiently expressed in mammalian cells and were shown to interact with P protein similar to wild type L. The biological activity of mutant L proteins has been tested in an in vitro reconstituted system capable of carrying out cell-free RNA synthesis on synthetic Rinderpest N-RNA template. Further, the role played by individual amino acids has also been defined in vivo using an in vivo minigenome replication/transcription system which indicated the importance of this conserved sequence in viral RNA synthesis.
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PMID:Effect of single amino acid mutations in the conserved GDNQ motif of L protein of Rinderpest virus on RNA synthesis in vitro and in vivo. 1474 79

Rinderpest virus (RPV) is a morbillivirus that causes a highly contagious disease affecting members of the order Artiodactyla. The viral L protein is the catalytic subunit of the RNA-dependent RNA polymerase. To search for host cell proteins with which L interacts, a library screen was performed using the yeast two-hybrid system. Several host cell proteins were recovered from the library screen as putative L-interactors; one of these was identified as striatin. A direct interaction between RPV L and striatin was confirmed using both co-immunoprecipitation assays and co-localisation studies using confocal microscopy. Striatin was also shown to co-localise with the RPV L protein in infected cells. The L proteins of morbilliviruses consist of three long highly conserved domains separated by short unconserved stretches of amino acids. The L domain with which striatin interacts was investigated by co-immunoprecipitation and striatin was shown to interact primarily with the central conserved domain.
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PMID:The polymerase (L) protein of rinderpest virus interacts with the host cell protein striatin. 1566 Nov 55

The paramyxovirus P protein is an essential component of the transcriptase and replicase complex along with L protein. In this article, we have examined the functional roles of different domains of P proteins of two closely related morbilliviruses, Rinderpest virus (RPV) and Peste des petits ruminants virus (PPRV). The PPRV P protein physically interacts with RPV L as well as RPV N protein when expressed in transfected cells, as shown by co-immunoprecipitation. The heterologous L-P complex is biologically active when tested in a RPV minigenome replication/transcription system, only when used with PPRV N protein but not with RPV N protein. Employing chimeric PPRV/RPV cDNAs having different coding regions of P protein in the minigenome replication/transcription system, we identified a region between 290 and 346 aa in RPV P protein necessary for transcription of the minigenome.
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PMID:Identification of functional domains of phosphoproteins of two morbilliviruses using chimeric proteins. 1842 68

L protein of the Rinderpest virus, an archetypal paramyxovirus possesses RNA-dependent RNA polymerase activity which transcribes the genome into mRNAs as well as replicates the RNA genome. The protein also possesses RNA triphosphatase (RTPase), guanylyltransferase (GTase) and methyltransferase enzyme activities responsible for capping the mRNAs in a conventional pathway similar to that of the host pathway. Subsequent to the earlier characterization of the GTase activity of L protein and identification of the RTPase domain of the L protein, we report here, additional enzymatic activities associated with the RTPase domain. We have characterized the pyrophosphatase and tripolyphosphatase activities of the L-RTPase domain which are metal-dependent and proceed much faster than the RTPase activity. Interestingly, the mutant proteins E1645A and E1647A abrogated the pyrophosphatase and tripolyphosphatase significantly, indicating a strong overlap of the active sites of these activities with that of RTPase. We discuss the likely role of GTase-associated L protein pyrophosphatase in the polymerase function. We also discuss a possible biological role for the tripolyphosphatase activity hitherto considered insignificant for the viruses possessing such activity.
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PMID:The RNA triphosphatase domain of L protein of Rinderpest virus exhibits pyrophosphatase and tripolyphosphatase activities. 2717 Apr 18