Almarzook S, Reissmann M, Arends D, Brockmann G A
Züchtungsbiologie und Molekulare Tierzüchtung, Albrecht Daniel Thaer-Institut für Agrar- und Gartenbauwissenschaften, Humboldt-Universität zu Berlin, Invalidenstraße 42, 10115, Berlin, Germany.
Anim Genet. 2017 Aug;48(4):486-489. doi: 10.1111/age.12568. Epub 2017 May 31.
Although Arabian horses have been bred in strains for centuries and pedigrees have been recorded in studbooks, to date, little is known about the genetic diversity within and between these strains. In this study, we tested if the three main strains of Syrian Arabian horses descend from three founders as suggested by the studbook. We examined 48 horses representing Saglawi (n = 18), Kahlawi (n = 16) and Hamdani (n = 14) strains using the Equine SNP70K BeadChip. For comparison, an additional 24 Arabian horses from the USA and three Przewalski's horses as an out group were added. Observed heterozygosis (H ) ranged between 0.30 and 0.32, expected heterozygosity (H ) between 0.30 and 0.31 and inbreeding coefficients (F ) between -0.02 and -0.05, indicating high genetic diversity within Syrian strains. Likewise, the genetic differentiation between the three Syrian strains was very low (F < 0.05). Hierarchical clustering showed a clear distinction between Arabian and Przewalski's horses. Among Arabian horses, we found three clusters containing either horses from the USA or horses from Syria or horses from Syria and the USA together. Individuals from the same Syrian Arabian horse strain were spread across different sub-clusters. When analyzing Syrian Arabian horses alone, the best population differentiation was found with three distinct clusters. In contrast to expectations from the studbook, these clusters did not coincide with strain affiliation. Although this finding supports the hypothesis of three founders, the genetic information is not consistent with the currently used strain designation system. The information can be used to reconsider the current breeding practice. Beyond that, Syrian Arabian horses are an important reservoir for genetic diversity.
尽管阿拉伯马已经按品系培育了几个世纪,并且血统也已记录在种马登记簿中,但迄今为止,对于这些品系内部和之间的遗传多样性仍知之甚少。在本研究中,我们测试了叙利亚阿拉伯马的三个主要品系是否如种马登记簿所暗示的那样源自三位奠基者。我们使用马70K单核苷酸多态性(SNP)芯片检测了代表萨格拉维(n = 18)、卡拉维(n = 16)和哈姆达尼(n = 14)品系的48匹马。为作比较,额外添加了24匹来自美国的阿拉伯马和3匹普氏野马作为外群。观察到的杂合度(H)在0.30至0.32之间,预期杂合度(H)在0.30至0.31之间,近交系数(F)在 -0.02至 -0.05之间,表明叙利亚品系内具有高遗传多样性。同样,三个叙利亚品系之间的遗传分化非常低(F < 0.05)。层次聚类显示阿拉伯马和普氏野马之间有明显区别。在阿拉伯马中,我们发现三个聚类,其中一个包含来自美国的马,一个包含来自叙利亚的马,还有一个包含来自叙利亚和美国的马。来自同一叙利亚阿拉伯马品系的个体分布在不同的子聚类中。单独分析叙利亚阿拉伯马时,发现三个不同的聚类具有最佳的群体分化。与种马登记簿的预期相反,这些聚类与品系归属不一致。尽管这一发现支持了三位奠基者的假设,但遗传信息与目前使用的品系命名系统不一致。该信息可用于重新考虑当前的育种实践。除此之外,叙利亚阿拉伯马是遗传多样性的重要储存库。
