Identification of a Broad-Spectrum Inhibitor of Viral RNA Synthesis: Validation of a Prototype Virus-Based Approach

Ebola virus VP35 inhibits alpha/beta interferon production and functions as a viral polymerase cofactor. Previously, the 8-kDa cytoplasmic dynein light chain (LC8) was demonstrated to interact with VP35, but the functional consequences were unclear. Here we demonstrate that the interaction is direct and of high affinity and that binding stabilizes the VP35 N-terminal oligomerization domain and enhances viral RNA synthesis. Mutational analysis demonstrates that VP35 interaction is required for the functional effects of LC8.

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Plant Viral RNA Synthesis in Cell-Free Systems

Annual Review of Phytopathology ◽

10.1146/annurev.py.32.090194.001523 ◽

1994 ◽

Vol 32 (1) ◽

pp. 311-335 ◽

Cited By ~ 21

Author(s):

M de Graaff ◽

E M J Jaspars

Keyword(s):

Rna Synthesis ◽

Viral Rna

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Studies of two temperature-sensitive mutants of Mengo virus

Canadian Journal of Biochemistry ◽

10.1139/o79-110 ◽

1979 ◽

Vol 57 (6) ◽

pp. 902-913 ◽

Cited By ~ 1

Author(s):

Patrick W. K. Lee ◽

John S. Colter

Keyword(s):

Rna Synthesis ◽

Viral Rna ◽

Temperature Sensitive ◽

Supporting Evidence ◽

Structural Polypeptide ◽

Infected Cells ◽

Mengo Virus ◽

In Vitro Stability

Studies of the synthesis of viral ribonucleates and polypeptides in cells infected with two RNA−ts mutants of Mengo virus (ts 135 and ts 520) have shown that when ts 135 infected cells are shifted from the permissive (33 °C) to the nonpermissive (39 °C) temperature: (i) the synthesis of all three species of viral RNA (single stranded, replicative form, and replicative intermediate) is inhibited to about the same extent, and (ii) the posttranslational cleavage of structural polypeptide precursors A and B is partially blocked. Investigations of the in vivo and in vitro stability of the viral RNA replicase suggest that the RNA− phentotype reflects a temperature-sensitive defect in the enzyme. The second defect does not appear to result from the inhibition of viral RNA synthesis at 39 °C, since normal cleavage of polypeptides A and B occurs in wt Mengo-infected cells in which viral RNA synthesis is blocked by cordycepin, and at the nonpermissive temperature in ts 520 infected cells. Considered in toto, the evidence suggests that ts 135 is a double mutant.Subviral (53 S) particles have been shown to accumulate in ts 520 (but not ts 135) infected cells when cultures are shifted from 33 to 39 °C. This observation provides supporting evidence for the proposal that this recently discovered particle is an intermediate in the assembly pathway of Mengo virions.

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Analyse des Vermehrungsmechanismus des Newcastle disease Virus (NDV) mit Hilfe verschiedener Inhibitoren

Zeitschrift für Naturforschung B ◽

10.1515/znb-1967-1217 ◽

1967 ◽

Vol 22 (12) ◽

pp. 1319-1330 ◽

Cited By ~ 2

Author(s):

Werner Schäfer ◽

Liselotte Pister ◽

Rita Schneider

Keyword(s):

Chick Embryo ◽

Viral Antigen ◽

Rna Synthesis ◽

Protein S ◽

Viral Rna ◽

Chick Embryo Fibroblast ◽

Sensitive Material ◽

Sensitive Phase ◽

Antigenic Material ◽

Structural Antigen

The reproduction of NDV in chick-embryo-fibroblast cultures was studied with 6-Azauridine, 8-Azaguanine, Parafluorophenylalanine (FPA) and Puromycine as inhibitors. The results suggest that no virus initiated FPA-sensitive material is needed for the uncoating of the infecting particles, and that viral parental RNA is able to induce the formation of protein (s) needed for viral RNA-synthesis (“RNA-protein“) as well as the production of viral structural antigen (s). Further antigenic material appears after the beginning of new viral RNA-synthesis. The “RNA-protein (s)“become (s) detectable between 2 and 3 hours after infection and is (are) stable in its function over several hours. According to the formation of viral antigenic material parental viral RNA can act as a messenger longer than 9 hours. The capacity for the production of hemagglutinating units appears after the viral antigen producing capacity, when viral RNA can already be synthesized. This capacity is separated from that to produce plaque forming particles by a FPA-sensitive phase. The character of the corresponding FPA-sensititve material is unknown.

