CKM（肌酸激酶，肌肉型）和COX4I2（细胞色素c氧化酶，亚基4，同工型2）基因序列变异与纯种马比赛成绩的关联

Association of sequence variants in CKM (creatine kinase, muscle) and COX4I2 (cytochrome c oxidase, subunit 4, isoform 2) genes with racing performance in Thoroughbred horses.

作者信息

Gu J, MacHugh D E, McGivney B A, Park S D E, Katz L M, Hill E W

机构信息

Animal Genomics Laboratory, UCD School of Agriculture, University Veterinary Hospital, Ireland.

出版信息

Equine Vet J Suppl. 2010 Nov(38):569-75. doi: 10.1111/j.2042-3306.2010.00181.x.

DOI:10.1111/j.2042-3306.2010.00181.x

PMID:21059062

Abstract

REASONS FOR PERFORMING STUDY

The wild progenitors of the domestic horse were subject to natural selection for speed and stamina for millennia. Uniquely, this process has been augmented in Thoroughbreds, which have undergone at least 3 centuries of intense artificial selection for athletic phenotypes. While the phenotypic adaptations to exercise are well described, only a small number of the underlying genetic variants contributing to these phenotypes have been reported.

OBJECTIVES

A panel of candidate performance-related genes was examined for DNA sequence variation in Thoroughbreds and the association with racecourse performance investigated.

MATERIALS AND METHODS

Eighteen candidate genes were chosen for their putative roles in exercise. Re-sequencing in Thoroughbred samples was successful for primer sets in 13 of these genes. SNPs identified in this study and from the EquCab2.0 SNP database were genotyped in 2 sets of Thoroughbred samples (n = 150 and 148) and a series of population-based case-control investigations were performed by separating the samples into discrete cohorts on the basis of retrospective racecourse performance.

RESULTS

Twenty novel SNPs were detected in 3 genes: ACTN3, CKM and COX4I2. Genotype frequency distributions for 3 SNPs in CKM and COX4I2 were significantly (P < 0.05) different between elite Thoroughbreds and racehorses that had never won a race. These associations were not validated when an additional (n = 130) independent set of samples was genotyped, but when analyses included all samples (n = 278) the significance of association at COX4I2 g.22684390C > T was confirmed (P < 0.02).

CONCLUSIONS

While molecular genetic information has the potential to become a powerful tool to make improved decisions in horse industries, it is vital that rigour is applied to studies generating these data and that adequate and appropriate sample sets, particularly for independent replication, are used.

摘要

开展本研究的原因

家马的野生祖先历经数千年的自然选择，以获得速度和耐力。独特的是，纯种马在此过程中得到了强化，它们经历了至少3个世纪针对运动表型的强烈人工选择。虽然对运动的表型适应已有充分描述，但仅有少数导致这些表型的潜在基因变异被报道。

目的

检测一组与运动表现相关的候选基因在纯种马中的DNA序列变异，并研究其与赛马场表现的关联。

材料与方法

选择了18个因其在运动中假定作用的候选基因。在纯种马样本中，其中13个基因的引物组重测序成功。在本研究中鉴定的单核苷酸多态性（SNPs）以及来自EquCab2.0 SNP数据库的SNPs，在两组纯种马样本（n = 150和148）中进行基因分型，并通过根据回顾性赛马场表现将样本分为不同队列进行了一系列基于群体的病例对照研究。

结果

在3个基因（ACTN3、CKM和COX4I2）中检测到20个新的SNPs。精英纯种马和从未赢得过比赛的赛马之间，CKM和COX4I2中3个SNPs的基因型频率分布存在显著差异（P < 0.05）。当对另外一组（n = 130）独立样本进行基因分型时，这些关联未得到验证，但当分析包括所有样本（n = 278）时，COX4I2基因座g.22684390C > T处关联的显著性得到确认（P < 0.02）。