Abstract:The current study aimed at analyzing gene expression of tyrosine kinase A(TrkA) gene and SNPs as well as their association with litter size in sheep (Ovis aries), and thus to offer a reference data for the candidate gene research of reproduction trait in sheep. Therefore, the qRT-PCR was conducted to investigate the expression patterns of TrkA gene in heart, liver, spleen, lung, kidney, rumen, duodenum, longissimus dorsi muscle, fat, hypothalamus, pituitary and ovarian tissues of Hu sheep, and DNA pooling sequencing and restriction fragment length polymorphism (RFLP) were carried out to screen SNPs and their association with litter size in sheep population of Hu sheep (n=526) and Small tail han sheep (n=437). The results revealed that TrkA gene showed the highest expression in ovary, lung and liver which was significantly higher (P<0.05) than that in spleen, kidney, rumen, duodenum, longissimus dorsi muscle, fat, hypothalamus, pituitary tissues of Hu sheep, and the expression in heart was in the middle expression level. The lowest expression level was observed in spleen, kidney, rumen, duodenum, longissimus dorsi muscle, fat, hypothalamus, pituitary. According to DNA pooling sequencing and RFLP technologies, 2 polymorphisms, NC_019458.2:g.105281586C>T and NC_019458.2:g.105284248G>C were identified in intron 9 and intron 14 of TrkA gene, respectively. In NC_019458.2: g.105281586C>T locus, 3 genotypes, CC, CT and TT were found in both Hu sheep and Small tail han sheep. CT was the dominant genotype, and C was the dominant allele. In addition, the homozygosity (Ho), heterozygosity (He), effective allele number (Ne), polymorphic information content (PIC) for Hu sheep were 0.50, 0.50, 1.99 and 0.37, respectively, and were 0.49, 0.51, 1.95 and 0.37 for Small tail han sheep, respectively. The χ2 test indicated that Small tail han sheep population deviated Hardy-Weinberg equilibrium, while Hu sheep was in Hardy-Weinberg equilibrium. Same as NC_019458.2:g.105281586C>T locus, 3 genotypes, GG, GC and CC were identified in NC_019458.2:g.105284248G>C locus in both Hu sheep and Small tail han sheep. Of which, GC was the dominant genotype, and C was the dominant allele. The Ho, He, Ne, PIC for Hu sheep were 0.50, 0.50, 2.00 and 0.37, respectively, and were 0.49, 0.51, 1.96 and 0.37 for Small tail han sheep, respectively. In contrast, the χ2 test indicated that Hu sheep population deviated Hardy-Weinberg equilibrium, while Small tail Han sheep population was in Hardy-Weinberg equilibrium. The association analysis of polymorphisms in TrkA gene with litter size revealed that NC_019458.2: g.105281586C>T was significantly correlated with litter size in Hu and Small tail Han sheep (P<0.05), and NC_019458.2:g.105284248G>C was significantly associated with litter size in Hu sheep (P<0.05). In summary, this study indicated that expression of TrkA gene in ovary and lung was higher than remaining tissues in addition to liver. SNPs of TrkA gene associated with litter size in sheep could be used as a candidate gene for litter size selection of sheep at early stage of growth. This study provides a scientific basis for searching molecular markers associated with reproductive traits, and setting breeding strategies, as well as improving the production performance of sheep.