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In vitro translation of encephalomyocarditis viral RNA: Synthesis of capsid precursor-like polypeptides

Virology ◽

10.1016/0042-6822(76)90289-0 ◽

1976 ◽

Vol 70 (2) ◽

pp. 484-492 ◽

Cited By ~ 9

Author(s):

Lawrence A. Hunt

Keyword(s):

Rna Synthesis ◽

Viral Rna ◽

In Vitro Translation ◽

Capsid Precursor

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An Alanine-to-Valine Substitution in the Residue 175 of Zika Virus NS2A Protein Affects Viral RNA Synthesis and Attenuates the Virus In Vivo

Viruses ◽

10.3390/v10100547 ◽

2018 ◽

Vol 10 (10) ◽

pp. 547 ◽

Cited By ~ 20

Author(s):

Silvia Márquez-Jurado ◽

Aitor Nogales ◽

Ginés Ávila-Pérez ◽

Francisco Iborra ◽

Luis Martínez-Sobrido ◽

...

Keyword(s):

Cdna Clone ◽

Zika Virus ◽

Rna Synthesis ◽

Infectious Clone ◽

Vero Cells ◽

Viral Rna ◽

Single Amino Acid ◽

Reverse Genetic System ◽

Infectious Clones

The recent outbreaks of Zika virus (ZIKV), its association with Guillain–Barré syndrome and fetal abnormalities, and the lack of approved vaccines and antivirals, highlight the importance of developing countermeasures to combat ZIKV disease. In this respect, infectious clones constitute excellent tools to accomplish these goals. However, flavivirus infectious clones are often difficult to work with due to the toxicity of some flavivirus sequences in bacteria. To bypass this problem, several alternative approaches have been applied for the generation of ZIKV clones including, among others, in vitro ligation, insertions of introns and using infectious subgenomic amplicons. Here, we report a simple and novel DNA-launched approach based on the use of a bacterial artificial chromosome (BAC) to generate a cDNA clone of Rio Grande do Norte Natal ZIKV strain. The sequence was identified from the brain tissue of an aborted fetus with microcephaly. The BAC clone was fully stable in bacteria and the infectious virus was efficiently recovered in Vero cells through direct delivery of the cDNA clone. The rescued virus yielded high titers in Vero cells and was pathogenic in a validated mouse model (A129 mice) of ZIKV infection. Furthermore, using this infectious clone we have generated a mutant ZIKV containing a single amino acid substitution (A175V) in the NS2A protein that presented reduced viral RNA synthesis in cell cultures, was highly attenuated in vivo and induced fully protection against a lethal challenge with ZIKV wild-type. This BAC approach provides a stable and reliable reverse genetic system for ZIKV that will help to identify viral determinants of virulence and facilitate the development of vaccine and therapeutic strategies.

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Completion of RNA synthesis by viral RNA replicases

Nucleic Acids Research ◽

10.1093/nar/29.17.3576 ◽

2001 ◽

Vol 29 (17) ◽

pp. 3576-3582 ◽

Cited By ~ 15

Author(s):

R. Tayon

Keyword(s):

Rna Synthesis ◽

Viral Rna

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Tacaribe Virus Z Protein Interacts with the L Polymerase Protein To Inhibit Viral RNA Synthesis

Journal of Virology ◽

10.1128/jvi.77.19.10383-10393.2003 ◽

2003 ◽

Vol 77 (19) ◽

pp. 10383-10393 ◽

Cited By ~ 59

Author(s):

Rodrigo Jácamo ◽

Nora López ◽

Maximiliano Wilda ◽

María T. Franze-Fernández

Keyword(s):

