EC:2.7.7.6 - FACTA Search

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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)

Influenza virus RNA polymerase with the subunit structure PB1-PB2-PA is involved in both transcription and replication of the RNA genome. PB1 is the catalytic subunit and binds both to PB2 in its N-terminus and to PA in its C-terminus. PB2 is required for priming with cap and binds to PB1 in its N-terminus. PA is required for cRNA-->vRNA synthesis of genome replication and binds to PB1 in its C-terminus. Therefore, PB1 is the core subunit not only for RNA polymerase activity but also complex formation of the enzyme. Protease activity is identified in the N-terminal region of PA, but its role on viral proliferation remains unknown.
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PMID:[Structure-function relationship of the influenza virus RNA polymerase subunits]. 936 Mar 77

We have demonstrated that Antisense phosphodiester (ODNs) and phosphorothioate oligonucleotides (S-ODNs) inhibit CAT (chloramphenicol acetyltransferase) protein expression in the clone 76 cell line, which is a derivative of the murine C127 cell line. This cell line expresses the influenza virus RNA polymerase and nucleoprotein (NP) genes in response to treatment with dexamethasone. Phosphodiester, phosphorothioate, and liposomally encapsulated oligonucleotides with four target sites (PB1, PB2, PA, and NP) were synthesized and tested for inhibitory effects by a CAT-ELISA assay using the clone 76 cell line. The liposomally encapsulated ODNs and S-ODNs complementary to the sites of the PB2-AUG and PA-AUG initiation codons showed highly inhibitory effects. On the other hand, the inhibitory effect of the S-ODNs targeted to PB1 was considerably decreased in comparison with the other three target sites. Liposome encapsulation afforded oligomer protection in serum-containing medium and substantially improved cellular accumulation. The liposomally encapsulated oligonucleotides exhibited higher inhibitory activity than the free oligonucleotides. Liposomal preparations of oligonucleotides facilitate release from endocytic vesicles, and thus, cytoplasmic and nuclear localization are observed following cell treatment. The activities of the unmodified oligonucleotides are effectively enhanced by using the liposomal carrier. In the observation of the endocapsulated antisense phosphodiester oligonucleotide, FITC-ODN-PB2-as treated clone 76 cells by a confocal laser scanning microscope, diffuse fluorescence was apparently observed in the cytoplasm. Interestingly, the endocapsulated antisense phosphorothioate oligonucleotide, FITC-S-ODN-PB2-as accumulated in the nuclear region of clone 76 cells. However, weak fluorescence was observed on the endosomes and in the cytoplasmes of the free antisense phosphorothioate oligonucleotides treated clone 76 cells.
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PMID:[Antisense nucleic acid therapy of influenza virus]. 936 Apr 4

We have demonstrated that 5'-capped short RNA fragments inhibit the expression of chloramphenicol acetyltransferase (CAT) in the murine 76 cell line, derived which expresses the genes for the RNA polymerases (PB1, PB2, and PA) and the nucleoprotein (NP) of influenza virus in response to treatment with dexamethasone. We have synthesized 5'-capped short RNA fragments (8-13 ntds long) with a 5'-capped structure (m7GpppGm) using T7 RNA polymerase. The 5'-capped short RNA fragments (8-13 ntds long) were encapsulated in liposomes and were tested for their inhibitory effect by a CAT-ELISA assay using the clone 76 cells. The RNA fragments that were 9-12 ntds long showed inhibitory effects. In particular, the 9 ntds long RNA fragment, was highly inhibitory. On the other hand, the inhibitory effect of the 13 ntds long RNA fragment was considerably decreased in comparison with the other short RNA fragments. The minimal RNA chain length required for priming activity was found to be 12 ntds long. Furthermore, the 5'-capped RNA fragments exhibited higher inhibitory activities than the antisense phosphorothioate oligonucleotide (PB2-AUG-as, 20 ntds long) complementary to the site of the PB2-AUG initiation codon. Liposome encapsulation protected the RNA fragments in serum-containing medium and substantially improved their cellular accumulation.
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PMID:Inhibition of influenza virus RNA polymerase by 5'-capped short RNA fragments. 970 39

