Ana Giner scite author profile

RNA silencing is an evolutionarily conserved sequence-specific gene-inactivation system that also functions as an antiviral mechanism in higher plants and insects. To overcome antiviral RNA silencing, viruses express silencing-suppressor proteins. These viral proteins can target one or more key points in the silencing machinery. Here we show that in Sweet potato mild mottle virus (SPMMV, type member of the Ipomovirus genus, family Potyviridae), the role of silencing suppressor is played by the P1 protein (the largest serine protease among all known potyvirids) despite the presence in its genome of an HC-Pro protein, which, in potyviruses, acts as the suppressor. Using in vivo studies we have demonstrated that SPMMV P1 inhibits si/miRNA-programmed RISC activity. Inhibition of RISC activity occurs by binding P1 to mature high molecular weight RISC, as we have shown by immunoprecipitation. Our results revealed that P1 targets Argonaute1 (AGO1), the catalytic unit of RISC, and that suppressor/binding activities are localized at the N-terminal half of P1. In this region three WG/GW motifs were found resembling the AGO-binding linear peptide motif conserved in metazoans and plants. Site-directed mutagenesis proved that these three motifs are absolutely required for both binding and suppression of AGO1 function. In contrast to other viral silencing suppressors analyzed so far P1 inhibits both existing and de novo formed AGO1 containing RISC complexes. Thus P1 represents a novel RNA silencing suppressor mechanism. The discovery of the molecular bases of P1 mediated silencing suppression may help to get better insight into the function and assembly of the poorly explored multiprotein containing RISC.

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A mutation in the melon Vacuolar Protein Sorting 41prevents systemic infection of Cucumber mosaic virus

Giner

Pascual

Bourgeois

et al. 2017

Sci Rep

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In the melon exotic accession PI 161375, the gene cmv1, confers recessive resistance to Cucumber mosaic virus (CMV) strains of subgroup II. cmv1 prevents the systemic infection by restricting the virus to the bundle sheath cells and impeding viral loading to the phloem. Here we report the fine mapping and cloning of cmv1. Screening of an F2 population reduced the cmv1 region to a 132 Kb interval that includes a Vacuolar Protein Sorting 41 gene. CmVPS41 is conserved among plants, animals and yeast and is required for post-Golgi vesicle trafficking towards the vacuole. We have validated CmVPS41 as the gene responsible for the resistance, both by generating CMV susceptible transgenic melon plants, expressing the susceptible allele in the resistant cultivar and by characterizing CmVPS41 TILLING mutants with reduced susceptibility to CMV. Finally, a core collection of 52 melon accessions allowed us to identify a single amino acid substitution (L348R) as the only polymorphism associated with the resistant phenotype. CmVPS41 is the first natural recessive resistance gene found to be involved in viral transport and its cellular function suggests that CMV might use CmVPS41 for its own transport towards the phloem.

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The helper-component protease transmission factor of tobacco etch potyvirus binds specifically to an aphid ribosomal protein homologous to the laminin receptor precursor

Fernández‐Calvino

Goytia

López‐Abella

et al. 2010

Journal of General Virology

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Potyviruses are plant pathogens transmitted by aphids in a non-persistent manner. During transmission, the virus-encoded factor helper-component protease (HCPro) is presumed to act as a molecular bridge, mediating the reversible retention of virions to uncharacterized binding sites in the vector mouthparts. Whilst the predicted interaction between HCPro and the coat protein (CP) of virions has been confirmed experimentally, the characterization of putative HCPro-specific receptors in aphids has remained elusive, with the exception of a report that described binding of HCPro of zucchini yellow mosaic virus to several cuticle proteins. To identify other aphid components that could play a role during transmission, this study used purified HCPro of tobacco etch virus (TEV) in far-Western blotting assays as bait to select interactors among proteins extracted from aphid heads. With this approach, new HCPro-interacting proteins were found, and several were identified after mass spectrometry analysis and searches in databases dedicated to aphid sequences. Among these interactors, a ribosomal protein S2 (RPS2) was chosen for further investigation due to its homology with the laminin receptor precursor, known to act as the receptor of several viruses. The specific interaction between RPS2 and TEV HCPro was confirmed after cloning and heterologous expression of the corresponding Myzus persicae gene. The possible involvement of RPS2 in the transmission process was further suggested by testing a variant of HCPro that was non-functional for transmission due to a mutation in the conserved KITC motif (EITC variant). This variant retained its ability to bind CP but failed to interact with RPS2. INTRODUCTIONNatural dissemination of most plant viruses is mediated by insect vectors, in either circulative or non-circulative processes, with aphids (Hemiptera, Aphididae) being the most common vectors (Pirone & Perry, 2002;Ng & Falk, 2006;Hogenhout et al., 2008). Whilst the viral components implicated in transmission are frequently well known, there is substantially less knowledge about the insect counterparts, and only a few published studies have identified insect products with the capacity to interact with virions or viral components that might play a role in plant virus transmission. Using far-Western blotting or similar methodologies, studies with circulative plant viruses have found proteins interacting with virions at key points of the pathways followed by these viruses inside their insect vectors. Examples include a thrips-transmitted tospovirus (Medeiros et al., 2000) and several aphid-transmitted members of the family Luteoviridae (van den Heuvel et al., 1997;Li et al., 2001;Seddas et al., 2004). A promising approach for further advances in this field is represented by the recent adoption of combined genetic and proteomic tools in the analysis of vector specificity in luteovirids (Yang et al., 2008).In the case of non-circulative plant viruses, the insect vector factors implicated in transmission remain largely unknown. The ...

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Modeling elastic behaviour in functionalized carbon nanotube suspensions

et al. 2008

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This work reports recent experimental findings and rheological modeling on chemically treated single-walled carbon nanotubes (CNTs) suspended in an epoxy resin. When a CNT suspension is subject to a steady shear flow, it exhibited a shear-thinning characteristic, which was subsequently modeled by a FokkerPlanck (FP) simple orientation model. In terms of viscoelasticity, small-amplitude oscillatory measurements revealed mild elasticity for semi-dilute CNT suspensions. Some tentative models are proposed in order to model the extra contribution of elasticity due to the presence of CNTs.

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Ana Giner

Viral Protein Inhibits RISC Activity by Argonaute Binding through Conserved WG/GW Motifs

A mutation in the melon Vacuolar Protein Sorting 41prevents systemic infection of Cucumber mosaic virus

The helper-component protease transmission factor of tobacco etch potyvirus binds specifically to an aphid ribosomal protein homologous to the laminin receptor precursor

Modeling elastic behaviour in functionalized carbon nanotube suspensions

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