Search results for "virus genome"

showing 2 items of 2 documents

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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New Insights into the Genome Organization of Yeast Killer Viruses Based on “Atypical” Killer Strains Characterized by High-Throughput Sequencing

2017

Viral M-dsRNAs encoding yeast killer toxins share similar genomic organization, but no overall sequence identity. The dsRNA full-length sequences of several known M-viruses either have yet to be completed, or they were shorter than estimated by agarose gel electrophoresis. High-throughput sequencing was used to analyze some M-dsRNAs previously sequenced by traditional techniques, and new dsRNAs from atypical killer strains of Saccharomyces cerevisiae and Torulaspora delbrueckii. All dsRNAs expected to be present in a given yeast strain were reliably detected and sequenced, and the previously-known sequences were confirmed. The few discrepancies between viral variants were mostly located aro…

0301 basic medicineRNA recombinationGenotypeHealth Toxicology and Mutagenesis030106 microbiologySaccharomyces cerevisiaelcsh:MedicineTorulaspora delbrueckiidsRNAGenome ViralSaccharomyces cerevisiaeToxicologyGenomeDNA sequencingArticle<i>Saccharomyces cerevisiae</i>; <i>Torulaspora delbrueckii</i>; killer; virus genome; dsRNA; sequencing; HTS; RNA recombination; phylogenetic originphylogenetic origin03 medical and health sciencesTorulaspora delbrueckiiGenomic organizationGeneticsbiologyPhylogenetic treelcsh:RHigh-Throughput Nucleotide SequencingTorulasporasequencingbiology.organism_classificationYeastTorulasporaKiller Factors Yeast030104 developmental biologyPhenotypevirus genomeVirusesRNA ViralHTSkillerToxins
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