Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Virions of Newcastle disease virus (NDV) were disrupted with Triton X-100 in the presence of high salt and nucleocapsids were isolated by ultracentrifugation. The nucleocapsids had very low transcriptase activity and contained only NP as a prominent protein constituent, the bulk of L and P proteins not being retained. The L and P proteins were isolated by sequential treatment of the virions with low- and high-salt detergent followed twice by successive chromatography on phosphocellulose column and examined for their effect on RNA synthesis in a standard transcriptase system using the nucleocapsids as template. When both L and P proteins were added to the template, the RNA synthetic activity was greatly stimulated. P protein alone could not enhance but rather suppressed the activity. L protein exhibited stimulation to some extent but due to residual small amount of P protein in both L protein fraction and the template it has not been elucidated whether L protein could function as a polymerase by itself. These results indicate that both L and P proteins are required to reconstitute a fully active transcriptive complex with a functional template. Attempts have been made to isolate intracellular transcriptive complex from NDV-infected MDBK cells and to determine the protein species involved. The active complex has been recovered neither from cytoplasmic extract obtained by hypotonic disruption nor from Triton X-100 soluble fraction of the cells. However, we could isolate the complex from an extract by double detergents (Tween 40 and deoxycholate) solubilization. The complex contained L, P, and NP as virus specific proteins and several cellular proteins. These results support the concept that both L and P proteins are required for NDV-RNA synthesis and suggest further that the intracellular transcriptive complex may be associated with some cellular structure resistant to Triton X-100 but sensitive to the double detergents, presumably cytoskeletal frame work.
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PMID:Transcriptive complex of Newcastle disease virus. I. Both L and P proteins are required to constitute an active complex. 668 7

A full-length cDNA clone of Newcastle disease virus (NDV) vaccine strain LaSota was assembled from subgenomic overlapping cDNA fragments and cloned in a transcription plasmid between the T7 RNA polymerase promoter and the autocatalytic hepatitis delta virus ribozyme. Transfection of this plasmid into cells that were infected with a recombinant fowlpoxvirus that expressed T7 RNA polymerase, resulted in the synthesis of antigenomic NDV RNA. This RNA was replicated and transcribed by the viral NP, P, and L proteins, which were expressed from cotransfected plasmids. After inoculation of the transfection supernatant into embryonated specific-pathogen-free eggs, infectious virus derived from the cloned cDNA was recovered. By introducing three nucleotide changes in the cDNA, we generated a genetically tagged derivative of the LaSota strain in which the amino acid sequence of the protease cleavage site (GGRQGR downward arrowL) of the fusion protein F0 was changed to the consensus cleavage site of virulent NDV strains (GRRQRR downward arrowF). Pathogenicity tests in day-old chickens showed that the strain derived from the unmodified cDNA was completely nonvirulent (intracerebral pathogenicity index [ICPI] = 0.00). However, the strain derived from the cDNA in which the protease cleavage site was modified showed a dramatic increase in virulence (ICPI = 1.28 out of a possible maximum of 2.0). Pulse-chase labeling of cells infected with the different strains followed by radioimmunoprecipitation of the F protein showed that the efficiency of cleavage of the F0 protein was greatly enhanced by the amino acid replacements. These results demonstrate that genetically modified NDV can be recovered from cloned cDNA and confirm the supposition that cleavage of the F0 protein is a key determinant in virulence of NDV.
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PMID:Rescue of Newcastle disease virus from cloned cDNA: evidence that cleavability of the fusion protein is a major determinant for virulence. 1023 62

Recombinant lentogenic Newcastle disease virus (NDV) of the vaccine strain Clone-30 was reproducibly generated after simultaneous expression of antigenome-sense NDV RNA and NDV nucleoprotein, phosphoprotein and RNA-dependent RNA polymerase from plasmids transfected into cells stably expressing T7 RNA polymerase. For this purpose, the genome of Clone-30, comprising 15186 nt, was cloned and sequenced prior to assembly into a full-length cDNA clone under control of a T7 RNA polymerase promoter. Recombinant virus was amplified by inoculation of transfection supernatant into the allantoic cavity of embryonated specific-pathogen-free (SPF) chicken eggs. Two marker restriction sites comprising a total of five nucleotide changes artificially introduced into noncoding regions were present in the progeny virus. The recombinant NDV was indistinguishable from the parental wild-type virus with respect to its growth characteristics in cell culture and in embryonated eggs. Moreover, an intracerebral pathogenicity index of 0.29 was obtained for both viruses as determined by intracerebral inoculation of day-old SPF chickens, proving that the recombinant NDV is a faithful copy of the parental vaccine strain of NDV.
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PMID:Generation of recombinant lentogenic Newcastle disease virus from cDNA. 1058 61

