H2N2V1, Main, Exploration, bibRecord, 001F55

Evolution of sex in RNA viruses

Identifieur interne : 001F55 ( Main/Exploration ); précédent : 001F54; suivant : 001F56

Evolution of sex in RNA viruses

Auteurs : Lin Chao [États-Unis]

Source :

Trends in Ecology & Evolution [ 0169-5347 ] ; 1992.

RBID : ISTEX:6840FF665E15522CBE727368142A81C40D73E81E

English descriptors

Teeft :
- Antigenic, Antigenic drift, Antigenic shift, Antigenie shift, Asexual, Biotropica, Deleterious, Deleterious mutations, Disequilibrium, Equilibrium frequency, Eukaryotic chromosomes, Exchange segments, Food webs, Full complement, Genetic drift, Genetic exchange, Genome, Genome size, Genomic mutation rate, High mutation rate, Human viruses, Hybrid progeny, Influenza, Intraguild predation, Larger viruses, Leastmutated class, Lethal mutation model, Lethal mutations, Lineage, Linkage disequilibrium, Molecular biology, Mutation, Mutation pressure, Mutation rate, Phage, Positive selection, Predation, Predator, Priority effects, Recombination, Same host cell, Second positions, Segment reassortment, Segmentation, Segmented, Segmented viruses, Selection model, Sexual eukaryotes, Similar resources, Sinauer associates, Viral, Viral particles, Virus.

Abstract

Abstract: Viruses can reproduce sexually. Sex in some RNA viruses is so different from sex in eukaryotes that it may have evolved independently. Yet, recent research indicates that sex in both groups can be accounted for by models of either positive or purifying selection. This review appraises the role that these types of selection may have played in the evolution of sex in RNA viruses.

Url:

https://api.istex.fr/ark:/67375/6H6-F9J5H1DX-P/fulltext.pdf

DOI: 10.1016/0169-5347(92)90207-R

Affiliations:

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Le document en format XML

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<profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Antigenic</term>
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<term>Antigenic shift</term>
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<term>Asexual</term>
<term>Biotropica</term>
<term>Deleterious</term>
<term>Deleterious mutations</term>
<term>Disequilibrium</term>
<term>Equilibrium frequency</term>
<term>Eukaryotic chromosomes</term>
<term>Exchange segments</term>
<term>Food webs</term>
<term>Full complement</term>
<term>Genetic drift</term>
<term>Genetic exchange</term>
<term>Genome</term>
<term>Genome size</term>
<term>Genomic mutation rate</term>
<term>High mutation rate</term>
<term>Human viruses</term>
<term>Hybrid progeny</term>
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<term>Lethal mutation model</term>
<term>Lethal mutations</term>
<term>Lineage</term>
<term>Linkage disequilibrium</term>
<term>Molecular biology</term>
<term>Mutation</term>
<term>Mutation pressure</term>
<term>Mutation rate</term>
<term>Phage</term>
<term>Positive selection</term>
<term>Predation</term>
<term>Predator</term>
<term>Priority effects</term>
<term>Recombination</term>
<term>Same host cell</term>
<term>Second positions</term>
<term>Segment reassortment</term>
<term>Segmentation</term>
<term>Segmented</term>
<term>Segmented viruses</term>
<term>Selection model</term>
<term>Sexual eukaryotes</term>
<term>Similar resources</term>
<term>Sinauer associates</term>
<term>Viral</term>
<term>Viral particles</term>
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<front><div type="abstract" xml:lang="en">Abstract: Viruses can reproduce sexually. Sex in some RNA viruses is so different from sex in eukaryotes that it may have evolved independently. Yet, recent research indicates that sex in both groups can be accounted for by models of either positive or purifying selection. This review appraises the role that these types of selection may have played in the evolution of sex in RNA viruses.</div>
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Evolution of sex in RNA viruses

Evolution of sex in RNA viruses

Source :

English descriptors

Abstract

Links toward previous steps (curation, corpus...)

Le document en format XML

Pour manipuler ce document sous Unix (Dilib)

Pour mettre un lien sur cette page dans le réseau Wicri