Mutagenesis-induced, large fitness variations with an invariant arenavirus consensus genomic nucleotide sequence.
about
Extinction of hepatitis C virus by ribavirin in hepatoma cells involves lethal mutagenesisViral quasispecies evolutionStochastic simulations suggest that HIV-1 survives close to its error thresholdTopology of evolving, mutagenized viral populations: quasispecies expansion, compression, and operation of negative selection.Quasispecies theory and the behavior of RNA viruses.Molecular and Functional Bases of Selection against a Mutation Bias in an RNA Virus.Mutagenesis-mediated decrease of pathogenicity as a feature of the mutant spectrum of a viral population.Arenavirus variations due to host-specific adaptation.Lethal Mutagenesis of Hepatitis C Virus Induced by Favipiravir.Specific and nonspecific host adaptation during arboviral experimental evolution.Arenaviruses and lethal mutagenesis. Prospects for new ribavirin-based interventions.Lethal mutagenesis of foot-and-mouth disease virus involves shifts in sequence space.Ribavirin can be mutagenic for arenaviruses.Foot-and-mouth disease virus mutant with decreased sensitivity to ribavirin: implications for error catastrophe.Identification of a broad-spectrum arenavirus entry inhibitor.Favipiravir elicits antiviral mutagenesis during virus replication in vivo.Mutagenesis-mediated virus extinction: virus-dependent effect of viral load on sensitivity to lethal defection.Competition-colonization dynamics: An ecology approach to quasispecies dynamics and virulence evolution in RNA viruses.Populations of genomic RNAs devoted to the replication or spread of a bipartite plant virus differ in genetic structure.Lethal mutagenesis of an RNA plant virus via lethal defection.Nucleobases and corresponding nucleosides display potent antiviral activities against dengue virus possibly through viral lethal mutagenesis.Two sides of the same coin: A population genetics perspective on lethal mutagenesis and mutational meltdown.Extinction of Zika Virus and Usutu Virus by Lethal Mutagenesis Reveals Different Patterns of Sensitivity to Three Mutagenic Drugs
P2860
Q21132564-EBCA3109-4B68-45B6-8C67-AD36F76B6EB9Q27013917-87B8959B-05C0-46DF-B2B8-8AEB071F4646Q28483749-37271EF1-7FFD-4D6A-9114-CDA8B97CB05AQ33352819-34D40AE5-1552-4A0E-82C5-C8EA4203A1F8Q33641547-7A0A25CC-9BB9-4B31-9174-38862E4728E5Q33692707-8188D61D-9A51-4CDD-8671-0EA384CE577EQ34326649-D14FB5D1-2EE3-4ED5-BC81-977870B11BFBQ34647553-42621245-9B6B-48FE-9CD5-A44E9CB31F1EQ36166222-520AF6AE-01EB-4083-9666-3BF48F96045CQ37976154-7169A7B2-6C90-4108-A2F7-2B882E692322Q38064285-1092392B-F86C-4C28-96EC-003B07E1DF9DQ38961370-82A44C30-32CB-430A-B951-32E1EAF6BED4Q39544616-9B260107-E701-4189-BAB4-C3F07A89E649Q40199734-C052B81D-D832-4D6B-8F4B-8D7870C819AEQ40411501-431F2673-5F86-40EE-93A9-5B8380837BC4Q41693281-6E07EDF5-7616-4C40-8D51-57F481190849Q41896864-6DDE71F7-4F71-4C4D-BEFF-FA05C1817449Q42145287-49D28BA2-10F9-4589-A335-6845526E0529Q42246956-54EB998C-07C7-44DB-B24F-79EC97D2316FQ47549513-C6E40F80-C9C6-4B99-BFDC-C7B8F34498D2Q54232437-A5DA5C7B-6ABD-4C45-BFC2-7A6F74771FA2Q55424984-64AEE436-03EF-4EE8-836B-3507A204DEDBQ56337063-D0B7F056-FA2B-4327-98E0-020308A38415
P2860
Mutagenesis-induced, large fitness variations with an invariant arenavirus consensus genomic nucleotide sequence.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Mutagenesis-induced, large fit ...... s genomic nucleotide sequence.
@en
type
label
Mutagenesis-induced, large fit ...... s genomic nucleotide sequence.
@en
prefLabel
Mutagenesis-induced, large fit ...... s genomic nucleotide sequence.
@en
P2860
P1433
P1476
Mutagenesis-induced, large fit ...... s genomic nucleotide sequence.
@en
P2093
Gema Gómez-Mariano
Pedro R Lowenstein
P2860
P304
10451-10459
P356
10.1128/JVI.79.16.10451-10459.2005
P407
P577
2005-08-01T00:00:00Z