Newcastle disease virus (NDV) is classified as a member of the superfamily Mononegavirales in the family Paramyxoviridae. This virus family is divided into two subfamilies, the Paramyxovirinae and the Pneumovirinae. In 1993 the International Committee on the Taxonomy of Viruses rearranged the order of the Paramyxovirus genus and placed NDV within the Rubulavirus genus among the Paramyxovirinae. The enveloped virus has a negative sense single-stranded RNA genome of 15,186 kb which codes for an RNA directed RNA polymerase, hemagglutinin-neuraminidase protein, fusion protein, matrix protein, phosphoprotein and nucleoprotein in the 5' to 3' direction. The virus has a wide host range with most orders of birds reported to have been infected by NDV. Isolates are characterized by virulence in chickens and are categorized into three main pathotypes depending on severity of disease. Lentogenic isolates are of low virulence while viruses of intermediate virulence are termed mesogenic. Highly virulent viruses that cause high mortality in birds are termed neurotropic or viscerotropic velogenic. Velogenic NDV are List A pathogens that require reporting to the Office of International Epizootics and outbreaks result in strict trade embargoes. The primary molecular determinant for NDV pathogenicity is the fusion protein cleavage site amino acid sequence. Vaccination for NDV is primarily by mass application of live-virus vaccines among commercial poultry. Although protection is measured by presence of antibodies to NDV, vaccinated B-cell depleted chickens are resistant to disease. Consequently, immune protection involves responses that are presently incompletely defined.
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PMID:The avian response to Newcastle disease virus. 1071 92

A recombinant Newcastle disease virus (NDV) expressing the green fluorescent protein (GFP) was generated by applying reverse genetics techniques. The GFP open reading frame flanked by NDV transcription start and stop sequences was inserted between the fusion (F)- and hemagglutinin-neuraminidase genes in a full-length cDNA clone of NDV. This plasmid transcribing antigenome RNA was cotransfected with helper plasmids expressing viral nucleoprotein, phosphoprotein and large protein into cells stably expressing T7 RNA polymerase. The rescued virus was first propagated in embryonated eggs and the allantoic fluid was used to infect cells. Northern blot analysis of RNA isolated from infected cells demonstrated the proper transcription of the introduced GFP-mRNA. The appearance of GFP in live infected cells confirmed further the recovery of a recombinant NDV (rNDVGFP1) expressing the reporter gene. The expression of the heterologous gene was maintained stably for at least five passages in embryonated eggs. The replication kinetics in embryonated eggs and pathogenicity in chickens of rNDVGFP1 did not differ significantly from that of the parent virus. Using GFP autofluorescence, virus infected cells could be tracked easily in native preparations, organ explants and primary tracheal cell cultures. Taken together, these data demonstrate the use of GFP-expressing recombinant NDV for analysis of NDV dissemination and pathogenesis and indicate the potential usefulness of NDV as a vaccine vector.
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PMID:Characterization of a recombinant Newcastle disease virus expressing the green fluorescent protein. 1256 50

RNA-dependent RNA polymerase from respiratory syncytial virus (RSV) is a multi-subunit ribonucleoprotein (RNP) complex that, in addition to synthesizing the full 15 222 nt viral genomic RNA, is able to synthesize all 10 viral mRNAs. We have prepared crude RNP from RSV-infected HEp-2 cells, based on a method previously used for Newcastle disease virus, and established a novel polyadenylation-dependent capture [poly(A) capture] assay to screen for potential inhibitors of RSV transcriptase activity. In this homogeneous assay, radiolabeled full-length polyadenylated mRNAs produced by the viral RNP are detected through capture on immobilized biotinylated oligo(dT) in a 96-well streptavidin-coated FlashPlate. Possible inhibitors identified with this assay could interfere at any step required for the production of complete RSV mRNAs, including transcription, polyadenylation and, potentially, co-transcriptional guanylylation. A specific inhibitor of RSV transcriptase with antiviral activity was identified through screening of this assay.
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PMID:Polyadenylation-dependent screening assay for respiratory syncytial virus RNA transcriptase activity and identification of an inhibitor. 1535 93

On the base of obtaining the full length genome sequence of a Newcastle disease virus (NDV) isolated from goose, the minigenome was constructed by replacing all the encoding region with the reporter gene of enhanced green fluorescent protein (eGFP), except the virus regulating sequences relating to replication, transcription and packing of virus genome. The reporter gene could be expressed after it was transfected into the HEp-2 cells infected with helper virus of NDV. This result indicated that the minigenome could be translated by the NDV NP, P and L proteins provided by helper virus. Furthermore, the support plasmids expressing NDV NP, P and L protein were constructed respectively and the function of these plasmids was identified using the minigenome. Additionally, the virus rescue system was optimized by changing the infection dose of the recombinant vaccinia virus expressing T7 RNA polymerase. The work mentioned above will accelerate greatly the rescue of NDV and other relative research.
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PMID:[Construction of minigenome of Newcastle disease virus of goose origin and its preliminary application]. 1584 67

