The blackcap (Sylvia atricapilla) genome reveals a species-specific accumulation of LTR retrotransposons

Transposable elements are mobile genetic elements that have the ability to move around the genome, and as such can be a source of genome variability. Transposable elements (TEs) are ubiquitous and many are found within a wide variety of life. Based on their characteristics we can annotate TEs within the host genome and classify them into specific TE types and families. The increasing number of available high-quality genome references in recent years provides an excellent resource that will enhance the understanding of the role of recently active TEs on genetic variation and phenotypic evolution. Here we showcase this through a high-quality TE annotation of the Eurasian blackcap (Sylvia atricapilla), as our chromosome resolution reference genome allowed the reconstruction of difficult-to-assemble regions. We have the ability to distinguish species-specific and non-specific TEs. We investigate how these TE categories are distributed along the genome and evaluate their correlation with four genomic features: recombination rate, gene coverage, CpG island coverage and GC coverage. We found a marked difference between species-specific and non-specific TEs. While species-specific TEs were negatively correlated with both GC content and recombination rate, the correlation with recombination rate disappeared and turned positive for GC content when considering non-specific TEs