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1.
J Cell Biol ; 201(7): 981-95, 2013 Jun 24.
Article in English | MEDLINE | ID: mdl-23798728

ABSTRACT

Plant viruses use movement proteins (MPs) to modify intercellular pores called plasmodesmata (PD) to cross the plant cell wall. Many viruses encode a conserved set of three MPs, known as the triple gene block (TGB), typified by Potato virus X (PVX). In this paper, using live-cell imaging of viral RNA (vRNA) and virus-encoded proteins, we show that the TGB proteins have distinct functions during movement. TGB2 and TGB3 established endoplasmic reticulum-derived membranous caps at PD orifices. These caps harbored the PVX replicase and nonencapsidated vRNA and represented PD-anchored viral replication sites. TGB1 mediated insertion of the viral coat protein into PD, probably by its interaction with the 5' end of nascent virions, and was recruited to PD by the TGB2/3 complex. We propose a new model of plant virus movement, which we term coreplicational insertion, in which MPs function to compartmentalize replication complexes at PD for localized RNA synthesis and directional trafficking of the virus between cells.


Subject(s)
Plant Viral Movement Proteins/physiology , Plasmodesmata/virology , Potexvirus/physiology , Virus Replication/physiology , Biological Transport , Endoplasmic Reticulum/metabolism , Endoplasmic Reticulum/ultrastructure , Models, Biological , Mutation , Plant Viral Movement Proteins/analysis , Plant Viral Movement Proteins/genetics , RNA, Viral/analysis , RNA, Viral/metabolism , RNA-Dependent RNA Polymerase/analysis , RNA-Dependent RNA Polymerase/metabolism , Nicotiana/virology
2.
Plant J ; 57(4): 758-70, 2009 Feb.
Article in English | MEDLINE | ID: mdl-18980643

ABSTRACT

We describe a method for localizing plant viral RNAs in vivo using Pumilio, an RNA-binding protein, coupled to bimolecular fluorescence complementation (BiFC). Two Pumilio homology domain (PUMHD) polypeptides, fused to either the N- or C-terminal halves of split mCitrine, were engineered to recognize two closely adjacent eight-nucleotide sequences in the genomic RNA of tobacco mosaic virus (TMV). Binding of the PUMHDs to their target sites brought the split mCitrine halves into close proximity, allowing BiFC to occur and revealing the localization of viral RNA within infected cells. The bulk of the RNA was sequestered in characteristic inclusion bodies known as viral replication complexes (VRCs), with a second population of RNA localized in discrete particles distributed throughout the peripheral cytoplasm. Transfer of the TMV Pumilio recognition sequences into the genome of potato virus X (PVX) allowed the PVX RNA to be localized. Unlike TMV, the PVX RNA was concentrated in distinctive 'whorls' within the VRC. Optical sectioning of the PVX VRCs revealed that one of the viral movement proteins was localized to the centres of the RNA whorls, demonstrating significant partitioning of viral RNA and proteins within the VRC. The utility of Pumilio as a fluorescence-based reporter for viral RNA is discussed.


Subject(s)
Genome, Viral , Nicotiana/virology , RNA, Viral/analysis , RNA-Binding Proteins/metabolism , Fluorescence , Microscopy, Confocal , Microscopy, Electron , Potexvirus/isolation & purification , Protein Engineering , Nicotiana/ultrastructure , Tobacco Mosaic Virus/isolation & purification
3.
J Virol ; 77(5): 3031-40, 2003 Mar.
Article in English | MEDLINE | ID: mdl-12584328

ABSTRACT

Umbraviruses are different from most other viruses in that they do not encode a conventional capsid protein (CP); therefore, no recognizable virus particles are formed in infected plants. Their lack of a CP is compensated for by the ORF3 protein, which fulfils functions that are provided by the CPs of other viruses, such as protection and long-distance movement of viral RNA. When the Groundnut rosette virus (GRV) ORF3 protein was expressed from Tobacco mosaic virus (TMV) in place of the TMV CP [TMV(ORF3)], in infected cells it interacted with the TMV RNA to form filamentous ribonucleoprotein (RNP) particles that had elements of helical structure but were not as uniform as classical virions. These RNP particles were observed in amorphous inclusions in the cytoplasm, where they were embedded within an electron-dense matrix material. The inclusions were detected in all types of cells and were abundant in phloem-associated cells, in particular companion cells and immature sieve elements. RNP-containing complexes similar in appearance to the inclusions were isolated from plants infected with TMV(ORF3) or with GRV itself. In vitro, the ORF3 protein formed oligomers and bound RNA in a manner consistent with its role in the formation of RNP complexes. It is suggested that the cytoplasmic RNP complexes formed by the ORF3 protein serve to protect viral RNA and may be the form in which it moves through the phloem. Thus, the RNP particles detected here represent a novel structure which may be used by umbraviruses as an alternative to classical virions.


Subject(s)
RNA Viruses/metabolism , RNA, Viral/metabolism , Ribonucleoproteins/metabolism , Viral Proteins/metabolism , Arachis/virology , Chenopodium/virology , Microscopy, Electron , Open Reading Frames/genetics , Open Reading Frames/physiology , Plant Diseases/virology , Plant Leaves/virology , RNA Stability , RNA Viruses/genetics , Recombinant Fusion Proteins/genetics , Recombinant Fusion Proteins/metabolism , Ribonucleoproteins/chemistry , Nicotiana/virology , Tobacco Mosaic Virus/genetics , Tobacco Mosaic Virus/metabolism , Tobacco Mosaic Virus/pathogenicity , Viral Proteins/genetics
4.
J Virol ; 76(21): 10654-64, 2002 Nov.
Article in English | MEDLINE | ID: mdl-12368307

ABSTRACT

The replication-associated proteins encoded by Cucumber mosaic virus (CMV), the 1a and 2a proteins, were detected by immunogold labeling in two host species of this virus, tobacco (Nicotiana tabacum) and cucumber (Cucumis sativus). In both hosts, the 1a and 2a proteins colocalized predominantly to the vacuolar membranes, the tonoplast. While plus-strand CMV RNAs were found distributed throughout the cytoplasm by in situ hybridization, minus-strand CMV RNAs were barely detectable but were found associated with the tonoplast. In both cucumber and tobacco, 2a protein was detected at higher densities than 1a protein. The 1a and 2a proteins also showed quantitative differences with regard to tissue distributions in tobacco and cucumber. About three times as much 2a protein was detected in CMV-infected cucumber tissues as in CMV-infected tobacco tissues. In tobacco, high densities of these proteins were observed only in vascular bundle cells of minor veins. In contrast, in cucumber, high densities of 1a and 2a proteins were observed in mesophyll cells, followed by epidermis cells, with only low levels being observed in vascular bundle cells. Differences were also observed in the distributions of 2a protein and capsid protein in vascular bundle cells of the two host species. These observations may represent differences in the relative rates of tissue infection in different hosts or differences in the extent of virus replication in vascular tissues of different hosts.


Subject(s)
Cucumovirus/metabolism , Viral Proteins/metabolism , Cucumis sativus , In Situ Hybridization , Plant Diseases , Plant Leaves , RNA, Viral/analysis , Subcellular Fractions , Tissue Distribution , Nicotiana , Viral Proteins/genetics , Virus Replication
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