Agrifood Research Finland, MTT, Biotechnology and Food Research, Genomics, FI-36100 Jokioinen, Finland.
J Anim Sci. 2010 Mar;88(3):821-7. doi: 10.2527/jas.2009-2426. Epub 2009 Nov 20.
Reproduction traits play an important role in economically viable piglet production and are closely related to the quality and length of the productive life of the sow. A increased removal rate of young sows is undesirable not only because of the associated financial penalties incurred, but also because of ethical concerns. Candidate genes and gene pathways have been identified for fertility in model species, and recent studies have provided evidence that polymorphisms within these genes are associated with reproduction traits in American Yorkshire/Large White and Landrace populations. In this study we evaluated the impact of single polymorphisms (n = 7) in 7 candidate genes on reproductive efficiency in Finnish Yorkshire (n = 280) and Landrace (n = 271) populations: IGFBP1, IGFBP2, IGFBP3, IGFBP5, CPTIA (carnitine O-palmitoyltransferase I), COX2 (PG-endoperoxide synthase 2, also known as cyclooxygenase-2), and SLC22A5 [organic cation/carnitine transporter 2 (solute carrier family member I), OCTN2]. In the Finnish Yorkshire population, only 4 of the analyzed markers were polymorphic. Significant effects on farrowing time were detected from the Yorkshire data, with polymorphisms within the genes CPT1A [a (allele substitution effect of allele A) = 2.97 d for age at first farrowing)], IGFBP3 (a = 0.54 d for farrowing interval of parities >1), and IGFBP5 (a = 3.22, 1.27, and 0.85 d for age at first farrowing and farrowing interval in the first and later parities, respectively). For the Landrace population, 6 markers were polymorphic, and significant effects were detected for traits affecting litter size. The polymorphism within the COX2 gene had an additive effect of 0.3 piglets for litter size in parities >1, and the IGFBP1 gene had an additive effect of 0.21, 0.26, and 0.11 piglets for litter size in the first parity, parities >1, and stillborn in parities >1, respectively. The additive effect of the SNP within the IGFBP2 gene was 0.16, 0.09, and 0.09 piglets for litter size in parities >1 and stillborn in the first and later parities, respectively. Finally, the IGFBP5 gene had an additive effect of 0.18, 0.07, and 0.07 piglets for litter size in the first parity, stillborn in parities >1, and mortality between farrowing and weaning in the first parity, respectively. These results support the suitability of the candidate gene approach for identification of markers to improve the reproductive performance of sows and to provide potential markers for marker-assisted selection.
繁殖性状在经济可行的仔猪生产中起着重要作用,与母猪的生产寿命和质量密切相关。小母猪的淘汰率增加不仅会带来相关的经济处罚,还会引起伦理问题。在模式物种中,已经确定了与生育能力有关的候选基因和基因途径,最近的研究表明,这些基因内的多态性与美国约克夏/大白和长白种群的繁殖性状有关。在这项研究中,我们评估了芬兰约克夏(n = 280)和长白(n = 271)种群中 7 个候选基因中的 7 个单核苷酸多态性(SNP)(n = 7)对繁殖效率的影响:IGFBP1、IGFBP2、IGFBP3、IGFBP5、CPTIA(肉碱 O-棕榈酰转移酶 I)、COX2(PG-内过氧化物合酶 2,也称为环氧化酶-2)和 SLC22A5[有机阳离子/肉碱转运体 2(溶质载体家族成员 I),OCTN2]。在芬兰约克夏种群中,只有 4 个分析标记是多态性的。从约克夏的数据中检测到分娩时间的显著影响,CPT1A 基因内的多态性[a(等位基因 A 的等位基因替代效应)= 2.97 d 用于首次分娩年龄],IGFBP3(a = 0.54 d 用于产仔间隔>1 的产仔数),IGFBP5(a = 3.22、1.27 和 0.85 d 用于首次产仔和首次和以后产仔的产仔间隔)。对于长白种群,6 个标记是多态性的,并且对影响产仔数的性状检测到了显著影响。COX2 基因内的多态性对产仔数>1 的产仔数有 0.3 头猪的加性效应,IGFBP1 基因对产仔数>1 的产仔数有 0.21、0.26 和 0.11 头猪的加性效应,IGFBP1 基因在产仔数>1 和死胎>1 中的加性效应分别为 0.21、0.26 和 0.11 头猪。IGFBP2 基因内 SNP 的加性效应分别为 0.16、0.09 和 0.09 头猪,用于产仔数>1 和死胎>1 中的产仔数。最后,IGFBP5 基因对第一胎产仔数、产仔数>1 的死胎和第一胎产仔至断奶的死亡率有 0.18、0.07 和 0.07 头猪的加性效应。这些结果支持候选基因方法用于鉴定标记以提高母猪繁殖性能的适用性,并为标记辅助选择提供潜在标记。
