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Influenza A virus replication requires the interaction of viral RNA-dependent RNA polymerase (RdRp) with promoters in both the RNA genome (vRNA) and the full-length complementary RNA (cRNA) which serve as templates for the generation of new vRNAs. Although RdRp binds both promoters effectively, it must also discriminate between them because they serve different functional roles in the viral life cycle. Even though the inherent asymmetry between two RNA promoters is considered as a cause of the differential recognition by the RdRp, the structural basis for the ability of the RdRp to recognize the RNA promoters and discriminate effectively between them remains unsolved. Here we report the structure of the cRNA promoter of influenza A virus as determined by heteronuclear magnetic resonance spectroscopy. The terminal region is extremely unstable and does not have a rigid structure. The major groove of the internal loop is widened by the displacement of a novel A*(UU) motif toward the minor groove. These internal loop residues show distinguishable dynamic characters, with differing motional timescales for each residue. Comparison of the cRNA promoter structure with that of the vRNA promoter reveals common structural and dynamic elements in the internal loop, but also differences that provide insight into how the viral RdRp differentially recognizes the cRNA and vRNA promoters.  相似文献   

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The RNA-dependent RNA polymerase of influenza virus A/PR/8 was isolated from virus particles by stepwise centrifugation in cesium salts. First, RNP (viral RNA-NP-P proteins) complexes were isolated by glycerol gradient centrifugation of detergent-treated viruses and subsequently NP was dissociated from RNP by cesium chloride gradient centrifugation. The P-RNA (P proteins-viral RNA) complexes were further dissociated into P proteins and viral RNA by cesium trifluoroacetate (CsTFA) gradient centrifugation. The nature of P proteins was further analyzed by glycerol gradient centrifugation and immunoblotting using monospecific antibodies against each P protein. The three P proteins, PB1, PB2, and PA, sedimented altogether as fast as the marker protein with the molecular weight of about 250,000 Da. Upon addition of the template vRNA, the RNA-free P protein complex exhibited the activities of capped RNA cleavage and limited RNA synthesis. When a cell line stably expressing cDNAs for three P proteins and NP protein was examined, the three P proteins were found to be co-precipitated by antibodies against the individual P proteins. These results indicate that the influenza virus RNA-dependent RNA polymerase is a heterocomplex composed of one each of the three P proteins and that the RNA-free RNA polymerase can be isolated in an active form from virus particles. Furthermore, the three P proteins form a complex in the absence of vRNA.  相似文献   

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The influenza virus PB1 protein functions as a catalytic subunit of the viral RNA-dependent RNA polymerase and contains the highly conserved motifs of RNA-dependent RNA polymerases together with putative nucleotide-binding sites. PB1 also binds to viral genomic RNAs and its replicative intermediates through the promoter regions. The detail function and interplay between functional domains are not clarified although a part of structures and functions of PB1 have been clarified. In this study, we analyzed the function of PB1 subunit in the sense of nucleotide recognition using ribavirin, which is a nucleoside analog and inhibits viral RNA synthesis of many RNA viruses including influenza virus. We screened ribavirin-resistant PB1 mutants from randomly mutated PB1 cDNA library using a mini-replicon assay, and we identified a single mutation at the amino acid position 27 of PB1 as an important residue for the nucleotide recognition.  相似文献   

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Substituted methylene diphosphonates are effective inhibitors of the RNA polymerase of influenza A virus causing 50% inhibition of the polymerase activity when they are present in the concentration range 10-85 microM. The inhibitory power of the methylene diphosphonates appears to be related to their ability to chelate with metal ions.  相似文献   

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Transcription of hepatitis B virus by RNA polymerase II.   总被引:22,自引:3,他引:22       下载免费PDF全文
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Cyclophilin B is a functional regulator of hepatitis C virus RNA polymerase   总被引:8,自引:0,他引:8  
Viruses depend on host-derived factors for their efficient genome replication. Here, we demonstrate that a cellular peptidyl-prolyl cis-trans isomerase (PPIase), cyclophilin B (CyPB), is critical for the efficient replication of the hepatitis C virus (HCV) genome. CyPB interacted with the HCV RNA polymerase NS5B to directly stimulate its RNA binding activity. Both the RNA interference (RNAi)-mediated reduction of endogenous CyPB expression and the induced loss of NS5B binding to CyPB decreased the levels of HCV replication. Thus, CyPB functions as a stimulatory regulator of NS5B in HCV replication machinery. This regulation mechanism for viral replication identifies CyPB as a target for antiviral therapeutic strategies.  相似文献   

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Giardia lamblia, a parasitic protozoan, can contain a double-stranded RNA (dsRNA) virus, GLV (1). We have identified an RNA polymerase activity present specifically in cultures of GLV infected cells. This RNA polymerase activity is present in crude whole cell lysates as well as in lysates from GLV particles purified from the culture medium. The RNA polymerase has many characteristics common to other RNA polymerases (e.g. it requires divalent cations and all four ribonucleoside triphosphates), yet it is not inhibited by RNA polymerase inhibitors such as alpha-amanitin or rifampicin. The RNA polymerase activity synthesizes RNAs corresponding to one strand of the GLV genome, although under the present experimental conditions, the RNA products of the reaction are not full length viral RNAs. The in vitro products of the RNA polymerase reaction co-sediment through sucrose gradients with viral particles; and purified GLV viral particles have RNA polymerase activity. The RNA polymerase activities within and outside of infected cells closely parallel the amount of virus present during the course of viral infection. The similarities between the RNA polymerase of GLV and the polymerase associated with the dsRNA virus system of yeast are discussed.  相似文献   

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