Abstract
Meiosis is a defining feature of eukaryotes but its phylogenetic distribution has not been broadly determined, especially among eukaryotic microorganisms (i.e. protists)—which represent the majority of eukaryotic ‘supergroups’. We surveyed genomes of animals, fungi, plants and protists for meiotic genes, focusing on the evolutionarily divergent parasitic protist Trichomonas vaginalis. We identified homologs of 29 components of the meiotic recombination machinery, as well as the synaptonemal and meiotic sister chromatid cohesion complexes. T. vaginalis has orthologs of 27 of 29 meiotic genes, including eight of nine genes that encode meiosis-specific proteins in model organisms. Although meiosis has not been observed in T. vaginalis, our findings suggest it is either currently sexual or a recent asexual, consistent with observed, albeit unusual, sexual cycles in their distant parabasalid relatives, the hypermastigotes. T. vaginalis may use meiotic gene homologs to mediate homologous recombination and genetic exchange. Overall, this expanded inventory of meiotic genes forms a useful “meiosis detection toolkit”. Our analyses indicate that these meiotic genes arose, or were already present, early in eukaryotic evolution; thus, the eukaryotic cenancestor contained most or all components of this set and was likely capable of performing meiotic recombination using near-universal meiotic machinery.
Highlights
Meiosis is a necessary part of sexual reproduction and a hallmark of eukaryotes that distinguishes them from prokaryotes, yet we are only beginning to understand its origin and evolution
The large number of meiotic genes shared by T. vaginalis, mammals (e.g., Homo) and fungi (e.g., Saccharomyces) suggest that putative meiotic processes in T. vaginalis could resemble those in mammals and fungi
We found 27 of 29 meiotic genes in Trichomonas vaginalis, and 21 of these 29 genes are present in Giardia intestinalis
Summary
Meiosis is a necessary part of sexual reproduction and a hallmark of eukaryotes that distinguishes them from prokaryotes, yet we are only beginning to understand its origin and evolution. Recent work has revealed that many meiotic genes are conserved among animals, fungi and plants (AFP) and some eukaryotic microorganisms (protists), and in the putatively early-diverged protist Giardia intestinalis [1] which is not known to be sexual per se but was recently shown to have genetic recombination [2,3] and to use orthologs of meiosis-specific genes in putatively parasexual recombination processes [4]. Metronidazole is commonly used to treat T. vaginalis infections, but resistance to the drug is increasing [27]. It is not known whether genetic exchange occurs in populations of T. vaginalis; genetic exchange could mediate the proliferation of drug-resistant mutations or increased virulence in populations of the parasite
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