Bjorling, D. E., Beckman, M., Clayton, M. K., et al. 2002. Modulation of nerve growth factor in peripheral organs by estrogen and progesterone[J]. Neuroscience, 110(1): 155-167.Botstein, D., White, R. L., Skolnick, M., et al. 1980. Construction of a genetic-linkage map in man using restriction fragment length polymorphisms[J]. American Journal of Human Genetics, 32(3): 314-331.Dissen G. A., Hirshfield A.N., Malamed S.,et al. 1995. Expression of neurotrophins and their receptors in the mammalian ovary is developmentally regulated: changes at the time of folliculogenesis[J]. Endocrinology, 136: 4681–4692. Dissen, G. A., Hill, D. F., Costa, M. E., et al. 1996. A role for TrkA nerve growth factor receptors in mammalian ovulation[J]. Endocrinology, 137(1): 198-209.Dissen, G. A., Parrott, J. A., Skinner, M. K., et al. 2000. Direct effects of nerve growth factor on thecal cells from antral ovarian follicles[J]. Endocrinology, 141(12): 4736-4750.Dissen, G. A., Romero, C., Hirshfield, A. N., et al. 2001. Nerve growth factor is required for early follicular development in the mammalian ovary[J]. Endocrinology, 142(5): 2078-2086.Dissen, G. A., Garcia-Rudaz, C., & Ojeda, S. R. 2009. Role of neurotrophic factors in early ovarian development[J]. Semin Reprod Med, 27(1): 24-31.Hempstead, B. L., Martinzanca, D., Kaplan, D. R., et al. 1991. High-affinity NGF binding requires coexpression of the trk protooncogene and the low-affinity NGF receptor[J]. Nature, 350(6320): 678-683.Jana, B., Koszykowska, M., & Czarzasta, J. 2011. Expression of nerve growth factor and its receptors, TrkA and p75, in porcine ovaries[J]. Journal of Reproduction and Development, 57(4): 468-474.Levanti M. B., Germaná A., Abbate F., et al. 2005. TrkA and p75 NTK in the ovary of adult cow and pig[J]. Anat, 207: 93–96.Li, C., Watanabe, G., Weng, Q., et al. 2005. Expression of nerve growth factor (NGF), and its receptors TrkA and p75 in the reproductive organs of the adult male rats[J]. Zoological science, 22(8): 933-937.Mattioli, M., Barboni, B., Gioia, L., et al. 1999. Nerve growth factor production in sheep antral follicles[J]. Domest Anim Endocrinol, 17(4): 361-371.Ojeda, S. R., Paredes, A., Romero, C., et al. 2004. Neurotrophic control of ovarian development[J]. Proceedings of the 12th International Congress of Endocrinology: 307-310.REN, L., Medan, M. S., WENG, Q., et al. 2005. Immunolocalization of nerve growth factor (NGF) and its receptors (TrkA and p75lNGFR) in the reproductive organs of shiba goats[J]. Journal of Reproduction and Development, 51(3): 399-404.Sambrook, J., & Russell, D. 2001. Molecular cloning: A laboratory manual . 2001: Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York.Shi Z., Jin W., Watanabe G., et al. 2004.Expression of nerve growth factor (NGF) and its receptors trkA and p75 in ovaries of the cyclic golden hamster (Mesocricetus auratus) and the regulation of their production by luteinizing hormone[J]. J Reprod Dev, 50: 605–611.Toni, T., Dua, P., & van der Graaf, P. H. 2014. Systems pharmacology of the NGF signaling through p75 and TrkA receptors[J]. CPT Pharmacometrics Syst Pharmacol, 3: e150.Vera, C., Tapia, V., Vega, M., et al. 2014. Role of nerve growth factor and its TrkA receptor in normal ovarian and epithelial ovarian cancer angiogenesis[J]. Journal of Ovarian Research, 7.Zhang, H., Wang, Y., Zhang, J., et al. 2015. Testicular expression of NGF, TrkA and p75 during seasonal spermatogenesis of the wild ground squirrel (citellus dauricus brandt)[J]. Eur J Histochem, 59(3): 2522.王利国. 2003.动物繁殖学[D].中国农业出版社.北京.(Wang L G. 2003.Animal Reproduction[D].Chinese Agriculture Press.Beijing.)刘荣. 2014. 蒙古羊多羔性状候选基因ADAMTS1的遗传效应分析[J].现代农业.(4): 77-79.(Liu R. 2014.Genetic Effect amalysis of lambing candidate gene ADAMTS1 in Mongolian sheep[J]. Modem Agriculture.(4): 77-79.)马永和, 孙永峰, 李纯锦,等. 2010. 神经生长因子受体TrkA在母牛性腺及性腺外生殖器官中的表达研究[J].吉林农业大学学报, 32(3): 330-334.(Ma Y H, Sun Y F, Li C M. 2010.The study of nerve growth factor receptor TrkA expression in sexual gland and other reproductive organ[J]. Journal of Jilin Agriculture Univercity. 32(3): 330-334.)