Lack of evolutionary stasis during alternating replication of an arbovirus in insect and mammalian cells.
about
Distribution of Fitness and Virulence Effects Caused by Single-Nucleotide Substitutions in Tobacco Etch VirusThe distribution of fitness effects caused by single-nucleotide substitutions in an RNA virusInsights into arbovirus evolution and adaptation from experimental studiesArbovirus high fidelity variant loses fitness in mosquitoes and miceExponential fitness gains of RNA virus populations are limited by bottleneck effects.Unusual 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 alternating passage on adaptation of sindbis virus to vertebrate and invertebrate cells.Mechanisms of genetic robustness in RNA virusesEvolutionary reversals during viral adaptation to alternating hostsCost of host radiation in an RNA virusDifferential evolution of eastern equine encephalitis virus populations in response to host cell typeMolecular Clocks and the Puzzle of RNA Virus OriginsComplete Genome Analysis of 33 Ecologically and Biologically Diverse Rift Valley Fever Virus Strains Reveals Widespread Virus Movement and Low Genetic Diversity due to Recent Common AncestryEmergence of Mammalian Cell-Adapted Vesicular Stomatitis Virus from Persistent Infections of Insect Vector CellsThe West Nile virus mutant spectrum is host-dependant and a determinant of mortality in miceFrequency-dependent selection in a periodic environmentPatterns of Intra- and Interhost Nonsynonymous Variation Reveal Strong Purifying Selection in Dengue VirusArbovirus evolution in vivo is constrained by host alternationAntagonistic Pleiotropy Involving Promoter Sequences in a VirusGrowth 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 CellsThe Evolution of Viruses in Multi-Host Fitness LandscapesExperimental Passage of St. Louis Encephalitis Virus In Vivo in Mosquitoes and Chickens Reveals Evolutionarily Significant Virus CharacteristicsUnderstanding and altering cell tropism of vesicular stomatitis virusVariation in RNA virus mutation rates across host cellsCombining mathematics and empirical data to predict emergence of RNA viruses that differ in reservoir use.Consequences of in vitro host shift for St. Louis encephalitis virus.Adaptation to fluctuating temperatures in an RNA virus is driven by the most stringent selective pressureGenomic evolution of vesicular stomatitis virus strains with differences in adaptability.Host alternation is necessary to maintain the genome stability of rift valley fever virus.The evolution of RNA viruses: A population genetics viewMosquito cell lines: history, isolation, availability and application to assess the threat of arboviral transmission in the United KingdomAdding genes to the RNA genome of vesicular stomatitis virus: positional effects on stability of expression.Host alternation of chikungunya virus increases fitness while restricting population diversity and adaptability to novel selective pressures.The evolution of virulence of West Nile virus in a mosquito vector: implications for arbovirus adaptation and evolution.Dengue--quo tu et quo vadis?Adaptation of two flaviviruses results in differences in genetic heterogeneity and virus adaptabilityCell-specific adaptation of two flaviviruses following serial passage in mosquito cell culture.
P2860
Q22065440-7CA84319-89BF-43A9-B049-1CD699B084B6Q22066390-F4A66DED-61FC-4822-8654-F5A6539E66F1Q24273306-F51EC802-1ABD-465F-957B-F3B713ED1FEEQ24635860-1F259333-06F7-4324-96A4-2ADFC5B876E6Q27469347-F5964E7E-BD02-4753-A9F2-0E067F6E0529Q27469694-7AB97775-955F-4227-A4AB-0D044D408BA7Q27469870-8A51F514-EB16-4321-8D8A-A3410D6F7963Q27469961-93DB1BA2-BFDC-4357-B000-625A56789F20Q27472704-E4887B01-BBB4-4D02-927D-20A855AAE883Q27472944-27972703-26EC-4EB7-BAFD-A4444DB69A4FQ27473193-05571554-C779-490B-B6C3-54336128D155Q27473196-C1C3E5C8-892D-4DFE-9C68-0D404456C8A1Q27473199-E79AC70C-3A98-49BC-A54C-8E7CA0D281D9Q27473380-A5131A96-BE12-4781-B368-E1A40BC7FBC8Q27478367-819C3E14-8C39-4834-840C-BBB609069C73Q27480338-09085188-B200-4980-AC66-62E3ADC97055Q27480939-DA15755D-43E6-4852-9ECF-1CD6140C1B9EQ27481308-111A2084-308B-4E0D-9757-D5DC969EAAAEQ27485426-B85B5C4D-4381-4B0F-A4D6-4BF7F62DDF75Q27486082-4922E07B-1C30-475A-AFC0-7A3F4A7232D4Q27487316-FC62CB79-872A-434F-8275-57B756CDF543Q27488296-F8268D66-454D-4B7C-AFC6-25B571B04779Q27488421-EE92ED57-49B7-4416-8091-A63FCC47A4A0Q27488856-78CE4CA2-2978-44CD-9F3E-2ECAF5DADA11Q27490341-A702A50F-B9F7-434B-A9AD-79FB6661BE5FQ27687067-B8F16733-42E0-4944-AE97-3E588CB73B65Q28539101-55D965D4-47C5-4A16-956D-9108001ED353Q33579800-1C539495-0821-4152-A839-D1FF18B75C79Q33635094-36438D13-E4C8-422D-879B-F75EC1791535Q33806975-454B05AF-61FD-4F57-B29D-622F25B7EFF1Q33826797-668CCE65-69D2-4177-BD15-F5FF215B51E4Q33918307-4866BB80-315C-42CC-82E4-10EB6E471CEFQ33946956-7357E05B-1423-4BF6-971D-5C036D38CE49Q34116318-F8EE2D35-B999-469C-BFB3-7FA8D95DAF08Q34343430-F56A0C4F-6D7B-463D-8700-8964432AE516Q34485363-5812DBE0-624A-4FE2-9BC2-EAD61EEB9B9EQ34628533-9FA6FB69-48C9-4495-AFF6-484BAFED1BD4Q35276730-B401C6C1-477D-4B44-ACF3-BEFC9C773352Q35645926-DF2793AD-2356-4636-B934-D919C175C713Q35645969-B1A465EC-D7E6-4045-BF47-E9167F42F967
P2860
Lack of evolutionary stasis during alternating replication of an arbovirus in insect and mammalian cells.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Lack of evolutionary stasis du ...... in insect and mammalian cells.
@en
type
label
Lack of evolutionary stasis du ...... in insect and mammalian cells.
@en
prefLabel
Lack of evolutionary stasis du ...... in insect and mammalian cells.
@en
P2093
P356
P1476
Lack of evolutionary stasis du ...... in insect and mammalian cells.
@en
P2093
Escarmis C
Hershey CL
Novella IS
P304
P356
10.1006/JMBI.1999.2635
P407
P577
1999-04-01T00:00:00Z