Center for Quantitative Genetics and Genomics, Faculty of Technical Sciences, Aarhus University, 8830 Tjele, Denmark.
Center for Quantitative Genetics and Genomics, Faculty of Technical Sciences, Aarhus University, 8830 Tjele, Denmark; Animal Genetics and Integrative Biology, UMR 1313 GABI, INRA, AgroParisTech, Université Paris-Saclay, 78350 Jouy-en-Josas, France.
J Dairy Sci. 2020 May;103(5):4570-4578. doi: 10.3168/jds.2019-17831. Epub 2020 Mar 18.
Haplotypes that are common in a population but not observed as homotypes in living animals may harbor lethal alleles that compromise embryo survival. In this study, we searched for homozygous-deficient haplotypes in the genomes of 19,309 Nordic Red Dairy (RDC) and 4,291 Danish Jersey (JER) cattle genotyped using the Illumina BovineSNP50 BeadChip (Illumina Inc., San Diego, CA). For statistically significant deficient haplotypes, we evaluated the effect on nonreturn rate in at-risk matings (mating between carrier bull and daughter of carrier sire) versus not-at-risk matings (mating between noncarrier bull and daughter of noncarrier sire). Next, we analyzed whole-genome sequence variants from the 1000 Bull Genomes Project to identify putative causal variants underlying these haplotypes. In RDC, we identified 3 homozygous-deficient regions (HDR) that overlapped with known recessive lethal mutations: a 662-kb deletion on chromosome 12 in RDC [Online Mendelian Inheritance in Animals (OMIA) 001901-9913), a missense mutation in TUBD1, g.11063520T>C, in Braunvieh cattle (OMIA 001939-9913), and a 525-kb deletion on chromosome 23 in RDC (OMIA 001991-9913)]. In addition, we identified 15 novel HDR and their tag haplotypes for the underlying causative variants. The tag haplotype located between 39.2 and 40.3 Mbp on chromosome 18 had a negative effect on nonreturn rate in at-risk mating, confirming embryonic lethality. In Danish Jersey, we identified 12 novel HDR and their tag haplotypes for underlying causative variants. For 3 of these 12 tag haplotypes, insemination records of at-risk mating showed a negative effect on nonreturn rate, confirming the association with early embryonic mortality. Cattle that had both genotype and whole-genome sequence data were analyzed to detect the causative variants underlying each tag haplotype. However, none of the functional variants or deletions showed concordance with carrier status of the novel tag haplotypes. Carrier status of these detected haplotypes can be used to select bulls to reduce the frequencies of lethal alleles in the population and to avoid at-risk matings.
在人群中常见但在活体动物中未观察到同型的单体型可能携带有害等位基因,这些等位基因可能会危及胚胎的存活。在这项研究中,我们使用 Illumina BovineSNP50 BeadChip(Illumina Inc.,圣地亚哥,CA)对 19309 头北欧红牛(RDC)和 4291 头丹麦泽西牛(JER)进行了基因分型,然后在这些牛的基因组中搜索纯合缺失单体型。对于具有统计学意义的缺失单体型,我们评估了在风险交配(携带者公牛与携带者父亲的女儿交配)与非风险交配(非携带者公牛与非携带者父亲的女儿交配)之间对返情率的影响。接下来,我们分析了来自 1000 头公牛基因组计划的全基因组序列变异,以鉴定这些单体型背后潜在的因果变异。在 RDC 中,我们鉴定了 3 个纯合缺失区域(HDR),这些区域与已知的隐性致死突变重叠:RDC 12 号染色体上的 662-kb 缺失[在线孟德尔遗传在动物(OMIA)001901-9913)],Braunvieh 牛中 TUBD1 基因的错义突变,g.11063520T>C[OMIA 001939-9913)],以及 RDC 23 号染色体上的 525-kb 缺失[OMIA 001991-9913)]。此外,我们还鉴定了 15 个新的 HDR 及其潜在因果变异的标记单体型。位于 18 号染色体 39.2 至 40.3 Mbp 之间的标记单体型对风险交配的返情率有负面影响,证实了胚胎致死性。在丹麦泽西牛中,我们鉴定了 12 个新的 HDR 及其潜在因果变异的标记单体型。对于这 12 个标记单体型中的 3 个,风险交配的授精记录显示返情率有负面影响,证实了与早期胚胎死亡率的关联。对既有基因型又有全基因组序列数据的牛进行了分析,以检测每个标记单体型的潜在因果变异。然而,没有一个功能变异或缺失与新标记单体型的携带者状态一致。这些检测到的单体型的携带者状态可用于选择公牛,以降低群体中致死等位基因的频率,并避免风险交配。
