Department of Animal Science, Science and Research Branch, Islamic Azad University, Tehran, Iran.
Animal Science Research Institute of Iran (ASRI), Agricultural Research, Education and Extension Organization (AREEO), Karaj, Iran.
J Equine Vet Sci. 2022 Jun;113:103916. doi: 10.1016/j.jevs.2022.103916. Epub 2022 Feb 24.
The genetic diversity and genomic regions being under putative natural selection in Kurdish horse population were studied. The samples from 72 horses were genotyped by using GGP Equine 70K SNP arrays. The Ne Slope (NeS) analyses revealed that a sharp decline in Ne has probably occurred around four generations ago, and high frequency of ROH with 2-4 Mbp in length suggested that the inbreeding has probably occurred around 20 generations ago. The effective population size (Ne) was 104 horses up to three generations ago and the average inbreeding (F) was 0.047(± 0.045). Using de-correlated composite of multiple selection signals (DCMS) and runs of homozygosity (ROH) analyses the genomic regions being under putative selection were detected. By using DCMS, a total of 148 significant SNP (FDR < 0.05) were identified, 40% of which were located on ECA9, where the greatest peak was observed. This genomic region harbors several known QTL which are associated with withers height (body size). Also, significant genomic regions (FDR < 0.05), harboring QTL associated with insect bite hypersensitivity (IBH), hair density and coat texture, alternate gaits, guttural pouch tympany and temperament were identified. By using outputs of ROH analyses, two hotspot regions (i.e., 30% of individuals was considered as threshold), were identified on ECA7 (50.11-54.36 Mbp) and ECA11 (26.10-29.07 Mbp) harboring QTL associated with withers height, alternate gait and IBH. In summary, the genomic regions being under putative natural selection which harbors known QTL associated with body size and IBH, among others, were introduced. Nevertheless, additional functional and comparative studies are necessary to corroborate their effect on the observed genetic and phenotypic diversity of the Kurdish horses.
对库尔德马种群的遗传多样性和可能受到自然选择的基因组区域进行了研究。从 72 匹马的样本中,使用 GGP 马 70K SNP 芯片进行了基因分型。Ne Slope (NeS) 分析表明,Ne 的急剧下降可能发生在大约四代前,长度为 2-4 Mbp 的高频率 ROH 表明大约在 20 代前发生了近交。三代前的有效种群大小 (Ne) 为 104 匹,平均近交系数 (F) 为 0.047(± 0.045)。通过使用去相关复合多个选择信号 (DCMS) 和纯合片段 (ROH) 分析,检测到可能受到选择的基因组区域。通过使用 DCMS,共鉴定出 148 个显著 SNP(FDR < 0.05),其中 40%位于 ECA9 上,这里观察到最大峰值。这个基因组区域包含几个已知的与肩高(体型)相关的 QTL。此外,还鉴定到了一些与昆虫叮咬过敏 (IBH)、毛密度和毛色质地、交替步态、喉囊鼓音和气质相关的显著基因组区域 (FDR < 0.05)。通过使用 ROH 分析的结果,在 ECA7(50.11-54.36 Mbp)和 ECA11(26.10-29.07 Mbp)上确定了两个热点区域(即 30%的个体被认为是阈值),这些区域包含与肩高、交替步态和 IBH 相关的 QTL。总之,介绍了库尔德马种群中受到自然选择的基因组区域,这些区域包含与体型和 IBH 等相关的已知 QTL。然而,需要进行更多的功能和比较研究来证实它们对库尔德马观察到的遗传和表型多样性的影响。
