Genomic insights into the genetic diversity, lateral gaits and high-altitude adaptation of Chakouyi (CKY) horses.

J Genet Genomics

State Key Laboratory of Herbage Improvement and Grassland Agro-Ecosystems; Key Laboratory of Grassland Livestock Industry Innovation, Ministry of Agriculture and Rural Affairs; Engineering Research Center of Grassland Industry, Ministry of Education; College of Pastoral Agriculture Science and Technology, Lanzhou University, Lanzhou, Gansu 730020, China. Electronic address:

Published: November 2024

AI Article Synopsis

  • Chakouyi (CKY) horses from the Qinghai‒Xizang Plateau are specifically noted for their unique gaits and adaptations to high altitudes, but the genetic reasons behind these traits are still not well understood.
  • A study analyzed the genomes of CKY horses and other horse breeds, finding CKY horses genetically closer to other highland breeds and showing signs of reduced genetic diversity and lower inbreeding, likely due to selective pressures.
  • The research identified a key mutation in the DMRT3 gene linked to CKY's lateral gaits and highlighted the importance of the EPAS1 and CAT genes for high-altitude resilience, suggesting that preserving genetic diversity is crucial for maintaining these unique traits in CKY horses

Article Abstract

Chakouyi (CKY) horses from the Qinghai‒Xizang Plateau are well known for their unique lateral gaits and high-altitude adaptation, but genetic mechanisms underlying these phenotypes remain unclear. This study presents a comparison of 60 newly resequenced genomes of gaited CKY horses with 139 public genomes from 19 horse breeds. Population structure analyses (admixture, PCA, and neighbor-joining tree) reveal a close genetic relationship between CKY and other highland breeds (Tibetan and Chaidamu horses). Compared with other Chinese breeds, CKY horses present reduced nucleotide diversity (θπ) and lower inbreeding (F coefficient), suggesting possible selective pressures. A key region on chromosome 23 (Chr23: 22.3-22.6 Mb) is associated with the lateral gaits and harbors a highly prevalent nonsense mutation (Chr 23: 22,391,254 C>A, Ser301STOP) in the DMRT3 gene, with an 88% homozygosity rate, which is strongly correlated with the distinctive gait of CKY horses. Furthermore, selection signals reveal that the EPAS1 gene is related to high-altitude adaptation, and the CAT gene contributes to altitude resilience in CKY horses. These findings suggest that preserving genetic diversity is essential for maintaining the unique gaits and high-altitude adaptations of CKY horses.

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http://dx.doi.org/10.1016/j.jgg.2024.11.008DOI Listing

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Genomic insights into the genetic diversity, lateral gaits and high-altitude adaptation of Chakouyi (CKY) horses.

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State Key Laboratory of Herbage Improvement and Grassland Agro-Ecosystems; Key Laboratory of Grassland Livestock Industry Innovation, Ministry of Agriculture and Rural Affairs; Engineering Research Center of Grassland Industry, Ministry of Education; College of Pastoral Agriculture Science and Technology, Lanzhou University, Lanzhou, Gansu 730020, China. Electronic address:

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  • Chakouyi (CKY) horses from the Qinghai‒Xizang Plateau are specifically noted for their unique gaits and adaptations to high altitudes, but the genetic reasons behind these traits are still not well understood.
  • A study analyzed the genomes of CKY horses and other horse breeds, finding CKY horses genetically closer to other highland breeds and showing signs of reduced genetic diversity and lower inbreeding, likely due to selective pressures.
  • The research identified a key mutation in the DMRT3 gene linked to CKY's lateral gaits and highlighted the importance of the EPAS1 and CAT genes for high-altitude resilience, suggesting that preserving genetic diversity is crucial for maintaining these unique traits in CKY horses
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