Song Jun-Seok, Seong Ha-Seung, Choi Bong-Hwan, Lee Chang-Woo, Hwang Nam-Hyun, Lim Dajeong, Lee Joon-Hee, Kim Jin Soo, Kim Jeong-Dae, Park Yeon-Soo, Choi Jung-Woo, Kim Jong-Bok
College of Animal Life Science, Kangwon National University, Chuncheon, 24341, Republic of Korea.
Division of Animal Genomics and Bioinformatics, National Institute of Animal Science, RDA, Wanju, 55365, Republic of Korea.
Genes Genomics. 2018 Dec;40(12):1373-1382. doi: 10.1007/s13258-018-0733-x. Epub 2018 Aug 30.
Hanwoo and Chikso are classified as Korean native cattle breeds that are currently registered with the Food and Agriculture Organization. However, there is still a lack of genomic studies to compare Hanwoo to Chikso populations. The objective of this study was to perform genome-wide analysis of Hanwoo and Chikso populations, investigating the genetic relationships between these two populations. We genotyped a total of 319 cattle including 214 Hanwoo and 105 Chikso sampled from Gangwon Province Livestock Technology Research Institute, using the Illumina Bovine SNP50K Beadchip. After performing quality control on the initially generated datasets, we assessed linkage disequilibrium patterns for all the possible SNP pairs within 1 Mb apart. Overall, average r values in Hanwoo (0.048) were lower than Chikso (0.074) population. The genetic relationship between the populations was further assured by the principal component analysis, exhibiting clear clusters in each of the Hanwoo and Chikso populations, respectively. Overall heterozygosity for Hanwoo (0.359) was slightly higher than Chikso (0.345) and inbreeding coefficient was also a bit higher in Hanwoo (- 0.015) than Chikso (- 0.035). The average F value was 0.036 between Hanwoo and Chikso, indicating little genetic differentiation between those two breeds. Furthermore, we found potential selection signatures including LRP1B and NTRK2 genes that might be implicated with meat and reproductive traits in cattle. In this study, the results showed that both Hanwoo and Chikso populations were not under severe level of inbreeding. Although the principal component analysis exhibited clear clusters in each of the populations, we did not see any clear evidence that those two populations are highly differentiated each other.
韩牛和支石牛被归类为目前已在联合国粮食及农业组织注册的韩国本土牛品种。然而,仍缺乏将韩牛与支石牛种群进行比较的基因组研究。本研究的目的是对韩牛和支石牛种群进行全基因组分析,研究这两个种群之间的遗传关系。我们使用Illumina Bovine SNP50K芯片,对从江原道家畜技术研究所采集的总共319头牛进行了基因分型,其中包括214头韩牛和105头支石牛。在对最初生成的数据集进行质量控制后,我们评估了相距1 Mb以内的所有可能SNP对的连锁不平衡模式。总体而言,韩牛种群的平均r值(0.048)低于支石牛种群(0.074)。主成分分析进一步证实了种群之间的遗传关系,分别在韩牛和支石牛种群中呈现出明显的聚类。韩牛的总体杂合度(0.359)略高于支石牛(0.345),韩牛的近亲繁殖系数(-0.015)也略高于支石牛(-0.035)。韩牛和支石牛之间的平均F值为0.036,表明这两个品种之间几乎没有遗传分化。此外,我们发现了包括LRP1B和NTRK2基因在内的潜在选择信号,这些基因可能与牛的肉质和繁殖性状有关。在本研究中,结果表明韩牛和支石牛种群都没有处于严重的近亲繁殖水平。虽然主成分分析在每个种群中都呈现出明显的聚类,但我们没有看到任何明确的证据表明这两个种群彼此高度分化。
