Analysis of structural diversity in wolf-like canids reveals post-domestication variants

Although a variety of genetic changes have been implicated in causing phenotypic differences among dogs, the role of copy number variants (CNVs) and their impact on phenotypic variation is still poorly understood. Further, very limited knowledge exists on structural variation in the gray wolf, the a...

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Bibliographic Details
Published in:BMC genomics 2014-06, Vol.15 (1), p.465-465, Article 465
Main Authors: Ramirez, Oscar, Olalde, Iñigo, Berglund, Jonas, Lorente-Galdos, Belen, Hernandez-Rodriguez, Jessica, Quilez, Javier, Webster, Matthew T, Wayne, Robert K, Lalueza-Fox, Carles, Vilà, Carles, Marques-Bonet, Tomas
Format: Article
Language:English
Subjects:
Animals
Candidate genes
Canidae - classification
Canidae - genetics
Chromosome Breakpoints
Chromosomes, Mammalian
CNV
DNA Copy Number Variations
Dog and wolf
Dogs
Domestication
Evolució molecular
Evolution, Molecular
Gene expression
Genetic Variation
Genomes
Genomics
Genètica
Gossos
Government grants
Pets - classification
Pets - genetics
Phylogeny
Selection, Genetic
Studies
Wolves
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Summary:Although a variety of genetic changes have been implicated in causing phenotypic differences among dogs, the role of copy number variants (CNVs) and their impact on phenotypic variation is still poorly understood. Further, very limited knowledge exists on structural variation in the gray wolf, the ancestor of the dog, or other closely related wild canids. Documenting CNVs variation in wild canids is essential to identify ancestral states and variation that may have appeared after domestication. In this work, we genotyped 1,611 dog CNVs in 23 wolf-like canids (4 purebred dogs, one dingo, 15 gray wolves, one red wolf, one coyote and one golden jackal) to identify CNVs that may have arisen after domestication. We have found an increase in GC-rich regions close to the breakpoints and around 1 kb away from them suggesting that some common motifs might be associated with the formation of CNVs. Among the CNV regions that showed the largest differentiation between dogs and wild canids we found 12 genes, nine of which are related to two known functions associated with dog domestication; growth (PDE4D, CRTC3 and NEB) and neurological function (PDE4D, EML5, ZNF500, SLC6A11, ELAVL2, RGS7 and CTSB). Our results provide insight into the evolution of structural variation in canines, where recombination is not regulated by PRDM9 due to the inactivation of this gene. We also identified genes within the most differentiated CNV regions between dogs and wolves, which could reflect selection during the domestication process.
ISSN:1471-2164
1471-2164
DOI:10.1186/1471-2164-15-465