Search results for "Replication fidelity"

showing 3 items of 3 documents

Natural Selection Fails to Optimize Mutation Rates for Long-Term Adaptation on Rugged Fitness Landscapes

2008

The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutations with phenotypic effects are deleterious. As a consequence, the mutation rate that maximizes adaptation will be some intermediate value. Here, we used digital organisms to investigate the ability of natural selection to adjust and optimize mutation rates. We assessed the optimal mutation rate by empirically determining what mutation rate produced the highest rate of adaptation. Then, we allowed mutation rates to evolve, and we evaluated the proximity to the optimum. Although we chose conditions favorable for mutation rate optimization, the evolved rates were invariably far below the optimu…

0106 biological sciencesMutation rateTime FactorsDigital organismsFitness landscapeQH301-705.5Biology010603 evolutionary biology01 natural sciencesCellular and Molecular Neuroscience03 medical and health sciences0302 clinical medicineGeneticsComputer SimulationBiology (General)Selection GeneticMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biology0303 health sciencesEvolutionary BiologyNatural selectionEcologyModels GeneticComputational Biology15. Life on landAdaptation PhysiologicalBiological EvolutionComputational Biology/Evolutionary ModelingReplication fidelityAsexual populationsEvolvabilityComputational Theory and MathematicsEvolutionary biologyModeling and SimulationViral evolutionMutation (genetic algorithm)MutationDNA Mismatch repairAdaptationAvida030217 neurology & neurosurgeryResearch Article
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Mechanisms of viral mutation

2016

The remarkable capacity of some viruses to adapt to new hosts and environments is highly dependent on their ability to generate de novo diversity in a short period of time. Rates of spontaneous mutation vary amply among viruses. RNA viruses mutate faster than DNA viruses, single-stranded viruses mutate faster than double-strand virus, and genome size appears to correlate negatively with mutation rate. Viral mutation rates are modulated at different levels, including polymerase fidelity, sequence context, template secondary structure, cellular microenvironment, replication mechanisms, proofreading, and access to post-replicative repair. Additionally, massive numbers of mutations can be intro…

0301 basic medicineMutation rateEvolutionMutation ratevirusesGenome ViralReviewBiologyVirus ReplicationGenetic diversityVirus03 medical and health sciencesCellular and Molecular NeuroscienceMolecular BiologySuppressor mutationRecombination GeneticPharmacologyGeneticsCell BiologyResistance mutationVirologyReplication fidelityVirusPost-replicative repair030104 developmental biologyViral replicationViral evolutionMutationVirusesMutation (genetic algorithm)Dynamic mutationMolecular MedicineHyper-mutationCellular and Molecular Life Sciences
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Extremely high mutation rate of a hammerhead viroid

2009

Supporting information (Materials and methods, figs. S1-S3, suppl. references) available at: http://www.sciencemag.org/cgi/data/323/5919/1308/DC1/1

Mutation rateViroidvirusesMolecular Sequence DataPopulationChrysanthemum chlorotic mottle viroidGenome ViralVirus ReplicationMutation ratesRNA CatalyticRepliconSelection GeneticeducationGeneticseducation.field_of_studyMultidisciplinarybiologyReverse Transcriptase Polymerase Chain ReactionRibozymeRNAbiology.organism_classificationVirologyViroidsReplication fidelityAvsunviroidaeHammerhead ribozymesMutationMutation (genetic algorithm)biology.proteinNucleic Acid ConformationRNA ViralRepliconRNA replication
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