Wang Yan, Li He, Hou Lei, Wang Shan, Kang Xia, Yu Jihong, Tian Fenfen, Ni Wenfeng, Deng Xiaoyu, Liu Tianzi, You Yanqin, Chen Wei
Clinical Biobank Center, Medical Innovation Research Division, Chinese PLA General Hospital, Beijing, China.
Beijing Institute of Genomics (China National Center for Bioinformation), Chinese Academy of Sciences, Beijing, China.
Heliyon. 2023 Aug 18;9(8):e19268. doi: 10.1016/j.heliyon.2023.e19268. eCollection 2023 Aug.
There is growing evidence that genetic factors can influence human athletic performance. In many sports performances, excellent coordination and agility are the keys to mastery. However, few studies have been devoted to identifying genetic influences on athletic performance. : We generated a derived measure of coordination and agility from the data of hexagonal jumps and T-runs and conducted genome-wide association and meta-analysis studies focused on coordination and agility. : The phenotypic correlation and genetic covariance analysis indicated that hexagonal jumps and T-runs were possibly influenced by the same set of genetic factors (R = 0.27, genetic covariance = 0.59). Meta-analysis identified rs117047321 genome-wide significant association (N = 143, P < 10E-5) with coordination and agility, and this association was replicated in the replication group (N = 318, < 0.05). The CG genotype samples of this single nucleotide polymorphism (SNP) required a longer average movement time than the CC genotype samples, and the CG genotype only exists in Asia, which may belong to the East Asia-specific variation. This SNP is located on , which is highly expressed in tissues such as the brain, heart, and muscle, suggesting that this locus might be a genetic factor related to human energy metabolism. : Our study indicated that genetic factors can affect the athletic performance of coordination and agility. These findings may provide valuable insights for using genetic factors to evaluate sports characteristics.
越来越多的证据表明,遗传因素会影响人类的运动表现。在许多体育项目中,出色的协调性和敏捷性是掌握技能的关键。然而,很少有研究致力于确定遗传因素对运动表现的影响。我们从六边形跳和T型跑的数据中生成了一种协调性和敏捷性的衍生测量方法,并开展了全基因组关联研究和荟萃分析,重点关注协调性和敏捷性。表型相关性和遗传协方差分析表明,六边形跳和T型跑可能受同一组遗传因素影响(R = 0.27,遗传协方差 = 0.59)。荟萃分析确定了rs117047321与协调性和敏捷性存在全基因组显著关联(N = 143,P < 10E - 5),且这种关联在复制组中得到了重复验证(N = 318,< 0.05)。该单核苷酸多态性(SNP)的CG基因型样本比CC基因型样本需要更长的平均移动时间,并且CG基因型仅存在于亚洲,可能属于东亚特有的变异。这个SNP位于……,在大脑、心脏和肌肉等组织中高度表达,这表明该位点可能是与人类能量代谢相关的遗传因素。我们的研究表明,遗传因素会影响协调性和敏捷性的运动表现。这些发现可能为利用遗传因素评估运动特征提供有价值的见解。
