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  4. The chastity of amoebae: re-evaluating evidence for sex in amoeboid organisms
 
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The chastity of amoebae: re-evaluating evidence for sex in amoeboid organisms

Auteur(s)
Lahr, Daniel J. G.
Parfrey, Laura Wegener
Mitchell, Edward 
Institut de biologie 
Katz, Laura A.
Lara, Enrique 
Institut de biologie 
Date de parution
2011
In
Proceedings of the Royal Society B-Biological Sciences
Vol.
1715
No
278
De la page
2081
A la page
2090
Résumé
Amoebae are generally assumed to be asexual. We argue that this view is a relict of early classification schemes that lumped all amoebae together inside the 'lower' protozoa, separated from the 'higher' plants, animals and fungi. This artificial classification allowed microbial eukaryotes, including amoebae, to be dismissed as primitive, and implied that the biological rules and theories developed for macro-organisms need not apply to microbes. Eukaryotic diversity is made up of 70+ lineages, most of which are microbial. Plants, animals and fungi are nested among these microbial lineages. Thus, theories on the prevalence and maintenance of sex developed for macro-organisms should in fact apply to microbial eukaryotes, though the theories may need to be refined and generalized (e.g. to account for the variation in sexual strategies and prevalence of facultative sex in natural populations of many microbial eukaryotes). We use a revised phylogenetic framework to assess evidence for sex in several amoeboid lineages that are traditionally considered asexual, and we interpret this evidence in light of theories on the evolution of sex developed for macro-organisms. We emphasize that the limited data available for many lineages coupled with natural variation in microbial life cycles overestimate the extent of asexuality. Mapping sexuality onto the eukaryotic tree of life demonstrates that the majority of amoeboid lineages are, contrary to popular belief, anciently sexual, and that most asexual groups have probably arisen recently and independently. Additionally, several unusual genomic traits are prevalent in amoeboid lineages, including cyclic polyploidy, which may serve as alternative mechanisms to minimize the deleterious effects of asexuality.
Identifiants
https://libra.unine.ch/handle/123456789/20859
Type de publication
journal article
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