Synthesis of the Putative Red Clover Necrotic Mosaic Virus RNA Polymerase by Ribosomal Frameshifting in Vitro

ABSTRACT Cereal yellow dwarf virus (CYDV) RNA has a 5′-terminal genome-linked protein (VPg). We have expressed the VPg region of the CYDV genome in bacteria and used the purified protein (bVPg) to raise an antiserum which was able to detect free VPg in extracts of CYDV-infected oat plants. A template-dependent RNA-dependent RNA polymerase (RdRp) has been produced from a CYDV membrane-bound RNA polymerase by treatment with BAL 31 nuclease. The RdRp was template specific, being able to utilize templates from CYDV plus- and minus-strand RNAs but not those of three unrelated viruses, Red clover necrotic mosaic virus, Cucumber mosaic virus, and Tobacco mosaic virus. RNA synthesis catalyzed by the RdRp required a 3′-terminal GU sequence and the presence of bVPg. Additionally, synthesis of minus-strand RNA on a plus-strand RNA template required the presence of a putative stem-loop structure near the 3′ terminus of CYDV RNA. The base-paired stem, a single-nucleotide (A) bulge in the stem, and the sequence of a tetraloop were all required for the template activity. Evidence was produced showing that minus-strand synthesis in vitro was initiated by priming by bVPg at the 3′ end of the template. The data are consistent with a model in which the RdRp binds to the stem-loop structure which positions the active site to recognize the 3′-terminal GU sequence for initiation of RNA synthesis by the addition of an A residue to VPg.

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In Vitro Transcription by the Turnip Yellow Mosaic Virus RNA Polymerase: a Comparison with the Alfalfa Mosaic Virus and Brome Mosaic Virus Replicases

Journal of Virology ◽

10.1128/jvi.74.1.264-271.2000 ◽

2000 ◽

Vol 74 (1) ◽

pp. 264-271 ◽

Cited By ~ 22

Author(s):

Birgit A. L. M. Deiman ◽

Paul W. G. Verlaan ◽

Cornelis W. A. Pleij

Keyword(s):

Rna Polymerase ◽

Mosaic Virus ◽

Transcription Initiation ◽

Alfalfa Mosaic Virus ◽

Brome Mosaic Virus ◽

Yellow Mosaic Virus ◽

Turnip Yellow Mosaic Virus ◽

Virus Rna ◽

Internal Initiation

ABSTRACT Recently, we showed that the main determinant in the tRNA-like structure of turnip yellow mosaic virus RNA to initiate minus-strand synthesis in vitro is the 3′ ACCA end. By mutational analysis of the 3′-terminal hairpin, we show here that only a non-base-paired ACCA end is functional and that the stability of the wild-type 3′-proximal hairpin is the most favorable, in that it has the lowest ΔG value and a high transcription efficiency. With a nested set of RNA fragments, we show that the minimum template length is 9 nucleotides and that transcription is improved with increasing the length of the template. The results also suggest that proper base stacking contributes to efficient transcription initiation. Internal initiation is shown to take place on every NPyCPu sequence of a nonstructured template. However, the position of the internal initiation site in the template is important, and competition between the different sites takes place. Internal initiation was also studied with the RNA-dependent RNA polymerase of brome mosaic virus (BMV) and alfalfa mosaic virus (AlMV). The BMV polymerase can start internally on ACCA sequences, though inefficiently. Unexpectedly, the polymerases of both AlMV and BMV can start efficiently on an internal AUGC sequence.

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Drosophila X virus RNA polymerase: tentative model for in vitro replication of the double-stranded virion RNA.

Journal of Virology ◽

10.1128/jvi.33.2.717-723.1980 ◽

1980 ◽

Vol 33 (2) ◽

pp. 717-723 ◽

Cited By ~ 16

Author(s):

J Bernard

Keyword(s):

Rna Polymerase ◽

In Vitro Replication ◽

Virus Rna ◽

Tentative Model ◽

Drosophila X Virus

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The role of the pseudoknot at the 3' end of turnip yellow mosaic virus RNA in minus-strand synthesis by the viral RNA-dependent RNA polymerase.

