PT  - JOURNAL ARTICLE
AU  - Mariam Okhovat
AU  - Kimberly A. Nevonen
AU  - Brett Davis
AU  - Pryce Michener
AU  - Samantha Ward
AU  - Mark Milhaven
AU  - Lana Harshman
AU  - Ajuni Sohota
AU  - Rachel J. O’Neill
AU  - Nadav Ahituv
AU  - Krishna R. Veeramah
AU  - Lucia Carbone
TI  - Co-option of the gibbon-specific &lt;em&gt;LAVA&lt;/em&gt; retrotransposon in DNA repair pathways
AID  - 10.1101/765230
DP  - 2019 Jan 01
TA  - bioRxiv
PG  - 765230
4099  - http://biorxiv.org/content/early/2019/09/11/765230.short
4100  - http://biorxiv.org/content/early/2019/09/11/765230.full
AB  - Transposable elements (TEs) can shape gene regulation networks by being co-opted as enhancers. However, the contribution of lineage-specific TE insertions to recent adaptations remains poorly understood. Gibbons present a suitable model to study these contributions, as they have evolved many distinct traits, including heavily rearranged genomes and a novel TE called LAVA. The LAVA retrotransposon is still active in the gibbon genome and is thought to have contributed to evolution of gibbon-specific traits. In this study, we characterized fixed and polymorphic LAVA insertions across multiple gibbon genomes and found that 10% of all LAVA elements overlap chromatin states associated with enhancer function. Moreover, LAVA was enriched in multiple transcription factor motifs, was bound by the important lymphoid transcription factor PU.1, and was associated with higher levels of gene expression in cis. Interestingly, despite the highly similar genomic distribution and epigenetic characteristics of fixed and polymorphic LAVA, only fixed LAVA insertions showed strong signatures of positive selection, and were enriched near genes implicated in DNA repair. Altogether, our population genetics, epigenetics, and evolutionary analyses indicate that several LAVA insertions have been co-opted in the gibbon genome as cis-regulatory elements. Specifically, a subset of the fixed LAVA insertions appear to have been co-opted to enhance regulation of DNA repair genes, likely as an adaptive mechanism to improve genome integrity in response to the genomic rearrangements occurring in the gibbon lineage.