Search results for "collective infectious unit"

showing 5 items of 5 documents

Why viruses sometimes disperse in groups?

2019

AbstractMany organisms disperse in groups, yet this process is understudied in viruses. Recent work, however, has uncovered different types of collective infectious units, all of which lead to the joint delivery of multiple viral genome copies to target cells, favoring co-infections. Collective spread of viruses can occur through widely different mechanisms, including virion aggregation driven by specific extracellular components, cloaking inside lipid vesicles, encasement in protein matrices, or binding to cell surfaces. Cell-to-cell viral spread, which allows the transmission of individual virions in a confined environment, is yet another mode of clustered virus dissemination. Nevertheles…

viruses[SDV]Life Sciences [q-bio]Viral transmissionReview ArticleBiologyGenomeMicrobiologyVirus03 medical and health sciencesMultiplicity of infectionviral spreadVirologydispersal030304 developmental biology0303 health sciencesTransmission (medicine)collective infectious unit030306 microbiologyviral transmissionMutation AccumulationGeographyEvolutionary biologyBiological dispersalmultiplicity of infectionViral spreadCorrigendumVirus Evolution
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Collective Viral Spread Mediated by Virion Aggregates Promotes the Evolution of Defective Interfering Particles

2020

Recent insights have revealed that viruses use a highly diverse set of strategies to release multiple viral genomes into the same target cells, allowing the emergence of beneficial, but also detrimental, interactions among viruses inside infected cells. This has prompted interest among microbial ecologists and evolutionary biologists in studying how collective dispersal impacts the outcome of viral infections. Here, we have used vesicular stomatitis virus as a model system to study the evolutionary implications of collective dissemination mediated by viral aggregates, since this virus can spontaneously aggregate in the presence of saliva. We find that saliva-driven aggregation has a dual ef…

Cell typevirusesGene ExpressionEcological and Evolutionary ScienceGenome ViralBiologyVirus ReplicationMicrobiologyDeep sequencingVirusCell Linedefective interfering particles03 medical and health sciencesMultiplicity of infectionGenes ReporterVirologyAnimalsHumansexperimental evolutioncollective infectious unitssocial evolution030304 developmental biologyInfectivity0303 health sciencesExperimental evolution030306 microbiologyVirionDefective VirusesVesiculovirusbiology.organism_classificationBiological EvolutionVirologyQR1-5023. Good healthVirus DiseasesVesicular stomatitis virusBiological dispersalGenetic Fitnessvesicular stomatitis virusResearch ArticlemBio
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Fibrinogen Gamma Chain Promotes Aggregation of Vesicular Stomatitis Virus in Saliva.

2020

This article belongs to the Section Animal Viruses.

0301 basic medicineFibrinogen-gamma chainVirologiaSalivaVirion aggregationviruses030106 microbiologyCelllcsh:QR1-502Fluorescent Antibody TechniqueViral transmissionProteomicsFibrinogenlcsh:MicrobiologyVesicular stomatitis Indiana virusArticleCell Line03 medical and health sciencesLabel-free proteomicsDownregulation and upregulationlabel-free proteomicsVirologymedicineHumansCollective infectious unitscollective infectious unitsSalivaCells CulturedbiologyChemistryviral transmissionVirionFibrinogenRNA virusbiology.organism_classificationVirus3. Good healthCell biologystomatognathic diseases030104 developmental biologyInfectious Diseasesmedicine.anatomical_structureVesicular stomatitis virusVesicular stomatitis virusvirion aggregationvesicular stomatitis virusVesicular Stomatitismedicine.drugViruses
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Membrane-Associated Enteroviruses Undergo Intercellular Transmission as Pools of Sibling Viral Genomes

2019

Summary Some viruses are released from cells as pools of membrane-associated virions. By increasing the multiplicity of infection (MOI), this type of collective dispersal could favor viral cooperation, but also the emergence of cheater-like viruses such as defective interfering particles. To better understand this process, we examined the genetic diversity of membrane-associated coxsackievirus infectious units. We find that infected cells release membranous structures (including vesicles) that contain 8–21 infectious particles on average. However, in most cases (62%–93%), these structures do not promote the co-transmission of different viral genetic variants present in a cell. Furthermore, …

0301 basic medicinevirusesPopulationViral transmissionGenome ViralBiologyCoxsackievirusmedicine.disease_causeGenomeArticleGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciences0302 clinical medicineMultiplicity of infectionMicroscopy Electron TransmissionmedicineHumanseducationlcsh:QH301-705.5social evolutionCollective infectious unitEnterovirusGeneticsSocial evolutionGenetic diversityeducation.field_of_studyenteroviruscollective infectious unitTransmission (medicine)viral transmissionCell MembraneVirionGenetic VariationVirus InternalizationExtracellular vesiclesbiology.organism_classification3. Good health030104 developmental biologylcsh:Biology (General)EnterovirusBiological dispersalextracellular vesicles030217 neurology & neurosurgeryHeLa CellsCell Reports
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Spatially segregated transmission of Co-occluded baculoviruses limits virus–virus interactions mediated by cellular coinfection during primary infect…

2022

This article belongs to the Section General Virology.

Social evolutionInsectaCoinfectionbaculovirus; occlusion bodies; collective infectious units; cooperation; social evolutionSpodopteraNucleopolyhedrovirusesCooperationInfectious DiseasesVirologyLarvaAnimalsCollective infectious unitsOcclusion bodiesBaculovirusNucleocapsidBaculoviridae
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