Journal of Virology ◽

10.1128/jvi.71.8.5990-5996.1997 ◽

1997 ◽

Vol 71 (8) ◽

pp. 5990-5996 ◽

Cited By ~ 27

Author(s):

B A Deiman ◽

R M Kortlever ◽

C W Pleij

Keyword(s):

Rna Polymerase ◽

Mosaic Virus ◽

Viral Rna ◽

Yellow Mosaic Virus ◽

Turnip Yellow Mosaic Virus ◽

Minus Strand ◽

Rna Dependent Rna Polymerase ◽

Virus Rna

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Analysis of Ribonucleotide 5′-Triphosphate Analogs as Potential Inhibitors of Zika Virus RNA-Dependent RNA Polymerase by Using Nonradioactive Polymerase Assays

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.01967-16 ◽

2016 ◽

Vol 61 (3) ◽

Cited By ~ 24

Author(s):

Gaofei Lu ◽

Gregory R. Bluemling ◽

Paul Collop ◽

Michael Hager ◽

Damien Kuiper ◽

...

Keyword(s):

Rna Polymerase ◽

Zika Virus ◽

Nonstructural Protein ◽

Rna Dependent Rna Polymerase ◽

Antiviral Compounds ◽

Double Stranded Dna ◽

Virus Rna ◽

Potential Inhibitors

ABSTRACT Zika virus (ZIKV) is an emerging human pathogen that is spreading rapidly through the Americas and has been linked to the development of microcephaly and to a dramatically increased number of Guillain-Barré syndrome cases. Currently, no vaccine or therapeutic options for the prevention or treatment of ZIKV infections exist. In the study described in this report, we expressed, purified, and characterized full-length nonstructural protein 5 (NS5) and the NS5 polymerase domain (NS5pol) of ZIKV RNA-dependent RNA polymerase. Using purified NS5, we developed an in vitro nonradioactive primer extension assay employing a fluorescently labeled primer-template pair. Both purified NS5 and NS5pol can carry out in vitro RNA-dependent RNA synthesis in this assay. Our results show that Mn2+ is required for enzymatic activity, while Mg2+ is not. We found that ZIKV NS5 can utilize single-stranded DNA but not double-stranded DNA as a template or a primer to synthesize RNA. The assay was used to compare the efficiency of incorporation of analog 5′-triphosphates by the ZIKV polymerase and to calculate their discrimination versus that of natural ribonucleotide triphosphates (rNTPs). The 50% inhibitory concentrations for analog rNTPs were determined in an alternative nonradioactive coupled-enzyme assay. We determined that, in general, 2′-C-methyl- and 2′-C-ethynyl-substituted analog 5′-triphosphates were efficiently incorporated by the ZIKV polymerase and were also efficient chain terminators. Derivatives of these molecules may serve as potential antiviral compounds to be developed to combat ZIKV infection. This report provides the first characterization of ZIKV polymerase and demonstrates the utility of in vitro polymerase assays in the identification of potential ZIKV inhibitors.

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Role of the 3′ tRNA-Like Structure in Tobacco Mosaic Virus Minus-Strand RNA Synthesis by the Viral RNA-Dependent RNA Polymerase In Vitro

Journal of Virology ◽

10.1128/jvi.74.24.11671-11680.2000 ◽

2000 ◽

Vol 74 (24) ◽

pp. 11671-11680 ◽

Cited By ~ 49

Author(s):

T. A. M. Osman ◽

C. L. Hemenway ◽

K. W. Buck

Keyword(s):

Rna Polymerase ◽

Tobacco Mosaic Virus ◽

Mosaic Virus ◽

Untranslated Region ◽

Rna Synthesis ◽

Central Core ◽

Minus Strand ◽

Stem Loop ◽

Polymerase Binding

ABSTRACT A template-dependent RNA polymerase has been used to determine the sequence elements in the 3′ untranslated region of tobacco mosaic virus RNA that are required for promotion of minus-strand RNA synthesis and binding to the RNA polymerase in vitro. Regions which were important for minus-strand synthesis were domain D1, which is equivalent to a tRNA acceptor arm; domain D2, which is similar to a tRNA anticodon arm; an upstream domain, D3; and a central core, C, which connects domains D1, D2, and D3 and determines their relative orientations. Mutational analysis of the 3′-terminal 4 nucleotides of domain D1 indicated the importance of the 3′-terminal CA sequence for minus-strand synthesis, with the sequence CCCA or GGCA giving the highest transcriptional efficiency. Several double-helical regions, but not their sequences, which are essential for forming pseudoknot and/or stem-loop structures in domains D1, D2, and D3 and the central core, C, were shown to be required for high template efficiency. Also important were a bulge sequence in the D2 stem-loop and, to a lesser extent, a loop sequence in a hairpin structure in domain D1. The sequence of the 3′ untranslated region upstream of domain D3 was not required for minus-strand synthesis. Template-RNA polymerase binding competition experiments showed that the highest-affinity RNA polymerase binding element region lay within a region comprising domain D2 and the central core, C, but domains D1 and D3 also bound to the RNA polymerase with lower affinity.

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