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Target Concepts:
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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)
The effect of 2-[1'-aminoethyl)-bicyclo[2.2.1]heptane chlorohydrate on the accumulation of hemagglutinating activity of chick embryo fibroblasts infected with influenza A/FPV/Rostock/34 (Hav1N1) and A/
WSN
/33 (H0N1) was studied. The drug inhibited hemagglutinines accumulation when added at various intervals after infection, the maximum effect having been observed upon its addition to the maintenance medium immediately after adsorption. Polyacrylamide gel electrophoresis showed the drug to reduce the synthesis of virus-specific proteins of A/FPV and to inhibit considerably the
transcriptase
activity of A/FPV and A/
WSN
viruses in vitro.
...
PMID:[Mechanism of action of 2-(1'-aminoethyl)-bicyclo[2.2.1]heptane hydrochloride]. 709 Mar 42
Influenza viral RNA transcription in vitro is primed by capped RNA fragments cleaved from capped RNAs by a viral endonuclease. The present study was undertaken to determine whether the specificities of the viral endonuclease and
transcriptase
observed in in vitro studies are also observed in the infected cell. The NS (nonstructural) gene of influenza
WSN
virus was cloned in pBR322 by using a double-stranded DNA containing a cDNA copy of both virion RNA (vRNA) and in vivo viral mRNA. We determined the 5' terminal sequence of the particular NS viral mRNA molecule which was cloned and also the 5' terminal sequences of the entire population of in vivo NS viral mRNAs synthesized in two different cell lines. For the latter determination we used a restriction fragment from the cloned DNA for the reverse transcriptase-catalyzed extension of total in vivo viral mRNA. The results indicate that in vivo and in vitro viral RNA transcription are similar in two important respects: (i) transcription initiates not with an A residue directed by the 3' terminal U of the vRNA, but with a G residue directed by the 3' penultimate C of the vRNA; and (ii) capped RNA fragments containing a 3' terminal A residue are preferentially used as primers, therapy generating an AG sequence in the viral mRNA complementary to the 3' terminal UC of the vRNA. Actually, for in vivo transcription, a subset of A-terminated capped fragments, namely those containing a 3' penultimate C residue, are the preferred primers. The latter specificity had not been observed in previous in vitro studies.
...
PMID:Selected host cell capped RNA fragments prime influenza viral RNA transcription in vivo. 730 81
The replication of influenza B/Lee/40 virus in MDCK (canine kidney) cells was sensitive to alpha-amanitin and actinomycin D. In vitro, virion
transcriptase
activity was stimulated by dinucleotide primers such as ApG. The above characteristics are shared by A/
WSN
virus.
...
PMID:Influenza B virus: alpha-amanitin sensitivity of replication and primer-dependence of in vitro transcription. 735 93
We used the yeast interactive trap system to identify a cellular protein which interacts with the nucleoprotein of influenza A viruses. This protein, nucleoprotein interactor 1 (NPI-1) is the human homolog of the yeast protein SRP1. SRP1 was previously identified as a suppressor of temperature-sensitive
RNA polymerase I
mutations (R. Yano, M. Oakes, M. Yamaghishi, J. Dodd, and M. Nomura, Mol. Cell. Biol. 12, 5640-5651, 1992). A full-length cDNA clone of NPI-1 was generated from HeLa cell poly A + RNA. The viral nucleoprotein, which had been partially purified from influenza A/PR/8/34 virus-infected embryonated eggs, could be coprecipitated from solution by glutathione agarose beads complexed with a bacterially expressed glutathione-S-transferase-NPI-1 fusion protein, confirming the results of the yeast genetic system. Antisera raised against NPI-1 identified a 60-kDa polypeptide from total cellular extracts of both HeLa and MDBK cells. The viral nucleoprotein was coimmunoprecipitated from influenza A/
WSN
/33 virus-infected MDBK cells by anti-NPI-1 sera, demonstrating an interaction of these two proteins in infected cells. Similarly, NPI-1 was coimmunoprecipitated from MDBK cells by anti-NP sera. These experiments suggest that NPI-1 plays a role during influenza virus replication.
...
