Genetic bottlenecks reduce population variation in an experimental RNA virus population.
about
Arboviral bottlenecks and challenges to maintaining diversity and fitness during mosquito transmissionIncreased fidelity reduces poliovirus fitness and virulence under selective pressure in miceMicrotubules in viral replication and transportViral quasispecies evolutionAxonal spread of neuroinvasive viral infectionsGenetic Variability of Bovine Viral Diarrhea Virus and Evidence for a Possible Genetic Bottleneck during Vertical Transmission in Persistently Infected CattlePhylodynamics and dispersal of HRSV entails its permanence in the general population in between yearly outbreaks in childrenMammalian adaptation of influenza A(H7N9) virus is limited by a narrow genetic bottleneck.Genetic diversity among pandemic 2009 influenza viruses isolated from a transmission chainAlphaherpesvirus axon-to-cell spread involves limited virion transmissionMultiple host barriers restrict poliovirus trafficking in mice.Large bottleneck size in Cauliflower Mosaic Virus populations during host plant colonization.Genetic drift of HIV populations in culture.Reconstitution of authentic nanovirus from multiple cloned DNAs.Identifying geographic hot spots of reassortment in a multipartite plant virus.One is enough: in vivo effective population size is dose-dependent for a plant RNA virusQuasispecies spatial models for RNA viruses with different replication modes and infection strategies.Analysis of viral (zucchini yellow mosaic virus) genetic diversity during systemic movement through a Cucurbita pepo vine.Vector-borne transmission imposes a severe bottleneck on an RNA virus population.Circulating virus load determines the size of bottlenecks in viral populations progressing within a host.Bottleneck-mediated quasispecies restriction during spread of an RNA virus from inoculation site to brainRapid turnover of intra-host genetic diversity in Zucchini yellow mosaic virus.Within-host spatiotemporal dynamics of plant virus infection at the cellular levelGenetic structure and molecular variability of Cucumber mosaic virus isolates in the United States.Transcriptomic analysis of Prunus domestica undergoing hypersensitive response to plum pox virus infectionProfound differences in virus population genetics correspond to protection from CD4 decline resulting from feline lentivirus coinfection.Interactions Within Susceptible Hosts Drive Establishment of Genetically Distinct Variants of an Insect-Borne Pathogen.Genetic structure and population variability of tomato yellow leaf curl China virus.Molecular variability in the cysteine rich protein of potato virus M.Estimation of the number of virus particles transmitted by an insect vector.Random Plant Viral Variants Attain Temporal Advantages During Systemic Infections and in Turn Resist other Variants of the Same Virus.RNA transport during TMV cell-to-cell movementA self-perpetuating repressive state of a viral replication protein blocks superinfection by the same virusHidden virulence determinants in a viral quasispecies in vivoUnderstanding barriers to Borrelia burgdorferi dissemination during infection using massively parallel sequencingEstimation of the effective number of founders that initiate an infection after aphid transmission of a multipartite plant virus.The role of environmental factors on the evolution of phenotypic diversity in vesicular stomatitis virus populations.Experimental evolution of plant RNA viruses.Zucchini yellow mosaic virus (ZYMV, Potyvirus): vertical transmission, seed infection and cryptic infections.Genetic Structure and Molecular Variability Analysis of Citrus sudden death-associated virus Isolates from Infected Plants Grown in Brazil.
P2860
Q24701797-36B70AD4-BD38-484F-8AA9-9E2274F9FE3EQ24817069-27F29E60-ECCD-4FA3-9001-B8C2600D4EE2Q26863360-F589CE9E-9FBA-4492-8EF3-4C7A9AF5C6D3Q27013917-7906EEC9-F2CC-441F-B9B4-3D512C67EF2AQ27025965-E1375117-86F8-406C-B003-D03911F4E629Q27303173-7CD142EB-7486-4832-BE8F-B29F68818565Q27329785-F547EBD1-BFFB-4876-A004-9D226656BEFCQ30204229-CF95340F-6F16-458A-80FB-D30EE89DD62CQ30429424-1AA5905D-27FF-4DA8-AB09-B65CF2B34AABQ30525850-FBD9A6B2-966C-46CF-88ED-27DA2E932DE2Q33340964-B57E536A-D9CE-49BF-841D-B832FB3EB815Q33375025-501ACD1F-B336-4BFA-95D8-7681B2E5C1E0Q33419841-BFEB4080-EE84-420F-ABA1-144664BE6D2BQ33490901-BD261EEC-A842-42A5-9263-FD5026912DF4Q33746761-226BD30A-0F70-4381-A9C7-81A0AF7D03C5Q33959200-93531781-9F2F-4B09-BF32-C10DC1C1829EQ34031563-DD751FCE-4A93-46C0-9A9C-76D02088B5AAQ34251988-88FBE89F-3E73-40E5-9148-0C9BB5BE0C65Q34426436-8B8E1345-1A0F-486F-B3C0-B70409438A81Q34469000-8C0B1BAF-BEF6-4A88-849F-5D0FB4E39C34Q34481724-AC5842F7-5C6D-43A1-8927-8DB26F9A371BQ34520791-389B65F2-74D8-49B3-800A-31DF161D60C3Q35105767-C61FFF6F-D5C9-4C85-87D9-BC0D176C075CQ35163909-612DE65E-9BA3-4B1E-9E42-BA2946D635D9Q35193953-6EB53AA5-204B-4FCE-A235-31E931A2050EQ35260522-6BCD0ACB-4953-475C-81D3-B4B583EABB59Q35809000-18786A37-A6ED-4EC9-B61B-CE9F3622E271Q35857679-F75500A4-3F72-4622-8D92-110A2707EC92Q36064377-7148410F-9033-44C6-B540-819A074780B1Q36140793-EB6ACC5F-0C08-4B8D-9532-2A00FA18B9FDQ36181253-48AE320A-E851-4937-B586-7EC3913C3F84Q36192322-CA88CADA-1CDD-4B2F-AFAA-B049D84E3FBFQ36299410-76C0700F-6DDE-408E-B58B-03969E61DDA6Q36949693-A2D20D87-AA9C-4F2C-96FD-F86534DDA095Q36970890-BB9CC4B6-F5C2-44BC-B2A9-6DDDCB250063Q36994679-429B3E5E-B0AA-48C8-AB87-0132973C9978Q37006998-18EF3270-2F36-442F-88E1-0B90C3C0C7E1Q37078126-35603354-2280-48CF-BA6C-F4223B89A9B6Q37175667-892F64B1-2A07-498F-B7CA-A09F4FB0E599Q37539300-DBA54F37-66B2-49CD-91E9-1515F9215B19
P2860
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
description
2004 nî lūn-bûn
@nan
2004 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@ast
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@en
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@nl
type
label
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@ast
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@en
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@nl
prefLabel
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@ast
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@en
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@nl
P2860
P1433
P1476
Genetic bottlenecks reduce population variation in an experimental RNA virus population.
@en
P2093
Marilyn J Roossinck
P2860
P304
10582-10587
P356
10.1128/JVI.78.19.10582-10587.2004
P407
P577
2004-10-01T00:00:00Z