6533b856fe1ef96bd12b28e8

RESEARCH PRODUCT

The Tobacco mosaic virus movement protein associates with but does not integrate into biological membranes

Silvia TamboreroLuis Martínez-gilIsmael MingarroVicente PallásJesús A. Sánchez-navarroAna M. Peiró

subject

Recombinant Fusion ProteinsvirusesMolecular Sequence DataImmunologyGene ExpressionMicrobiologiaBiologyEndoplasmic ReticulumMicrobiologyCell membraneGenes ReporterPlant CellsVirologymedicineTobacco mosaic virusAmino Acid SequenceMovement proteinIntegral membrane proteinStructure and AssemblyCell MembraneViral translationfungifood and beveragesBiological membraneVirologyTransmembrane proteinTransport proteinCell biologyVirusPlant Viral Movement ProteinsTobacco Mosaic VirusProtein Transportmedicine.anatomical_structureInsect ScienceHydrophobic and Hydrophilic InteractionsProtein Binding

description

Plant positive-strand RNA viruses require association with plant cell endomembranes for viral translation and replication, as well as for intra- and intercellular movement of the viral progeny. The membrane association and RNA binding of the Tobacco mosaic virus (TMV) movement protein (MP) are vital for orchestrating the macromolecular network required for virus movement. A previously proposed topological model suggests that TMV MP is an integral membrane protein with two putative -helical transmembrane (TM) segments. Here we tested this model using an experimental system that measured the efficiency with which natural polypeptide segments were inserted into the ER membrane under conditions approximating the in vivo situation, as well as in planta. Our results demonstrated that the two hydrophobic regions (HRs) of TMV MP do not span biological membranes. We further found that mutations to alter the hydrophobicity of the first HR modified membrane association and precluded virus movement. We propose a topological model in which the TMV MP HRs intimately associate with the cellular membranes, allowing maximum exposure of the hydrophilic domains of the MP to the cytoplasmic cellular components.

yearjournalcountryeditionlanguage
2014-01-01
10.1128/jvi.03648-13http://hdl.handle.net/10550/54940