Replication-Independent Long-Distance Trafficking by Viral RNAs in Nicotiana benthamiana (original) (raw)
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Molecular Plant-Microbe Interactions®, 2007
The 3a movement protein (MP) plays a central role in the movement of the RNA plant virus, Brome mosaic virus (BMV). To identify host factor genes involved in viral movement, a cDNA library of Nicotiana benthamiana, a systemic host for BMV, was screened with far-Western blotting using a recombinant BMV MP as probe. One positive clone encoded a protein with sequence similarity to the α chain of nascent-polypeptide-associated complex from various organisms, which is proposed to contribute to the fidelity of translocation of newly synthesized proteins. The orthologous gene from N. benthamiana was designated NbNACa1. The binding of NbNACa1 to BMV MP was confirmed in vivo with an agroinfiltration-immunoprecipitation assay. To investigate the involvement of NbNACa1 in BMV multiplication, NbNACa1-silenced (GSNAC) transgenic N. benthamiana plants were produced. Downregulation of NbNACa1 expression reduced virus accumulation in inoculated leaves but not in protoplasts. A microprojectile bomba...
A plant virus-encoded protein facilitates long-distance movement of heterologous viral RNA
Proceedings of the National Academy of Sciences, 1999
Transport of plant viruses from cell to cell typically involves one or more viral proteins that supply specific cell-to-cell movement functions. Long-distance transport of viruses through the vascular system is a less well understood process with requirements different from those of cell-to-cell movement. Usually viral coat protein (CP) is required for long-distance movement, but groundnut rosette umbravirus (GRV) does not code for a CP. However, this virus moves efficiently from cell to cell and long distance. We demonstrate here that the protein encoded by ORF3 of GRV can functionally replace the CP of tobacco mosaic virus (TMV) for long-distance movement. In spite of low levels of virus RNA accumulation in infected cells, chimeric TMV with a replacement of the CP gene by GRV ORF3 was able to move rapidly through the phloem. Moreover, this chimeric virus complemented long-distance movement of another CP-deficient TMV derivative expressing the gene encoding the green f luorescent protein. Thus, the GRV ORF3-encoded protein represents a class of trans-acting long-distance movement factors that can facilitate trafficking of an unrelated viral RNA.
Unusual Long-Distance Movement Strategies of Potato mop-top virus RNAs in Nicotiana benthamiana
Molecular Plant-Microbe Interactions, 2009
Potato mop-top pomovirus (PMTV) is one of a few viruses that can move systemically in plants in the absence of the capsid protein (CP). Pomoviruses encode the triple gene block genetic module of movement proteins (TGB 1, 2, and 3) and recent research suggests that PMTV RNA is transported either as ribonucleoprotein (RNP) complexes containingTGB1 or encapsidated in virions containing TGB1. Furthermore, there are different requirements for local or systemic (long-distance) movement. Research suggests that nucleolar passage of TGB1 may be important for the long-distance movement of both RNP and virions. Moreover, and uniquely, the long-distance movement of the CP-encoding RNA requires expression of both major and minor CP subunits and is inhibited when only the major CP sub unit is expressed. This paper reviews pomovirus research and presents a current model for RNA movement.
Integration of replication and assembly of infectious virions in plant RNA viruses
Current Opinion in Virology
For all plant pathogenic viruses with positive-strand RNA genomes, the assembly of infectious virions is a carefully orchestrated process. The mature virions of such viruses exhibit a remarkable degree of packaging specificity, despite the opportunity that exists to package cellular RNAs. Recent technical developments in the fields of molecular and cellular biology have revealed that the processes regulating genome replication and virion assembly are integrated. The main focus of this review is to (i) apprise readers of the technical breakthroughs that have facilitated the dissection of replication from virion assembly and genome packaging in vivo and (ii) describe the critical factors that have been shown to be involved in the regulation and integration of these processes.
Phytopathology, 2019
A hallmark feature of (+)-strand RNA viruses of eukaryotic cells is that progeny (+)-strands are accumulated 100-fold over (−)-strands. Previous experimental evidence suggests that, in Brome mosaic virus (BMV), a plant-infecting member of the alphavirus-like superfamily, the addition of RNA3 and, specifically, translation of the wild-type (WT) coat protein (CP) gene contributes to increased accumulation of (+)-strands. It is unclear whether this stimulation of (+)-strand accumulation by CP is due to direct regulation of viral RNA replication or RNA stabilization via encapsidation. Analysis of BMV progeny RNA in Nicotiana benthamiana plants revealed that expression of RNA3 variants that did not express WT CP led to a severe defect in BMV (+)-strand accumulation. The (+)-strand accumulation could be rescued when CP was complemented in trans. To verify whether stimulation of (+)-strand accumulation is coupled with encapsidation, two independent mutations were engineered into CP open re...
A novel block of plant virus movement genes
Molecular Plant Pathology, 2016
Hibiscus green spot virus (HGSV) is a recently discovered and so far poorly characterized bacilliform plant virus with a positive-stranded RNA genome consisting of three RNA species. Here, we demonstrate that the proteins encoded by the ORF2 and ORF3 in HGSV RNA2 are necessary and sufficient to mediate cell-to-cell movement of transport-deficient Potato virus X in Nicotiana benthamiana. These two genes represent a specialized transport module called 'binary movement block'(BMB), and ORF2 and ORF3 are termed BMB1 and
Journal of Virology, 1995
Brome mosaic virus (BMV) is a positive-strand RNA virus with a multipartite genome that causes symptomless infection in Nicotiana benthamiana. We have isolated and characterized a strain of BMV that produced uniform vein chlorosis in systemically infected N. benthamiana. Analysis of pseudorecombinants constructed by exchanging RNA 1 and 2 and RNA 3 components between wild-type (non-symptom-inducing) and vein chlorosis-inducing strains of BMV indicated that the genetic determinant for the induction of the chlorotic phenotype is located on RNA 3. Sequence analysis of progeny RNA 3 recovered from symptomatic N. benthamiana plants revealed that vein chlorosis is due to the single nucleotide transition 887G-->887A, which changes the codon for Val-266 to Ile-266 in the movement protein gene. The mutation had no detectable effect on the accumulation of virus in either inoculated or systematically infected leaves of N. benthamiana. The vein chlorosis phenotype is the manifestation of the...