Inhibitory Activity ◽

Rna Synthesis ◽

Ring Finger ◽

Direct Interaction ◽

Viral Rna ◽

Reverse Genetic System ◽

Small Ring ◽

Protein Z ◽

Glycoprotein Precursor ◽

Tacaribe Virus

ABSTRACT Tacaribe virus (TV) is the prototype of the New World group of arenaviruses. The TV genome encodes four proteins, the nucleoprotein (N), the glycoprotein precursor, the polymerase (L), and a small RING finger protein (Z). Using a reverse genetic system, we recently demonstrated that TV N and L are sufficient to drive transcription and full-cycle RNA replication mediated by TV-like RNAs and that Z is a powerful inhibitor of these processes (N. López, R. Jácamo, and M. T. Franze-Fernández, J. Virol. 65:12241-12251, 2001). In the present study we investigated whether Z might interact with either of the proteins, N and L, required for RNA synthesis. To that end, we used coimmunoprecipitation with monospecific antibodies against the viral proteins and coimmunoprecipitation with serum against glutathione S-transferase (GST) and binding to glutathione-Sepharose beads when Z was expressed as a fusion protein with GST. We demonstrated that Z interacted with L but not with N and that Z inhibitory activity was dependent on its ability to bind to L. We also evaluated the contribution of different Z regions to its binding ability and functional activity. We found that integrity of the RING structure is essential for Z binding to L and for Z inhibitory activity. Mutants with deletions at the N and C termini of Z showed that amino acids within the C-terminal region and immediately adjacent to the RING domain N terminus contribute to efficient Z-L interaction and are required for inhibitory activity. The data presented here provide the first evidence of an interaction between Z and L, suggesting that Z interferes with viral RNA synthesis by direct interaction with L. In addition, coimmunoprecipitation studies revealed a previously unreported interaction between N and L.

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Attenuation of Bunyavirus Replication by Rearrangement of Viral Coding and Noncoding Sequences

Journal of Virology ◽

10.1128/jvi.79.11.6940-6946.2005 ◽

2005 ◽

Vol 79 (11) ◽

pp. 6940-6946 ◽

Cited By ~ 32

Author(s):

Anice C. Lowen ◽

Amanda Boyd ◽

John K. Fazakerley ◽

Richard M. Elliott

Keyword(s):

Mammalian Cells ◽

Reverse Genetics ◽

Viral Rna ◽

Wild Type Virus ◽

Coding Region ◽

Reading Frame ◽

Ribonucleoprotein Complexes ◽

The Family ◽

Prototype Virus ◽

Negative Sense

ABSTRACT Bunyamwera virus (BUN) is the prototype virus of the family Bunyaviridae. BUN has a tripartite negative-sense RNA genome comprising small (S), medium (M), and large (L) segments. Partially complementary untranslated regions (UTRs) flank the coding region of each segment. The terminal 11 nucleotides of these UTRs are conserved between the three segments, while the internal regions are unique. The UTRs direct replication and transcription of viral RNA and are sufficient to allow encapsidation of viral RNA into ribonucleoprotein complexes. To investigate the segment-specific functions of the UTRs, we have used reverse genetics to recover a recombinant virus (called BUN MLM) in which the L segment open reading frame (ORF) is flanked by the M segment UTRs. Compared to wild-type virus, BUN MLM virus shows growth attenuation in cultured mammalian cells and a slower disease progression in mice, produces small plaques, expresses reduced levels of L mRNA and L (RNA polymerase) protein, synthesizes less L genomic and antigenomic RNA, and has an increased particle-to-PFU ratio. Our data suggest that the packaging of BUN RNAs is not segment specific. In addition, the phenotype of BUN MLM virus supports the finding that BUN UTRs differ in their regulation of RNA synthesis but suggests that the interplay between each segment UTR and its cognate ORF may contribute to that regulation. Since BUN MLM virus is attenuated due to an essentially irreversible mutation, the rearrangement of UTRs is a feasible strategy for vaccine design for the more pathogenic members of the Bunyaviridae.

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