State Key Laboratory of Pig Genetic Improvement and Production Technology, Jiangxi Agricultural University, Nanchang, Jiangxi, 330045, China.
Jiangxi Shanxia Swine Genetic Investment Company Limited, Dingnan, Jiangxi, 341900, China.
Anim Genet. 2021 Oct;52(5):621-632. doi: 10.1111/age.13112. Epub 2021 Jun 28.
Breeding for good meat quality performance while maintaining large body size and desirable carcass traits has been the major challenge for modern swine selective breeding. To address this goal, in the present work we studied five related populations produced by two commercial breeds (Berkshire and Duroc) and two Chinese breeds (Licha black pig and Lulai black pig). A single-trait GWAS performed on 20 body size and carcass traits using a self-developed China Chip-1 porcine SNP50K BeadChip identified 11 genome-wide significant QTL on nine chromosomes and 22 suggestive QTL on 15 chromosomes. For the 11 genome-wide significant QTL, eight were detected in at least two populations, and the rest were population-specific and only mapped in Shanxia black pig. Most of the genome-wide significant QTL were pleiotropic; for example, the QTL around 75.65 Mb on SSC4 was associated with four traits at genome-wide significance level. After screening the genes within 50 kb of the top SNP for each genome-wide significant QTL, NR6A1 and VRTN were chosen as candidate genes for vertebrae number; PLAG1 and BMP2 were identified as candidate genes for body size; and MC4R was the strong candidate gene for body weight. The four genes have been reported as candidates for thoracic vertebrae number, lumbar vertebrae number, carcass length and body weight respectively in previous studies. The effects of VRTN on thoracic vertebrae number, carcass length and body length have been verified in Shanxia black pig. Therefore, the VRTN genotype could be used in gene-assisted selection, and this could accelerate genetic improvement of body size and carcass traits in Shanxia black pig.
在保持大体型和理想胴体特征的同时培育出优良的肉质性能一直是现代猪种选育的主要挑战。为了实现这一目标,本研究以两个商业品种(伯克希尔猪和杜洛克猪)和两个中国品种(里岔黑猪和莱芜黑猪)为研究对象,对五个相关群体进行了研究。利用自主研发的中国猪芯片 SNP50K BeadChip 对 20 个体型和胴体性状进行单性状 GWAS 分析,共鉴定到 9 条染色体上 11 个全基因组显著 QTL 和 15 条染色体上 22 个暗示性 QTL。在 11 个全基因组显著 QTL 中,有 8 个在至少两个群体中被检测到,其余的则是群体特异性的,仅在山峡黑猪中被定位。大多数全基因组显著 QTL 是多效的;例如,SSC4 上约 75.65 Mb 的 QTL 与四个性状相关,达到全基因组显著水平。在筛选每个全基因组显著 QTL 最上位 SNP 周围 50 kb 内的基因后,选择 NR6A1 和 VRTN 作为脊椎骨数量的候选基因;PLAG1 和 BMP2 被鉴定为体型的候选基因;MC4R 是体重的强候选基因。这四个基因在之前的研究中分别被报道为胸腰椎数、腰椎数、胴体长和体重的候选基因。VRTN 对山峡黑猪的胸椎数、胴体长和体长的影响已得到验证。因此,VRTN 基因型可用于基因辅助选择,这将加速山峡黑猪体型和胴体性状的遗传改良。