The full-length cDNA clone, NDV3GM122, and the three helperplasmids pCI-NP, pCI-P and pCI-L of Newcastle disease virus strain ZJI isolated from an outbreak in the goose were cotransfected into BSR-T7/5 cell expressing T7 RNA polymerase. Meanwhile, the full-length cDNA clone NDV3GM122 and the three helperplasmids, pCIneoNP, pCIneoP and pCIneoL which were derived from NDV strain La Sota, were also cotransfected into the cell, respectively. Indiect immunofluorescence assay (IFA) was performed 48 to 96 hours post-transfection using NDV HN-specific monoclonal anbtibody (McAb) 6B1 and bright stainings were found in the transfectants, indicating that the full-length clone was functional and the HN protein was expressed. The transfected cell and the supernatant were mixed well and thereafter the mixture was inoculated into specific pathogen free (SPF) chicken eggs. The allanotoic fluid of the injected eggs gave a positive hemagglutinin( HA) titer ranging from 16 to 32 in the secondary passage and increased to 128 in the third passage, which was same to the level of parent wild-type virus. The allantoic fluid containing the recovered NDV was analyzed in hemagglutination inhibition( HI) test by using McAb 6B1 and the specific inhibition was found. The typical morphology of the produced NDV was detected in the electronic microscope. The results mentioned above demonstrated that infectious NDV of strain ZJI was successfully generated, which laid good foundation for the further related research.
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PMID:[Generation of newcastle disease virus strain ZJI isolated from an outbreak in the goose using reverse genetics technique]. 1634 76

A recombinant Newcastle disease virus (NDV) expressing the green fluorescent protein (GFP) was generated by applying reverse genetics techniques. The GFP open reading frame flanked by NDV transcription start and stop sequences was inserted between the phosphoprotein (P) and matrix protein (M) in a full-length cDNA clone of NDV Lasota vaccine strain. This plasmid transcribing antigenome RNA was cotransfected with helper plasmids expressing viral nucleoprotein, phosphoprotein and large protein into cells stably expressing T7 RNA polymerase. The rescued virus was first propagated in 10-day-old embryonated eggs and the allantoic fluid was used to infect primary chicken embryo fibroblasts (CEF) cells. The appearance of GFP in live infected cells confirmed further the recovery of a recombinant NDV (rNDV-GFP) expressing this reporter gene. Nine successive passages in embryonated chicken eggs were performed. Allantoic fluid samples were then titrated by a microtiter plate HA test. HA positive ailantoic fluid were used for further egg passages. All the allantoic fluid samples were titrated by end point dilutions and infected cells were examined for the presence of GFP expression. To analyze virus growth, 10-day-old embryonated SPF chicken eggs were inoculated with 1 x 10(4) EID50 rNDV or rNDV-GFP. At 24,48,72 and 96 h p.i. the allantoic fluid of inoculated eggs containing live embryos was harvested and clarified by centrifugation. Supernatants were used for titration of EID50 in 10-day-old embryonated SPF chicken eggs. rNDV and rNDV-GFP grew to similar titers (10(9) EID50/mL). In order to test the virulence of rNDV-GFP, infectious allantoic fluid of rNDV-GFP were inoculated into embryonated SPF chicken eggs at 1 x 10(6) EID50. No dead embryonated egg was found within 96 hours. The replication kinetics and pathogenicity in SPF embryonated eggs of rNDV-GFP did not differ significantly from that of the parent virus. LaSota is a widely used NDV live vaccine strain. The reverse genetic system established for this LaSota vaccine strain provided a useful platform for development of novel live viral vector vaccines in future.
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PMID:[Rescue of a recombinant Newcastle disease virus expressing the green fluorescent protein]. 1703 52

Eastern equine encephalitis virus (EEEV) causes sporadic but often severe cases of human and equine neurological disease in North America. To determine how EEEV may evade innate immune responses, we screened individual EEEV proteins for the ability to rescue the growth of a Newcastle disease virus expressing green fluorescent protein (NDV-GFP) from the antiviral effects of interferon (IFN). Only expression of the EEEV capsid facilitated NDV-GFP replication. Inhibition of the antiviral effects of IFN by the capsid appears to occur through a general inhibition of cellular gene expression. For example, the capsid inhibited the expression of several reporter genes under the control of RNA polymerase II promoters. In contrast, capsid did not inhibit expression from a T7 RNA polymerase promoter construct, suggesting that the inhibition of gene expression is specific and is not a simple manifestation of toxicity. The inhibition correlated both with capsid-induced phosphorylation of eukaryotic initiation factor 2 alpha and with capsid-mediated inhibition of cellular mRNA accumulation. Mapping analysis identified the N terminus as the region important for the inhibition of host gene expression, suggesting that this inhibition is independent of capsid protease activity. Finally, when cell lines containing EEEV replicons encoding capsid were selected, replicons consistently acquired mutations that deleted all or part of the capsid, for example, amino acids 18 to 135. Given that the amino terminus of the capsid is required to inhibit host cell gene expression, these data suggest that capsid expression from the replicons is ultimately toxic to host cells, presumably because of its ability to inhibit gene expression.
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PMID:Capsid protein of eastern equine encephalitis virus inhibits host cell gene expression. 1726 91


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