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Recent transposable element bursts are associated with the proximity to genes in a fungal plant pathogen
Date de parution
2023
In
PLOS Pathogens
Vol.
19
No
2
De la page
1
A la page
25
Résumé
<jats:p>The activity of transposable elements (TEs) contributes significantly to pathogen genome evolution. TEs often destabilize genome integrity but may also confer adaptive variation in pathogenicity or resistance traits. De-repression of epigenetically silenced TEs often initiates bursts of transposition activity that may be counteracted by purifying selection and genome defenses. However, how these forces interact to determine the expansion routes of TEs within a pathogen species remains largely unknown. Here, we analyzed a set of 19 telomere-to-telomere genomes of the fungal wheat pathogen<jats:italic>Zymoseptoria tritici</jats:italic>. Phylogenetic reconstruction and ancestral state estimates of individual TE families revealed that TEs have undergone distinct activation and repression periods resulting in highly uneven copy numbers between genomes of the same species. Most TEs are clustered in gene poor niches, indicating strong purifying selection against insertions near coding sequences, or as a consequence of insertion site preferences. TE families with high copy numbers have low sequence divergence and strong signatures of defense mechanisms (<jats:italic>i</jats:italic>.<jats:italic>e</jats:italic>., RIP). In contrast, small non-autonomous TEs (<jats:italic>i</jats:italic>.<jats:italic>e</jats:italic>., MITEs) are less impacted by defense mechanisms and are often located in close proximity to genes. Individual TE families have experienced multiple distinct burst events that generated many nearly identical copies. We found that a<jats:italic>Copia</jats:italic>element burst was initiated from recent copies inserted substantially closer to genes compared to older copies. Overall, TE bursts tended to initiate from copies in GC-rich niches that escaped inactivation by genomic defenses. Our work shows how specific genomic environments features provide triggers for TE proliferation in pathogen genomes.</jats:p>
Identifiants
Type de publication
journal article
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