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The composition of piRNA clusters in Drosophila melanogaster deviates from expectations under the trap model

Filip Wierzbicki, Robert Kofler

2023BMC Biology17 citationsDOIOpen Access PDF

Abstract

BACKGROUND: It is widely assumed that the invasion of a transposable element (TE) in mammals and invertebrates is stopped when a copy of the TE jumps into a piRNA cluster (i.e., the trap model). However, recent works, which for example showed that deletion of three major piRNA clusters has no effect on TE activity, cast doubt on the trap model. RESULTS: Here, we test the trap model from a population genetics perspective. Our simulations show that the composition of regions that act as transposon traps (i.e., potentially piRNA clusters) ought to deviate from regions that have no effect on TE activity. We investigated TEs in five Drosophila melanogaster strains using three complementary approaches to test whether the composition of piRNA clusters matches these expectations. We found that the abundance of TE families inside and outside of piRNA clusters is highly correlated, although this is not expected under the trap model. Furthermore, the distribution of the number of TE insertions in piRNA clusters is also much broader than expected. CONCLUSIONS: We found that the observed composition of piRNA clusters is not in agreement with expectations under the simple trap model. Dispersed piRNA producing TE insertions and temporal as well as spatial heterogeneity of piRNA clusters may account for these deviations.

Topics & Concepts

Piwi-interacting RNABiologyTransposable elementDrosophila melanogasterTrap (plumbing)Drosophila (subgenus)Cluster (spacecraft)Evolutionary biologyGeneticsMelanogasterComputational biologyGenomeGenePhysicsComputer scienceMeteorologyProgramming languageChromosomal and Genetic VariationsGenomics and Phylogenetic StudiesGenome Rearrangement Algorithms
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