PMID:NPI-1, the human homolog of SRP-1, interacts with influenza virus nucleoprotein. 783 67
The genome of influenza A viruses is composed of eight negative-strand RNA segments which contain short noncoding regions at their 3' and 5' ends. The signals required for replication, transcription, and packaging of the viral RNAs are thought to be located in these regions. The highly conserved noncoding nucleotides, which form "panhandle" or "fork" structures by partial complementarity, are important for the transcriptional activity of the viral
RNA polymerase
. In contrast, the nonconserved noncoding nucleotides located close to the open reading frame of the viral RNAs had not been implicated in RNA transcription. Using a reverse-genetics system, we have now rescued influenza A/
WSN
/33 viruses whose NA-specific RNA segments have deletions in these nonconserved noncoding regions. Deletion either of the nucleotide residues between the poly(U) stretch and the stop codon at the 5' end or of the nucleotides between position 15 and the start codon at the 3' end did not affect the amount of NA-RNA species found in virions or infected cells. However, a combination of deletions at both the 3' and the 5' ends decreased by 60 times the levels of NA-specific viral RNA found in infected cells at late periods of infection and in virions. This double deletion was also responsible for a fourfold reduction of the steady-state levels of the NA-specific mRNA in infected cells. Viruses whose NA-specific open reading frames were flanked by the noncoding regions of the PB1- or the NS-RNA segments of infuenza A/
WSN
/33 virus also showed a reduction in the NA-specific viral RNA in virions and in infected cells. The present results demonstrate that the nonconserved nucleotides at the 3' and 5' ends of the NA-RNA segment of influenza A virus play an important role in the replication of this segment.
...
PMID:Nonconserved nucleotides at the 3' and 5' ends of an influenza A virus RNA play an important role in viral RNA replication. 859 9
We describe a new reverse-genetics system that allows one to efficiently generate influenza A viruses entirely from cloned cDNAs. Human embryonic kidney cells (293T) were transfected with eight plasmids, each encoding a viral RNA of the A/
WSN
/33 (H1N1) or A/PR/8/34 (H1N1) virus, flanked by the human
RNA polymerase I
promoter and the mouse
RNA polymerase I
terminator-together with plasmids encoding viral nucleoprotein and the PB2, PB1, and PA viral polymerases. This strategy yielded >1 x 10(3) plaque-forming units (pfu) of virus per ml of supernatant at 48 hr posttransfection. The addition of plasmids expressing all of the remaining viral structural proteins led to a substantial increase in virus production, 3 x 10(4)-5 x 10(7) pfu/ml. We also used reverse genetics to generate a reassortant virus containing the PB1 gene of the A/PR/8/34 virus, with all other genes representing A/
WSN
/33. Additional viruses produced by this method had mutations in the PA gene or possessed a foreign epitope in the head of the neuraminidase protein. This efficient system, which does not require helper virus infection, should be useful in viral mutagenesis studies and in the production of vaccines and gene therapy vectors.
...
PMID:Generation of influenza A viruses entirely from cloned cDNAs. 1043 Aug 44
The poly(A) tail of influenza virus mRNA is synthesized by reiterative copying of a U track near the 5' end of the virion RNA (vRNA) template by the viral
RNA polymerase
. We have engineered a novel influenza A/
WSN
/33 virus which contains a neuraminidase (NA) vRNA with its U track mutated into an A track. Instead of synthesizing poly(A)-tailed NA mRNA, this novel virus synthesizes poly(U)-tailed NA mRNA. In infected cells, most poly(U)-tailed NA mRNA was retained in the nucleus, while most control polyadenylated NA mRNA was transported to the cytoplasm. These results suggest that the poly(A) tail is important for efficient nuclear export of NA mRNA. The mutant virus produced a reduced amount of NA and showed an attenuated phenotype, suggesting that poly(A) signal mutants of this type might be useful as potential live attenuated virus vaccines. In addition, this virus mutant might provide a useful model to further elucidate the basic mechanisms of mRNA nuclear export.
...
