Search results for "Viral Genomics"

showing 2 items of 2 documents

PML nuclear body-residing proteins sequentially associate with HPV genome after infectious nuclear delivery.

2019

Subnuclear promyelocytic leukemia (PML) nuclear bodies (NBs) are targeted by many DNA viruses after nuclear delivery. PML protein is essential for formation of PML NBs. Sp100 and Small Ubiquitin-Like Modifier (SUMO) are also permanently residing within PML NBs. Often, large DNA viruses disassemble and reorganize PML NBs to counteract their intrinsic antiviral activity and support establishment of infection. However, human papillomavirus (HPV) requires PML protein to retain incoming viral DNA in the nucleus for subsequent efficient transcription. In contrast, Sp100 was identified as a restriction factor for HPV. These findings suggested that PML NBs are important regulators of early stages o…

Viral DiseasesPhysiologyvirusesIntranuclear Inclusion BodiesPromyelocytic Leukemia ProteinVirus ReplicationBiochemistryAutoantigensImmune PhysiologyMedicine and Health SciencesCell Cycle and Cell DivisionNuclear proteinBiology (General)PapillomaviridaeStaining0303 health sciencesViral GenomicsImmune System ProteinsChromosome Biology030302 biochemistry & molecular biologyCell StainingTotal Cell CountingNuclear Proteinsvirus diseasesAntigens NuclearGenomicsCell biologymedicine.anatomical_structureInfectious DiseasesCapsidCell ProcessesViral GenomeCellular Structures and OrganellesIntranuclear SpaceResearch ArticleHuman Papillomavirus InfectionQH301-705.5UrologyImmunologyCell Enumeration TechniquesSUMO-1 ProteinSexually Transmitted DiseasesMitosisMicrobial GenomicsGenome ViralBiologyResearch and Analysis MethodsMicrobiologyVirusAntibodies03 medical and health sciencesPromyelocytic leukemia proteinVirologyNuclear BodiesmedicineGeneticsHumansVesiclesMolecular BiologyMitosisTranscription factor030304 developmental biologyCell NucleusGenitourinary InfectionsTumor Suppressor ProteinsBiology and Life SciencesProteinsCell BiologyRC581-607Cell nucleusViral replicationSpecimen Preparation and Treatmentbiology.proteinParasitologyCapsid ProteinsImmunologic diseases. AllergyTranscription FactorsPLoS Pathogens
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Genome-Wide Estimation of the Spontaneous Mutation Rate of Human Adenovirus 5 by High-Fidelity Deep Sequencing

2016

Rates of spontaneous mutation determine the ability of viruses to evolve, infect new hosts, evade immunity and undergo drug resistance. Contrarily to RNA viruses, few mutation rate estimates have been obtained for DNA viruses, because their high replication fidelity implies that new mutations typically fall below the detection limits of Sanger and standard next-generation sequencing. Here, we have used a recently developed high-fidelity deep sequencing technique (Duplex Sequencing) to score spontaneous mutations in human adenovirus 5 under conditions of minimal selection. Based on >200 single-base spontaneous mutations detected throughout the entire viral genome, we infer an average mutatio…

0301 basic medicineAdenovirusesMutation rateGene Identification and AnalysisPathology and Laboratory MedicinePolymerase Chain ReactionMutation RateMedicine and Health Scienceslcsh:QH301-705.5GeneticsViral GenomicsInsertion MutationAdenovirus genomeMicrobial MutationHigh-Throughput Nucleotide SequencingGenomicsResistance mutation3. Good healthMedical MicrobiologyViral PathogensVirusesPathogensSequence AnalysisResearch Articlelcsh:Immunologic diseases. AllergySubstitution MutationImmunologyMicrobial GenomicsGenome ViralBiologyResearch and Analysis MethodsMicrobiologyDeep sequencingFrameshift mutation03 medical and health sciencesSequence Motif AnalysisVirologyGeneticsPoint MutationHumansMolecular Biology TechniquesSequencing TechniquesMicrobial PathogensMutation DetectionMolecular BiologySuppressor mutation030102 biochemistry & molecular biologyAdenoviruses HumanPoint mutationOrganismsBiology and Life SciencesVirology030104 developmental biologylcsh:Biology (General)MutationDynamic mutationParasitologyDNA viruseslcsh:RC581-607PLOS Pathogens
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