State Key Laboratory of Genetic Resources and Evolution & Yunnan Laboratory of Molecular Biology of Domestic Animals, Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.
Sino-Africa Joint Research Center, Chinese Academy of Sciences, Kunming, China.
BMC Genomics. 2022 Apr 15;23(1):306. doi: 10.1186/s12864-022-08512-w.
Cattle are considered to be the most desirable livestock by small scale farmers. In Africa, although comprehensive genomic studies have been carried out on cattle, the genetic variations in indigenous cattle from Nigeria have not been fully explored. In this study, genome-wide analysis based on genotyping-by-sequencing (GBS) of 193 Nigerian cattle was used to reveal new insights on the history of West African cattle and their adaptation to the tropical African environment, particularly in sub-Saharan region. RESULTS: The GBS data were evaluated against whole-genome sequencing (WGS) data and high rate of variant concordance between the two platforms was evident with high correlated genetic distance matrices genotyped by both methods suggestive of the reliability of GBS applicability in population genetics. The genetic structure of Nigerian cattle was observed to be homogenous and unique from other African cattle populations. Selection analysis for the genomic regions harboring imprints of adaptation revealed genes associated with immune responses, growth and reproduction, efficiency of feeds utilization, and heat tolerance. Our findings depict potential convergent adaptation between African cattle, dogs and humans with adaptive genes SPRY2 and ITGB1BP1 possibly involved in common physiological activities.
The study presents unique genetic patterns of Nigerian cattle which provide new insights on the history of cattle in West Africa based on their population structure and the possibility of parallel adaptation between African cattle, dogs and humans in Africa which require further investigations.
牛被认为是小规模农场主最理想的牲畜。在非洲,尽管已经对牛进行了全面的基因组研究,但尼日利亚本土牛的遗传变异尚未得到充分探索。在这项研究中,对 193 头尼日利亚牛进行了基于测序的基因型分析(GBS)的全基因组分析,以揭示西非牛的历史及其对热带非洲环境,特别是撒哈拉以南地区的适应的新见解。结果:GBS 数据与全基因组测序(WGS)数据进行了评估,两个平台之间的变异一致性很高,两种方法所生成的遗传距离矩阵高度相关,表明 GBS 在群体遗传学中的适用性可靠。观察到尼日利亚牛的遗传结构具有同质性,并且与其他非洲牛种群不同。对具有适应印记的基因组区域进行选择分析,揭示了与免疫反应、生长和繁殖、饲料利用效率和耐热性相关的基因。我们的研究结果描绘了非洲牛、狗和人类之间潜在的趋同适应,适应性基因 SPRY2 和 ITGB1BP1 可能参与了共同的生理活动。结论:该研究展示了尼日利亚牛独特的遗传模式,基于其种群结构提供了关于西非牛历史的新见解,并表明非洲牛、狗和人类之间可能存在平行适应,这需要进一步研究。