PMID:Polyuridylated mRNA synthesized by a recombinant influenza virus is defective in nuclear export. 1059 Jan 31
We have developed an eight-plasmid DNA transfection system for the rescue of infectious influenza A virus from cloned cDNA. In this plasmid-based expression system, viral cDNA is inserted between the
RNA polymerase I
(pol I) promoter and terminator sequences. This entire pol I transcription unit is flanked by an
RNA polymerase II
(pol II) promoter and a polyadenylation site. The orientation of the two transcription units allows the synthesis of negative-sense viral RNA and positive-sense mRNA from one viral cDNA template. This pol I-pol II system starts with the initiation of transcription of the two cellular
RNA polymerase
enzymes from their own promoters, presumably in different compartments of the nucleus. The interaction of all molecules derived from the cellular and viral transcription and translation machinery results in the generation of infectious influenza A virus. The utility of this system is proved by the recovery of the two influenza A viruses: A/
WSN
/33 (H1N1) and A/Teal/HK/W312/97 (H6N1). Seventy-two hours after the transfection of eight expression plasmids into cocultured 293T and MDCK cells, the virus yield in the supernatant of the transfected cells was between 2 x 10(5) and 2 x 10(7) infectious viruses per milliliter. We also used this eight-plasmid system for the generation of single and quadruple reassortant viruses between A/Teal/HK/W312/97 (H6N1) and A/
WSN
/33 (H1N1). Because the pol I-pol II system facilitates the design and recovery of both recombinant and reassortant influenza A viruses, it may also be applicable to the recovery of other RNA viruses entirely from cloned cDNA.
...
PMID:A DNA transfection system for generation of influenza A virus from eight plasmids. 1080 78
The hemagglutinin (HA) of fowl plague virus A/FPV/Rostock/34 (H7N1) carries two N-linked oligosaccharides attached to Asn123 and Asn149 in close vicinity to the receptor-binding pocket. In previous studies in which HA mutants lacking either one (mutants G1 and G2) or both (mutant G1,2) glycosylation sites had been expressed from a simian virus 40 vector, we showed that these glycans regulate receptor binding affinity (M. Ohuchi, R. Ohuchi, A. Feldmann, and H. D. Klenk, J. Virol. 71:8377-8384, 1997). We have now investigated the effect of these mutations on virus growth using recombinant viruses generated by an
RNA polymerase I
-based reverse genetics system. Two reassortants of influenza virus strain A/
WSN
/33 were used as helper viruses to obtain two series of HA mutant viruses differing only in the neuraminidase (NA). Studies using N1 NA viruses revealed that loss of the oligosaccharide from Asn149 (mutant G2) or loss of both oligosaccharides (mutant G1,2) has a pronounced effect on virus growth in MDCK cells. Growth of virus lacking both oligosaccharides from infected cells was retarded, and virus yields in the medium were decreased about 20-fold. Likewise, there was a reduction in plaque size that was distinct with G1,2 and less pronounced with G2. These effects could be attributed to a highly impaired release of mutant progeny viruses from host cells. In contrast, with recombinant viruses containing N2 NA, these restrictions were much less apparent. N1 recombinants showed lower neuraminidase activity than N2 recombinants, indicating that N2 NA is able to partly overrule the high-affinity binding of mutant HA to the receptor. These results demonstrate that N-glycans flanking the receptor-binding site of the HA molecule are potent regulators of influenza virus growth, with the glycan at Asn149 being dominant and that at Asn123 being less effective. In addition, we show here that HA and NA activities need to be highly balanced in order to allow productive influenza virus infection.
...
PMID:Interdependence of hemagglutinin glycosylation and neuraminidase as regulators of influenza virus growth: a study by reverse genetics. 1086 41
Two humic-like substances, the oxidative polymer of protocatechuic acid (OP-PCA) and humic acid inhibit the in vitro replication of influenza virus A/
WSN
/33 (H1N1) in Madin-Darby canine kidney (MDCK) cells at concentrations of no cytotoxicity. The 50% inhibitory concentration (IC50) for OP-PCA was 6.59 +/- 1.02 microg/ml when the compound was added at the stage of viral adsorption. When OP-PCA was added after virus adsorption, the IC50 was 53.27 +/- 8.12 microg/ml. The IC50 for humic acid was 48.61 +/- 7.32 microg/ml and 55.27 +/- 5.46 microg/ml respectively when the compound was added at the stage of viral adsorption or post-adsorption. In spite of structural resemblance of these two compounds, they exhibit different actions of anti-flu. The OP-PCA inhibits virus-induced hemagglutination and low pH-induced cell-cell fusion. Humic acid inhibits the endonuclease activity of viral
RNA polymerase
. The monomer of PCA shows no inhibition on influenza virus replication.
...
PMID:In vitro anti-influenza virus activity of synthetic humate analogues derived from protocatechuic acid. 1189 May 23
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