Abstract
Strong selection has resulted in substantial morphological and behavioral diversity across modern dog breeds, which makes dogs interesting model animals to study the underlying genetic architecture of these traits. However, results from between-breed analyses may confound selection signatures for behavior and morphological features that were coselected during breed development. In this study, we assess population genetic differences in a unique resource of dogs of the same breed but with systematic behavioral selection in only one population. We exploit these different breeding backgrounds to identify signatures of recent selection. Selection signatures within populations were found on chromosomes 4 and 19, with the strongest signals in behavior-related genes. Regions showing strong signals of divergent selection were located on chromosomes 1, 24, and 32, and include candidate genes for both physical features and behavior. Some of the selection signatures appear to be driven by loci associated with coat color (Chr 24; ASIP) and length (Chr 32; FGF5), while others showed evidence of association with behavior. Our findings suggest that signatures of selection within dog breeds have been driven by selection for morphology and behavior. Furthermore, we demonstrate that combining selection scans with association analyses is effective for dissecting the traits under selection.
Highlights
The development of current dog breeds can be viewed as a unique long-term selection experiment to study the process of domestication[1] as well as short-term evolutionary change as a consequence of intensive breeding.[2]
In the event of selective sweeps, favorable genetic variants increase in frequency and form extended haplotypes with neighboring genomic regions due to linkage disequilibrium (LD), as reviewed in Reference 16
We computed the integrated haplotype score, which is a variation of the extended haplotype homozygosity (EHH) statistic that aims to detect recent and incomplete selective sweeps within populations.[17]
Summary
The development of current dog breeds can be viewed as a unique long-term selection experiment to study the process of domestication[1] as well as short-term evolutionary change as a consequence of intensive breeding.[2]. No pathways were significantly enriched after accounting for multiple testing, Panther pathway analyses indicated nominally significant (P < .05) functional enrichment of several pathways for the UK population: “heterotrimeric G-protein signaling -Gi alpha and Gs alpha mediated” (P = .01; genes: GRK4, TABLE 1 Top selection signatures within the UK and Swedish GSD populations, showing the 10 highest integrated haplotype score (iHS) statistics
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