about
Evolution of mutational robustness in an RNA virusDistribution of Fitness and Virulence Effects Caused by Single-Nucleotide Substitutions in Tobacco Etch VirusAre rare variants responsible for susceptibility to complex diseases?Feline coronavirus type II strains 79-1683 and 79-1146 originate from a double recombination between feline coronavirus type I and canine coronavirusRates of spontaneous mutation among RNA virusesViral quasispecies evolutionExponential fitness gains of RNA virus populations are limited by bottleneck effects.Genetic and fitness changes accompanying adaptation of an arbovirus to vertebrate and invertebrate cellsHybrid frequencies confirm limit to coinfection in the RNA bacteriophage phi6RNA replication kinetics, genetic polymorphism and selection in the case of the hepatitis C virusUnusual distribution of mutations associated with serial bottleneck passages of human immunodeficiency virus type 1Efficient Virus Extinction by Combinations of a Mutagen and Antiviral InhibitorsOccurrence of genetic drift and founder effect during quasispecies evolution of the VP2 and NS3/NS3A genes of bluetongue virus upon passage between sheep, cattle, and Culicoides sonorensis.Effect of bottlenecking on evolution of the nonstructural protein 3 gene of hepatitis C virus during sexually transmitted acute resolving infectionMechanisms of genetic robustness in RNA virusesGrowth of an RNA virus in single cells reveals a broad fitness distributionMosquitoes Put the Brake on Arbovirus Evolution: Experimental Evolution Reveals Slower Mutation Accumulation in Mosquito Than Vertebrate CellsInteraction between the Hemagglutinin-Neuraminidase and Fusion Glycoproteins of Human Parainfluenza Virus Type III Regulates Viral Growth In VivoSelection for robustness in mutagenized RNA virusesThe fitness effects of random mutations in single-stranded DNA and RNA bacteriophagesA framework for evolutionary systems biologyDengue virus genomic variation associated with mosquito adaptation defines the pattern of viral non-coding RNAs and fitness in human cellsCollective Infectious Units in VirusesGenome variability and capsid structural constraints of hepatitis a virus.Selective pressure causes an RNA virus to trade reproductive fitness for increased structural and thermal stability of a viral enzymeRate of adaptation in sexuals and asexuals: a solvable model of the Fisher-Muller effect.Origin and evolution of the mitochondrial proteome.Evolution of microbes and viruses: a paradigm shift in evolutionary biology?Population genetic estimation of the loss of genetic diversity during horizontal transmission of HIV-1.Understanding the evolutionary fate of finite populations: the dynamics of mutational effects.Molecular basis for a lack of correlation between viral fitness and cell killing capacityMuller's Ratchet and compensatory mutation in Caenorhabditis briggsae mitochondrial genome evolution.Clonal turnover versus clonal decay: a null model for observed patterns of asexual longevity, diversity and distribution.Heterogeneous adaptive trajectories of small populations on complex fitness landscapes.Large bottleneck size in Cauliflower Mosaic Virus populations during host plant colonization.A century of tobamovirus evolution in an Australian population of Nicotiana glaucaEvolving virus plagues.Muller's ratchet decreases fitness of a DNA-based microbe.A dual infection/competition assay shows a correlation between ex vivo human immunodeficiency virus type 1 fitness and disease progression.Rapid fitness losses in mammalian RNA virus clones due to Muller's ratchet.
P2860
Q21563619-A272F240-B5A6-47FC-99FE-6C02E8A4FF8FQ22065440-4A756A92-5420-4758-871B-7AF86F9F71F0Q22337172-9E17794C-87FE-40C8-95C7-8DD507CC5793Q24523202-D2E09B47-A618-43E3-9D34-ED13352C8204Q24563020-DDED61B0-8907-4E5C-AF28-C2D48DB7525EQ27013917-9373E1BD-BD13-4214-97CF-DA2DDBE6FE2BQ27469347-1BDAAF38-66B5-482E-A973-DDE96892C123Q27469361-9DFCD29E-5D57-47E7-B973-D632B8378A81Q27469377-FBAB3510-9D9C-46E3-B6FA-661B6796DC97Q27469492-17F2EB9A-3CEF-46B4-9705-ABE5667B6101Q27469694-A110EBEF-BA1F-45C0-A6A4-F1A4FDA1F739Q27469870-6865EF3B-3CF2-4529-ADD4-42F0EC90192AQ27469961-909475F3-BBBA-40F9-9930-4A0A416A8827Q27472770-3ADBBAFD-489D-4AA3-91A8-D38C907CAB97Q27472944-EBF5AC4A-5624-4928-B118-763938ADF44BQ27488296-3EE16932-FF35-4A4A-BC28-4A4E43CB6761Q27488421-9D05F825-203E-4016-8521-C56F52685CD2Q27680424-2D785FF3-77E7-4B37-8AEC-A1C9DCEAC00EQ28469235-718FDAF6-E546-47B0-915A-B1AD00F9B729Q28471969-B075C945-DAF1-40C4-8803-8F7D1E112B18Q28754894-C7ADBB96-1B3E-4336-BA80-969D83572599Q28954746-8A23C4FC-28D1-4C83-8104-4BD0845B4171Q29464175-79484787-4ADC-45A3-8C8E-B723B77A4581Q30165022-7FAFBAB4-FB08-422C-9F84-9CB1551A8B54Q30424370-50913128-9AF1-460A-B7B7-AB1B050DA67CQ30555815-6F18EF0F-B68C-463C-8CA9-ABB256CCFC41Q30975353-5A46FEA0-92F9-4597-83F8-32912D338DCCQ31095701-C057200C-D33C-4F9A-B058-4611A6C261B7Q33237376-FF9AFAD5-5330-452E-AE33-8025F9C82D7DQ33281050-144AE847-4B62-424A-9AF7-1E9662C5260AQ33282045-7621C33B-FE51-468C-ACCF-7F00287EF597Q33321332-D443F020-F77C-4348-8F33-4E282B108920Q33322192-898A07A4-8284-406F-BFF9-615E0D113D04Q33322521-235AE179-F590-4E70-A9D0-E6275D0E134EQ33375025-A91D0380-88D8-44ED-873C-BF77FE58D688Q33391423-FC3F8EEA-3340-4D58-903A-2FDB247131FAQ33560538-4D44A38B-387D-4D4B-A95E-D0822FF89CFCQ33588611-0AA87FF7-5049-4045-BED5-76538B8D730DQ33604871-0C0ABE90-4083-4C2B-B5A6-69EF609047B8Q33612467-67E46680-EE07-454B-89B9-94E4D4B3D2FE
P2860
description
1990 nî lūn-bûn
@nan
1990年の論文
@ja
1990年学术文章
@wuu
1990年学术文章
@zh-cn
1990年学术文章
@zh-hans
1990年学术文章
@zh-my
1990年学术文章
@zh-sg
1990年學術文章
@yue
1990年學術文章
@zh
1990年學術文章
@zh-hant
name
Fitness of RNA virus decreased by Muller's ratchet.
@en
type
label
Fitness of RNA virus decreased by Muller's ratchet.
@en
prefLabel
Fitness of RNA virus decreased by Muller's ratchet.
@en
P356
P1433
P1476
Fitness of RNA virus decreased by Muller's ratchet.
@en
P2093
P2888
P304
P356
10.1038/348454A0
P407
P577
1990-11-01T00:00:00Z
P6179
1015111735