Mouse-adapted influenza A virus, FM-MA, interferes with the replication of wild-type strains on co-infection. The interference phenotype was previously mapped to FM-MA segment 2 encoding a mutant PB1 protein, the catalytic component of the RNA polymerase complex. To identify the point at which FM-MA interferes with wild-type A/HK/1/68 (HK), the relative levels of transcription and genome replication of the PB1, NP and M1 genes were determined for FM-MA and HK viruses in co-infected cells using RT-PCR. All stages of HK macromolecular synthesis (primary and secondary transcription, genomic RNA, complementary RNA and protein synthesis) were suppressed relative to FM-MA. Infection with HK virus alone resulted in the accumulation of similar or greater amounts of RNA at late times post-infection relative to FM-MA thus indicating that the presence of FM-MA specifically compromised HK transcription and replication in co-infected cells. However early in infection FM-MA was ten times more active in mRNA transcription than HK or its parental strain FM. FM-MA's ability to interfere was primarily due to an increased capacity for primary transcription. FM-MA genomes were also selectively assembled into progeny virus from cells co-infected with HK and FM-MA, a step which was distinct from the capacity for enhanced RNA synthesis. This suggests that interference of HK growth by FM-MA in mixed infections results from two distinct events: a preferential synthesis of FM-MA-specific macromolecules which is then augmented by a preferential assembly of FM-MA genomes.
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PMID:Interference by a non-defective variant of influenza A virus is due to enhanced RNA synthesis and assembly. 983 88

Influenza virus RNA polymerase with the subunit structure PB1-PB2-PA is involved in both transcription and replication of the RNA genome, including the unique cap-I-dependent RNase activity. To map the important domains for RNA polymerization, cap-I-dependent RNase, and cap-I-binding activity, we generated site-specific antibodies against overlapping 150-amino-acid peptides that cover each entire subunit. Monospecific antibodies against each subunit inhibited RNA synthesis in vitro. Those against PB1 and PB2 inhibited the cap-I-dependent RNase activity, but those against PB2 alone slightly inhibited the cap-I-binding activity. Antibodies against the N-terminal amino acids 1-159 of PB2 that overlap the PB1-binding site on PB2 and the C-terminal amino acids 501-617 of PA that overlap the putative nucleotide-binding site and PB1-binding site on PA inhibited RNA polymerizing activity as well as monospecific antibodies. Those against the N-terminal (amino acids 1-159); the central region (amino acids 305-559) of PB2, where a part of the cap-binding domain predicted previously is localized; the N-terminal (amino acids 1-222) of PB1; and amino acids 301-517 and 601-716 of PA inhibited the cap-I-dependent RNase activity. The cap-binding domain on PB2 could be mapped in amino acids 402-559, where one of the cap-binding domains mapped previously overlapped.
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PMID:Molecular mapping of influenza virus RNA polymerase by site-specific antibodies. 1008 33

The influenza virus RNA polymerase is a heterotrimer comprising the PB1, PB2 and PA subunits. PB1 is the core of the complex and accounts for the polymerase activity. We have studied the interaction of PB1 with model cRNA template by in vitro binding and Northwestern analyses. The binding to model cRNA was specific and showed an apparent Kd of approximately 7x10(-8) M. In contrast to the interaction with vRNA, PB1 was able to bind equally the 5' and 3' arm of the cRNA panhandle. The N-terminal 139 amino acids of PB1 and sequences between positions 267 and 493 proved positive for binding to cRNA, whereas the interaction with vRNA template previously was mapped to the N- and C-terminal regions. Competition experiments using the 5' and 3' arms of either the vRNA or cRNA panhandle indicated that the N-terminal binding site is shared by both templates. The data indicate that the PB1 RNA-binding sites are constituted by: (i) residues located at the N-terminus (probably common for vRNA and cRNA binding) and, either (ii) residues from the central part of PB1 (for cRNA) or (iii) residues from the C-terminal region of PB1 (for vRNA), and suggest that PB1 undergoes a conformational change upon binding to cRNA versus vRNA templates.
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PMID:Distinct regions of influenza virus PB1 polymerase subunit recognize vRNA and cRNA templates. 1039 91

