The main genetic locus associated with the evolution of gamecocks is centered on ISPD

• Published in: G3 : genes - genomes - genetics Vol. 14; no. 2
• Main Authors: Bendesky, Andres, Brew, Joseph, Francis, Kerel X, Tello Corbetto, Enrique F, González Ariza, Antonio, Nogales Baena, Sergio, Shimmura, Tsuyoshi
• Format: Journal Article
• Language: English
• Published: US Oxford University Press 07.02.2024
• Subjects: Animals; Base Sequence; Chickens - genetics; Genetic Loci; Genome; Investigation; Selective Breeding; population genetics; behavioral genetics; evolution; animal behavior; domestication
• ISSN: 2160-1836; 2160-1836
• DOI: 10.1093/g3journal/jkad267

Abstract Chickens were domesticated >4,000 years ago, probably first for fighting them and only later as a source of food. Fighting chickens, commonly known as gamecocks, continue to be bred throughout the world, but the genetic relationships among geographically diverse gamecocks and with nongame chickens are not known. Here, we sequenced the genomes of 44 geographically diverse gamecocks and 62 nongame chickens representing a variety of breeds. We combined these sequences with published genomes to generate the most diverse chicken genomes dataset yet assembled, with 307 samples. We found that gamecocks do not form a homogeneous group, yet they share genetic similarities that distinguish them from nongame chickens. Such similarities are likely the result of a common origin before their local diversification into, or mixing with nongame chickens. Particularly noteworthy is a variant in an intron of the isoprenoid synthase domain containing gene (ISPD), an extreme outlier present at a frequency of 89% in gamecocks but only 4% in nongame chickens. The ISPD locus has the strongest signal of selection in gamecocks, suggesting it is important for fighting performance. Because ISPD variants that are highly prevalent in gamecocks are still segregating in nongame chickens, selective breeding may help reduce its frequency in farm conditions in which aggression is not a desired trait. Altogether, our work provides genomic resources for agricultural genetics, uncovers a common origin for gamecocks from around the world and what distinguishes them genetically from chickens bred for purposes other than fighting, and points to ISPD as the most important locus related to fighting performance.