Genetic structure and gene flows within horses: a genealogical study at the French population scale Pauline Pirault, Sophie Danvy, Etienne Verrier, Grégoire Leroy To cite this version: Pauline Pirault, Sophie Danvy, Etienne Verrier, Grégoire Leroy. Genetic structure and gene flows within horses: a genealogical study at the French population scale. PLoS ONE, Public Library of Science, 2013, 8 (4), Non paginé. 10.1371/journal.pone.0061544. hal-01001339 HAL Id: hal-01001339 https://hal.archives-ouvertes.fr/hal-01001339 Submitted on 29 May 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Genetic Structure and Gene Flows within Horses: A Genealogical Study at the French Population Scale Pauline Pirault1, Sophy Danvy2, Etienne Verrier1,3, Gre´goire Leroy1,3* 1 AgroParisTech, Unite´ Mixte de Recherche 1313 Ge´ne´tique Animale et Biologie Inte´grative, Paris, France, 2 Institut Franc¸ais du Cheval et de l’Equitation, Le Pin au Haras, France, 3 Institut National de la Recherche Agronomique, Unite´ Mixte de Recherche 1313 Ge´ne´tique Animale et Biologie Inte´grative, Domaine de Vilvert, Jouy-en-Josas, France Abstract Since horse breeds constitute populations submitted to variable and multiple outcrossing events, we analyzed the genetic structure and gene flows considering horses raised in France. We used genealogical data, with a reference population of 547,620 horses born in France between 2002 and 2011, grouped according to 55 breed origins. On average, individuals had 6.3 equivalent generations known. Considering different population levels, fixation index decreased from an overall species FIT of 1.37%, to an average FIS of 20.07% when considering the 55 origins, showing that most horse breeds constitute populations without genetic structure. We illustrate the complexity of gene flows existing among horse breeds, a few populations being closed to foreign influence, most, however, being submitted to various levels of introgression. In particular, Thoroughbred and Arab breeds are largely used as introgression sources, since those two populations explain together 26% of founder origins within the overall horse population. When compared with molecular data, breeds with a small level of coancestry also showed low genetic distance; the gene pool of the breeds was probably impacted by their reproducer exchanges. Citation: Pirault P, Danvy S, Verrier E, Leroy G (2013) Genetic Structure and Gene Flows within Horses: A Genealogical Study at the French Population Scale. PLoS ONE 8(4): e61544. doi:10.1371/journal.pone.0061544 Editor: Claire Wade, University of Sydney, United States of America Received December 4, 2012; Accepted March 11, 2013; Published April 22, 2013 Copyright: ß 2013 Pirault et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Funding: Funding is related to AgroParisTech common fundings. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Competing Interests: The authors have declared that no competing interests exist. * E-mail: [email protected] Introduction geneflows [11]. However, they may still have a lack of precision, when considering the exact amount of gene flow at a given time The horse is a species raised for very diverse purposes. During scale in comparison to a documented pedigree data base. Yet the last 100 years, in the industrialized world, strong changes completeness and correctness of genealogical information consti- occurred in the ways of using horses: up to World War I, horses tutes the main limitations of pedigree approaches [12]. Indeed, it is were mainly used for war, carriage and agricultural work; now, difficult to study past gene flows among a large number of breeds, horses are mainly used for sport, leisure, hobby and even as a since studbooks are generally independently established, from one companion animal. These changes had two main consequences: breed to another, even if several indicators are available for that, first, the actual population size of racing and riding breeds have such as probability of gene origins [13] or approximations of largely increased, whereas many draught breeds are now Wright-statistics [14]. endangered; second, horse breeders have strongly modified their This multiracial research was aimed at studying gene flows breeding goals. Another consequence is that outcrossing was considering the whole French horse population, using the database commonly practiced for some breeds, and is still practiced, to of the French Horse Institute (Institut Franc¸ais du Cheval et de improve performance of international and local populations. l’Equitation, IFCE), which registers all the horses raised in France Distinction has to be made in relation to studbooks regulations. and some of their ancestors of foreign origin (between 2 and 3 Indeed some studbooks are closed (e.g., French Trotter, Arab, and generations on average). Among others, our goal was to explain Thoroughbred breeds), others give allowance to introduce new how a breed can contribute to these flows or be affected by them. gene lines and stallions from other breeds. As an example, the A comparison between breed genealogical and molecular distance Anglo-Arab breed is a former cross between Arab and indicators was also conducted. Thoroughbred breeds, used here because of their high perfor- mance in endurance and speed, respectively [1]. Materials and Methods Several studies have been performed to assess the impact of outcrossing on a specific or a limited number of horse breeds, Genealogical database based on genealogical [2–5] or molecular approaches [2,6–10]. The entire French horse database SIRE (French Equine Molecular tools are especially useful to measure genetic differen- Information System), which includes, according to IFCE, between tiation and distance between breeds, and assess a theoretical 90 and 95% of horses raised in France, was analyzed in this study. amount of admixture within a given population related to some It includes 139 studbook designations, corresponding to breeds or PLOS ONE | www.plosone.org 1 April 2013 | Volume 8 | Issue 4 | e61544 Genetic Structure and Gene Flows within Horses breed subpopulations (varieties) defined according to national or international studbook rules. Those designations are categorized F~{C~ C~ {C F~{C by the IFCE in three different breed groups: (1) Race and riding F ~ , F ~ , F ~ IS { ~ ST { IT { horses, (2) Pony breeds and (3) Draught horses. 1 C 1 C 1 C To define a ‘‘reference population’’, we chose the group of F-statistics indexes were calculated using the considering either the animals born in France from 2002 to 2011, which corresponded to 3 horse breed groups (Race and riding horses, Pony and Draught a total of 732,176 animals, all breeds and designations considered. horses), or the 55 breed origins as subpopulations. Based on equivalent complete generations (EqG) [4], we removed Identity By Descent (IBD) coefficients such as F and C are from this group animals without origins provided (183,366 horses), considered to be very sensitive to incomplete pedigree information, as well as 13 studbook designations with average EqG lesser than 2 (e.g., [12]). In order to study the relationships between breed generations (1,190 horses). Then, the genealogical database origins, taking into account possible differences in pedigree consisted in the reference population as defined above (547,620 knowledge, we used equivalent complete generations EqG to adjust horses born in France, for 97 studbook designations) plus all coancestries between each couple of origins, according to the known ancestors of this population (360,862 horses, 71,547 of method developed by Cervantes et al.[17] to compute coancestry them being born outside France). rates. Considering two origins I and J, two individuals i and j For simplicity sake, studbook designations with less than 200 sampled within each one, EqGi and EqGj their respective individuals registered over the 2002–2011 period (corresponding equivalent complete generation and Cij their coancestry coancestry to foreign breeds) were grouped together into three foreign rate, DCij can be computed using the following equation: ‘‘origins’’ according to their respective group: (i) Other foreign race or riding breeds (23 designations), (ii) Other foreign pony (3 EqGizEqGpj ffiffiffiffiffiffiffiffiffiffiffiffiffi designations) and (iii) Other foreign draught horse (1 designation). DCij~1{ 2 1{Cij Studbook designations corresponding to the same breed were grouped together, with only two exceptions. The first exception For each couple of origins, average coancestry rate DCIJ was was for the case of three Anglo-Arab designations, differentiated in computed by averaging coancestry rates over 100,000 individual their studbook rule according to the percentage of Arab genes pairs randomly sample within both origins.
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