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.
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PMID:Generation of influenza A viruses entirely from cloned cDNAs. 1043 Aug 44

We present a system for creating influenza virus by generating viral RNA (vRNA) and mRNA from one template. Recently, a system for the generation of influenza A virus entirely from cloned cDNAs was established (Neumann et al., 1999, Proc. Natl. Acad. Sci. USA 96, 9345-9350). Cells were transfected with plasmids for RNA polymerase I-driven intracellular synthesis of all eight viral RNAs, and with protein expression plasmids for the synthesis of viral structural proteins. Although this system is highly efficient in virus generation, the construction and cotransfection of 17 plasmids is cumbersome and may limit the use of this system to cell lines that can be transfected with high efficiencies. Synthesizing both vRNA and mRNA from one template would reduce the number of plasmids required for virus generation. Therefore, we generated a bidirectional transcription construct that contains cDNA encoding PB1 flanked by an RNA polymerase I (pol I) promoter for vRNA synthesis and an RNA polymerase II (pol II) promoter for mRNA synthesis. The utility of this approach is proved by the generation of virus after transfecting the pol I/pol II-promoter-PB1 construct together with vRNA- and protein-expression constructs for the remaining seven segments. Because this approach reduces the number of plasmids required for virus generation, it also reduces the work necessary for cloning, probably enhances the efficiency of virus generation, and expands the use of the reverse-genetics system to cell lines for which efficient cotransfection of 17 plasmids cannot be achieved.
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PMID:"Ambisense" approach for the generation of influenza A virus: vRNA and mRNA synthesis from one template. 1066 26

Influenza virus RNA polymerase with the subunit composition PB1-PB2-PA is a multifunctional enzyme with the activities of both synthesis and cleavage of RNA and is involved in both transcription and replication of the viral genome. In order to produce large amounts of the functional viral RNA polymerase sufficient for analysis of its structure-function relationships, the cDNAs for RNA segments 1, 2, and 3 of influenza virus A/PR/8, each under independent control of the alcohol oxidase gene promoter, were integrated into the chromosome of the methylotrophic yeast Pichia pastoris. Simultaneous expression of all three P proteins in the yeast P. pastoris was achieved by the addition of methanol. To purify the P protein complexes, a sequence coding for a histidine tag was added to the PB2 protein gene at its N terminus. Starting from the induced P. pastoris cell lysate, we partially purified a 3P complex by Ni(2+)-agarose affinity column chromatography. The 3P complex showed influenza virus model RNA-directed and ApG-primed RNA synthesis in vitro but was virtually inactive without addition of template or primer. The kinetic properties of model template-directed RNA synthesis and the requirements for template sequence were analyzed using the 3P complex. Furthermore, the 3P complex showed capped RNA-primed RNA synthesis. Thus, we conclude that functional influenza virus RNA polymerase with the catalytic properties of a transcriptase is formed in the methylotrophic yeast P. pastoris.
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PMID:Expression of functional influenza virus RNA polymerase in the methylotrophic yeast Pichia pastoris. 1075 19

The cap-dependent endonuclease of the influenza viral RNA polymerase, which produces the capped RNA primers that initiate viral mRNA synthesis, is comprised of two active sites, one for cap binding and one for endonuclease cleavage. We identify the amino acid sequences that constitute these two active sites and demonstrate that they are located on different polymerase subunits. Binding of the 5' terminal sequence of virion RNA (vRNA) to the polymerase activates a tryptophan-rich, cap-binding sequence on the PB2 subunit. At least one of the tryptophans functions in cap binding, indicating that this active site is probably similar to that of other known cap-binding proteins. Endonuclease cleavage, which is activated by the subsequent binding of the 3' terminal sequence of vRNA, resides in a PB1 sequence that contains three essential acidic amino acids, similar to the active sites of other enzymes that cut polynucleotides to produce 3'-OH ends. These results, coupled with those of our previous study, provide a molecular map of the five known essential active sites of the influenza viral polymerase.
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PMID:The active sites of the influenza cap-dependent endonuclease are on different polymerase subunits. 1129 40

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