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キーワード:
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要旨:
Transposable elements (TEs) impact genome plasticity, architecture and evolution in fungal plant pathogens. The wide range of TE content observed in fungal genomes reflects diverse efficacy of host-genome defence mechanisms that can counter-balance TE expansion and spread. Closely related species can harbour drastically different TE repertoires, suggesting variation in the efficacy of genome defences. The evolution of fungal effectors, which are crucial determinants of pathogenicity, has been linked to the activity of TEs in pathogen genomes. Here we describe how TEs have shaped genome evolution of the fungal wheat pathogen Zymoseptoria tritici and four closely related species. We compared de novo TE annotations and Repeat-Induced Point mutation signatures in thirteen genomes from the Zymoseptoria species-complex. Then, we assessed the relative insertion ages of TEs using a comparative genomics approach. Finally, we explored the impact of TE insertions on genome architecture and plasticity. The thirteen genomes of Zymoseptoria species reflect different TE dynamics with a majority of recent insertions. TEs associate with distinct genome compartments in all Zymoseptoria species, including chromosomal rearrangements, genes showing presence/absence variation and effectors. European Z. tritici isolates have reduced signatures of Repeat-Induced Point mutations compared to Iranian isolates and closely related species. Our study supports the hypothesis that ongoing but moderate TE mobility in Zymoseptoria species shapes pathogen genome evolution.Competing Interest StatementThe authors have declared no competing interest.
