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Activity of Genes with Functions in Human Williams–Beuren Syndrome Is Impacted by Mobile Element Insertions in the Gray Wolf Genome

Author(s): vonHoldt, Bridgett M.; Ji, Sarah S.; Aardema, Matthew L.; Stahler, Daniel R.; Udell, Monique A.R.; et al

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Abstract: In canines, transposon dynamics have been associated with a hyper-social behavioral syndrome, although the functional mechanism has yet to be described. We investigate the epigenetic and transcriptional consequences of these behavior-associated mobile element insertions (MEIs) in dogs and Yellowstone gray wolves. We posit that the transposons themselves may not be the causative feature; rather, their transcriptional regulation may exert the functional impact. We survey four outlier transposons associated with hyper-sociability, with the expectation that they are targeted for epigenetic silencing. We predict hyper-methylation of MEIs, suggestive that the epigenetic silencing of and not the MEIs themselves may be driving dysregulation of nearby genes. We found that transposon-derived sequences are significantly hyper-methylated, regardless of their copy number or species. Further, we have assessed transcriptome sequence data and found evidence that MEIs impact the expression levels of six genes (WBSCR17, LIMK1, GTF2I, WBSCR27, BAZ1B, and BCL7B), all of which have known roles in human Williams–Beuren syndrome due to changes in copy number, typically hemizygosity. Although further evidence is needed, our results suggest that a few insertions alter local expression at multiple genes, likely through a cis-regulatory mechanism that excludes proximal methylation.
Publication Date: 1-Jun-2018
Electronic Publication Date: 1-Jun-2018
Citation: vonHoldt, Bridgett M., Ji, Sarah S., Aardema, Matthew L., Stahler, Daniel R., Udell, Monique A.R., Sinsheimer, Janet S. (2018). Activity of Genes with Functions in Human Williams–Beuren Syndrome Is Impacted by Mobile Element Insertions in the Gray Wolf Genome. Genome Biology and Evolution, 10 (6), 1546 - 1553. doi:10.1093/gbe/evy112
DOI: doi:10.1093/gbe/evy112
EISSN: 1759-6653
Pages: 1546 - 1553
Type of Material: Journal Article
Journal/Proceeding Title: Genome Biology and Evolution
Version: Final published version. This is an open access article.



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