AnatomyOrganismsChemicals and DrugsAnalytical, Diagnostic and Therapeutic Techniques and EquipmentPhenomena and ProcessesTechnology, Industry, AgricultureInformation Science
Alfalfa mosaic virusMosaic VirusesMedicago sativaIlarvirusAlfamovirusPlants, ToxicRNA, ViralTobaccoPlant Viral Movement ProteinsCapsidProtoplastsPlant VirusesRNA ReplicaseCapsid ProteinsBromovirusTobacco Mosaic VirusViral ProteinsBase SequenceVirus ReplicationMolecular Sequence DataNucleic Acid ConformationCucumovirusPlants, Genetically ModifiedProtein BiosynthesisCaulimovirusAmino Acid SequencePlant DiseasesComovirusGenes, ViralVirion3' Untranslated RegionsPlantsRNA VirusesPeptide Chain Initiation, TranslationalTymovirusPotyvirusPotexvirusCloning, MolecularTranscription, GeneticCucumber Mosaic Virus SatelliteRNA, MessengerPlant LeavesMutationStructure-Activity RelationshipVaccinia virusEncyclopedias as TopicPeasSolanum tuberosum

Alfalfa mosaic virus coat protein bridges RNA and RNA-dependent RNA polymerase in vitro. (33/80)

Alfalfa mosaic virus (AMV) RNA replication requires the viral coat protein (CP). AMV CP is an integral component of the viral replicase; moreover, it binds to the viral RNA 3'-termini and induces the formation of multiple new base pairs that organize the RNA conformation. The results described here suggest that AMV coat protein binding defines template selection by organizing the 3'-terminal RNA conformation and by positioning the RNA-dependent RNA polymerase (RdRp) at the initiation site for minus strand synthesis. RNA-protein interactions were analyzed by using a modified Northwestern blotting protocol that included both viral coat protein and labeled RNA in the probe solution ("far-Northwestern blotting"). We observed that labeled RNA alone bound the replicase proteins poorly; however, complex formation was enhanced significantly in the presence of AMV CP. The RNA-replicase bridging function of the AMV CP may represent a mechanism for accurate de novo initiation in the absence of canonical 3' transfer RNA signals.  (+info)

Tobacco mosaic virus 126-kDa protein increases the susceptibility of Nicotiana tabacum to other viruses and its dosage affects virus-induced gene silencing. (34/80)

 (+info)

In vitro and in vivo studies of the RNA conformational switch in Alfalfa mosaic virus. (35/80)

 (+info)

Caulimoviridae tubule-guided transport is dictated by movement protein properties. (36/80)

 (+info)

The structure of elongated viral capsids. (37/80)

 (+info)

Preferential use of RNA leader sequences during influenza A transcription initiation in vivo. (38/80)

 (+info)

Base-pairing promotes leader selection to prime in vitro influenza genome transcription. (39/80)

 (+info)

Robust RNAi-based resistance to mixed infection of three viruses in soybean plants expressing separate short hairpins from a single transgene. (40/80)

 (+info)