1. Chromosomal rearrangements as a source of local adaptation in island Drosophila
- Author
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Turner, Brandon A., Miorin, Theresa R., Stewart, Nicholas B., Reid, Robert W., Moore, Cathy C., and Rogers, Rebekah L.
- Subjects
Quantitative Biology - Populations and Evolution ,Quantitative Biology - Genomics - Abstract
Chromosomal rearrangements act as a source of genetic novelty by shuffling DNA throughout the genome. These mutations can produce chimeric genes, induce de novo gene formation, or alter gene expression changes for existing genes. Here, we explore how these mutations may serve as agents of evolutionary change as populations adapt to new environments during habitat shifts. We identify 16,480 rearrangements in mainland D. yakuba and two locally adapted populations of D. santomea and D yakuba on Sao Tome. Three loci that are associated with signals of strong differentiation in D. santomea lie adjacent to UV resistance or DNA repair genes, suggesting that these rearrangements confer selective advantages in high altitude environments with greater UV stressors. Some 55% of these mutations are facilitated by TE insertions, and 28% are TE facilitated ectopic recombination. In D. santomea 468 mutations are associated with strong signals of differentiation from the mainland while in island D yakuba we identify 383 candidates of local adaptation. A total of 49.4% of mutations associated with signals of local adaptation also show significant changes in transcript levels, suggesting that the adaptive value of rearrangements is related to effects on gene expression. Together, this survey of structural variation identifies key modes of evolutionary innovation that would be missed in SNP-based screens. This work offers a portrait of how these mutations appear and help organisms to survive during habitat shifts, furthering our understanding of evolutionary processes., Comment: 53 pages; 3 tables, 6 figures main; 1 table, 20 figures supplement
- Published
- 2021