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A coiled-coil interaction mediates cauliflower mosaic virus cell-to-cell movement

TitoloA coiled-coil interaction mediates cauliflower mosaic virus cell-to-cell movement
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2005
AutoriStavolone, L., Villani Maria Elena, Leclerc D., and Hohn T.
RivistaProceedings of the National Academy of Sciences of the United States of America
Volume102
Paginazione6219-6224
ISSN00278424
Parole chiaveAmino Acid Sequence, Aphididae, article, Brassica oleracea var. botrytis, carboxy terminal sequence, Cauliflower mosaic virus, Caulimovirus, cell motion, Chromatography, controlled study, Electron microscopy, Escherichia coli, Gel, gene mapping, Genes, genome analysis, Glutathione Transferase, immunogold labeling, insecta, Molecular Sequence Data, nonhuman, Open Reading Frames, Plants, plasmodesma, priority journal, protein derivative, protein localization, protein protein interaction, Reporter, surface plasmon resonance, unclassified drug, Viral Proteins, virion associated protein, virus infection, virus protein
Abstract

The function of the virion-associated protein (VAP) of cauliflower mosaic virus (CaMV) has long been only poorly understood. VAP is associated with the virion but is dispensable for virus morphogenesis and replication. It mediates virus transmission by aphids through simultaneous interaction with both the aphid transmission factor and the virion. However, although insect transmission is not fundamental to CaMV survival, VAP is indispensable for spreading the virus infection within the host plant. We used a GST pull-down technique to demonstrate that VAP interacts with the viral movement protein through coiled-coil domains and surface plasmon resonance to measure the interaction kinetics. We mapped the movement protein coiled-coil to the C terminus of the protein and proved that it self-assembles as a trimer. Immunogold labeling/electron microscopy revealed that the VAP and viral movement protein colocalize on CaMV particles within plasmodesmata. These results highlight the multifunctional potential of the VAP protein conferred by its efficient coiled-coil interaction system and show a plant virus possessing a surface-exposed protein (VAP) mediating viral entry into host cells. © 2005 by The National Academy of Sciences of the USA.

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cited By 53

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-17844410340&doi=10.1073%2fpnas.0407731102&partnerID=40&md5=ab05724b576a10a326883d0f3fa51cea
DOI10.1073/pnas.0407731102
Citation KeyStavolone20056219