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RNA-dependent RNA polymerase

About: RNA-dependent RNA polymerase is a research topic. Over the lifetime, 13904 publications have been published within this topic receiving 767954 citations. The topic is also known as: RdRp & RNA replicase.


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Journal ArticleDOI
TL;DR: A specialized RNA silencing pathway involving DCL2, AGO2, and HEN1 that provides the host plants with a competitive edge against adapted viruses under environmental conditions that facilitates robust virus reproduction is revealed.
Abstract: While RNA silencing is a potent antiviral defense in plants, well-adapted plant viruses are known to encode suppressors of RNA silencing (VSR) that can neutralize the effectiveness of RNA silencing. As a result, most plant genes involved in antiviral silencing were identified by using debilitated viruses lacking silencing suppression capabilities. Therefore, it remains to be resolved whether RNA silencing plays a significant part in defending plants against wild-type viruses. We report here that, at a higher plant growth temperature (26°C) that permits rigorous replication of Turnip crinkle virus (TCV) in Arabidopsis, plants containing loss-of-function mutations within the Dicer-like 2 ( DCL2 ), Argonaute 2 ( AGO2 ), and HEN1 RNA methyltransferase genes died of TCV infection, whereas the wild-type Col-0 plants survived to produce viable seeds. To account for the critical role of DCL2 in ensuring the survival of wild-type plants, we established that higher temperature upregulates the activity of DCL2 to produce viral 22-nucleotide (nt) small interfering RNAs (vsRNAs). We further demonstrated that DCL2-produced 22-nt vsRNAs were fully capable of silencing target genes, but that this activity was suppressed by the TCV VSR. Finally, we provide additional evidence supporting the notion that TCV VSR suppresses RNA silencing through directly interacting with AGO2. Together, these results have revealed a specialized RNA silencing pathway involving DCL2, AGO2, and HEN1 that provides the host plants with a competitive edge against adapted viruses under environmental conditions that facilitates robust virus reproduction.

158 citations

Journal ArticleDOI
TL;DR: The results strongly suggest that the block to NV replication in vitro is at the stage of receptor and/or coreceptor binding and/ or uncoating, either because cells lack some specific factor or activation of cellular antiviral responses independent of RIG-I inhibits virus replication.
Abstract: Human noroviruses are positive-sense RNA viruses and are the leading cause of epidemic acute viral gastroenteritis in developed countries. The absence of an in vitro cell culture model for human norovirus infection has limited the development of effective antivirals and vaccines. Human histo-blood group antigens have been regarded as receptors for norovirus infection, and expression of the α(1,2) fucosyltransferase gene (FUT2) responsible for the secretor phenotype is required for susceptibility to Norwalk virus (NV) infection. We report for the first time that transfection of NV RNA, isolated from stool samples from human volunteers, into human hepatoma Huh-7 cells leads to viral replication, with expression of viral antigens, RNA replication, and release of viral particles into the medium. Prior treatment of the RNA with proteinase K completely abolishes RNA infectivity, suggesting a key role of an RNA-protein complex. Although overexpression of the human FUT2 gene enhances virus binding to cells, it is not sufficient to allow a complete viral infection, and viral spread from NV-transfected cells to naive cells does not occur. Finally, no differences in NV RNA replication are observed between Huh-7 and Huh-7.5.1 cells, which contain an inactivating mutation in retinoic acid-inducible gene I (RIG-I), suggesting that the RIG-I pathway does not play a role in limiting NV replication. Our results strongly suggest that the block(s) to NV replication in vitro is at the stage of receptor and/or coreceptor binding and/or uncoating, either because cells lack some specific factor or activation of cellular antiviral responses independent of RIG-I inhibits virus replication.

158 citations

Journal ArticleDOI
TL;DR: It is shown that, during TBSV replication in yeast, the yeast GAPDH Tdh2p moves from the cytosol to the peroxisomal membrane surface, the site of viral RNA synthesis, suggesting that GAPDh promotes asymmetric RNA synthesis by selectively retaining the (-)RNA template in the replicase complex.

157 citations

Journal ArticleDOI
TL;DR: U6 RNA, though capped on its 5'-end, is transcribed by RNA polymerase III; this is the first report of a capped RNA molecule synthesized by RNA Polymerase III.

157 citations

Journal ArticleDOI
TL;DR: Pulse-chase analysis revealed that processing of the ORF1b polyprotein is slow and that several large precursor proteins containing both OrF1a- and ORF2b-encoded regions are generated, suggesting association with a membranous compartment.
Abstract: The replicase open reading frame lb (ORF1b) protein of equine arteritis virus (EAV) is expressed from the viral genome as an ORF1ab fusion protein (345 kDa) by ribosomal frameshifting. Processing of the ORF1b polyprotein was predicted to be mediated by the nsp4 serine protease, the main EAV protease. Several putative cleavage sites for this protease were detected in the ORF1b polyprotein. On the basis of this tentative processing scheme, peptides were selected to raise rabbit antisera that were used to study the processing of the EAV replicase ORF1b polyprotein (158 kDa). In immunoprecipitation and immunoblotting experiments, processing products of 80, 50, 26, and 12 kDa were detected. Of these, the 80-kDa and the 50-kDa proteins contain the putative viral polymerase and helicase domains, respectively. Together, the four cleavage products probably cover the entire ORF1b-encoded region of the EAV replicase, thereby representing the first complete processing scheme of a coronaviruslike ORF1b polyprotein. Pulse-chase analysis revealed that processing of the ORF1b polyprotein is slow and that several large precursor proteins containing both ORF1a- and ORF1b-encoded regions are generated. The localization of ORF1b-specific proteins in the infected cell was studied by immunofluorescence. A perinuclear staining was observed, which suggests association with a membranous compartment.

157 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
202358
2022201
2021222
2020200
2019116
2018118