Search results for "Tomato bushy stunt virus"

showing 4 items of 4 documents

Cryo-negative staining

1998

Abstract A procedure is presented for the preparation of thin layers of vitrified biological suspensions in the presence of ammonium molybdate, which we termcryo-negative staining. The direct blotting of sample plus stain solution on holey carbon supports produces thin aqueous films across the holes, which are routinely thiner than the aqueous film produced by conventional negative staining on a continuous carbon layer. Because of this, a higher than usual concentration of negative stain (ca. 16% rather than 2%) is required for cryo-negative staining in order to produce an optimal image contrast. The maintenance of the hydrated state, the absence of adsorption to a carbon film and associate…

Proteasome Endopeptidase ComplexAnalytical chemistryGeneral Physics and AstronomyNegative Staininglaw.inventionMultienzyme ComplexesStructural BiologylawImage Processing Computer-AssistedTobacco mosaic virusAnimalsGeneral Materials ScienceColoring AgentsMolybdenumAmmonium molybdateTurnip yellow mosaic virusbiologyChemistryChaperonin 60Cell BiologyCatalasebiology.organism_classificationNegative stainStainingCysteine EndopeptidasesMicroscopy ElectronCrystallographyFreeze DryingElectron diffractionHemocyaninsVirusesCattleElectron microscopeTomato bushy stunt virusMicron
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Formation of two-dimensional crystals of icosahedral RNA viruses.

2007

International audience; The formation of 2D arrays of three small icosahedral RNA viruses with known 3D structures (tomato bushy stunt virus, turnip yellow mosaic virus and bromegrass mosaic virus) has been investigated to determine the role of each component of a negative staining solution containing ammonium molybdate and polyethylene glycol. Virion association was monitored by dynamic light scattering (DLS) and virus array formation was visualised by conventional transmission electron microscopy and cryo-electron microscopy after negative staining. The structural properties of viral arrays prepared in vitro were compared to those of microcrystals found in the leaves of infected plants. A…

LightCryo-electron microscopyvirusesGeneral Physics and Astronomy02 engineering and technology[SDV.BC]Life Sciences [q-bio]/Cellular BiologyVirusPolyethylene GlycolsTombusvirus03 medical and health sciencesDynamic light scatteringSolanum lycopersicumStructural BiologyOrganometallic CompoundsScattering RadiationGeneral Materials Science[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyTymovirus030304 developmental biologyMolybdenum0303 health sciencesTurnip yellow mosaic virusbiologyMosaic virusRNA virusCell Biology021001 nanoscience & nanotechnologybiology.organism_classificationNegative stainBromovirusCrystallographyMicroscopy Electron0210 nano-technologyTomato bushy stunt virusCrystallizationMicron (Oxford, England : 1993)
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Analysis of tombusvirus revertants to identify essential amino acid residues within RNA-dependent RNA polymerase motifs

2005

The RNA-dependent RNA polymerase (RdRp) of Tomato bushy stunt virus (TBSV) contains an arginine- and proline-rich (RPR) motif. This motif functions as an RNA-binding domain and is essential for tombusvirus replication. A mutant carrying three arginine substitutions in this motif rendered the virus unable to replicate in Nicotiana benthamiana plants and protoplasts. When the replicase function was provided in trans, by expressing the TBSV RdRp in N. benthamiana plants, an infectious variant could be isolated. Sequence analysis showed that only the substituted glycine residue (position 216) had reverted to arginine; all other substitutions remained unchanged. This finding suggested that stron…

GeneticsTombusvirusArginineSequence analysisvirusesfungifood and beveragesRNA-dependent RNA polymeraseNicotiana benthamianaBiologyRNA-Dependent RNA Polymerasebiology.organism_classificationVirologyTombusviruschemistry.chemical_compoundTombusviridaechemistryVirologyRNA polymeraseRNA ViralAmino AcidsTomato bushy stunt virusJournal of General Virology
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A simple method to estimate the isoelectric point of modified Tomato bushy stunt virus (TBSV) particles

2017

We present a simple method to estimate the isoelectric point (pI) of Tomato Bushy Stunt particles. We demonstrate that the combination of agarose gels with different pH buffers can be used to electrophorese the virus particles and their migration patterns can be compared. This method allows us to estimate the pI of the virus particles (wild type, wt, and genetically modified particles) and to monitor the effect of the pI of modified peptide side chains of the viral capsid subunit on the pI of the whole virus particle.

0301 basic medicineTombusvirusSurface PropertiesvirusesClinical BiochemistryBuffersBiologyBiochemistryVirusAnalytical ChemistryDiffusionTombusvirus03 medical and health sciencesIsoelectric PointElectrophoresis Agar GelIsoelectric focusingVirionfood and beveragesHydrogen-Ion Concentrationbiology.organism_classificationMolecular biologyElectrophoresis030104 developmental biologyIsoelectric pointCapsidBiophysicsParticleCapsid ProteinsPeptidesTomato bushy stunt virusELECTROPHORESIS
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