<em>LEPR</em>基因InDel检测及其与同羊尾脂和生长性状关联分析

doi:10.3969/j.issn.1674-7968.2021.06.012

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (2184 KB) HTML (0 KB)
输出: BibTeX | EndNote (RIS)

摘要同羊是我国著名的肉毛兼用脂尾半细毛地方绵羊(Ovis aries)品种,脂肪组织是储存能量、为机体供应能量的器官,可分泌瘦素(leptin, LEP)、瘦素受体(leptin receptor, LEPR)和炎症因子等。脂肪细胞因子信号通路(adipocytokine)中LEP和LEPR基因可以协同调节脂肪沉积和能量代谢。本研究为了验证LEPR基因的插入/缺失 (insertion/deletion, InDels)变异,对同羊尾脂性状及生长性状的影响,通过Ensemble数据库筛选LEPR基因的InDel (插入/缺失)位点,根据数据库中筛选的InDels位点所在的序列设计引物,鉴定并分析了166只同羊健康个体。关联分析表明：LEPR基因17 bp InDel多态位点对同羊尾宽与尾长性状的影响均不显著(P>0.05),说明该位点对尾脂性状影响较小;该位点DD基因型公羊的胸深相对于ID基因型是显著升高的(P>0.05),在公羊体高、背高和荐高等生长性状上,DD基因型显著高于II基因型(P<0.05),该InDel位点II基因型母羊腰角宽显著高于DD基因型(P<0.05),表明该位点对部分生长性状有显著影响。以上结果为LEPR基因在同羊尾型的选育以及同羊的选种选育提供了理论依据,为同羊遗传育种改良提供重要参考。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	易晓华
	刘世荣
	张宇
	潘赟
	袁婷婷
	孙秀柱

关键词 ：瘦素受体(LEPR), 同羊, 插入/缺失 (InDels), 尾脂, 生长性状

Abstract：Tong sheep is a well-known local sheep (Ovis aries) with fat tail and semi-fine wool for both meat and wool. Adipose tissue is an organ that stores energy and supplies energy to the body. Adipose tissue could secrete leptin (LEP), leptin receptor (LEPR), inflammatory factors and so on.. The LEP and LEPR genes in the adipocytokine signaling pathway can coordinately regulate fat deposition and energy metabolism. In this study, in order to verify the insertion/deletion (InDels) variation of the LEPR gene and its influence on the fat traits and growth traits of the sheep tail, InDel locus of the LEPR gene was screened through the Ensemble database, and primers were designed according to the sequence of Indels locus screened in the database. 166 healthy individuals of Tong sheep were identified and analyzed. Association analysis showed that the 17 bp InDel polymorphism of LEPR gene had no significant effect on tail width and tail length traits of the same sheep (P>0.05), indicating that this locus had little effect on tail fat traits; The breast depth of DD genotype at this locus was significantly higher than that of ID genotype (P>0.05). The DD genotype was significantly higher than that of the II genotype in the growth traits of ram body height, back height and recommended height (P<0.05). The ewe waist width of the II genotype at InDel locus was the significantly higher than that of the DD genotype (P<0.05), indicating that this locus had a significant impact on some growth traits. These results provide a theoretical basis for the selection of the LEPR gene in tail type of Tong sheep and the selection and breeding of the Tong sheep, and provide an important reference for the genetic breeding and improvement of the Tong sheep.

Key words： Leptin receptor (LEPR) Tong sheep Insertion/deletion (InDels) Tail fat Growth traits

收稿日期: 2020-05-29

ZTFLH:

S813.3

基金资助:农业农村部“农牧交错带牛羊牧繁农育关键技术集成示范项目”(16190050-10); 陕西省重点研发计划(2018ZDXM-NY-040)

通讯作者: *sunxiuzhu208@163.com

引用本文:

易晓华, 刘世荣, 张宇, 潘赟, 袁婷婷, 孙秀柱. LEPR基因InDel检测及其与同羊尾脂和生长性状关联分析[J]. 农业生物技术学报, 2021, 29(6): 1142-1149.
YI Xiao-Hua, LIU Shi-Rong, ZHANG Yu, PAN Yun, YUAN Ting-Ting, SUN Xiu-Zhu. InDel Detection of LEPR Gene and Its Association Analysis with Tail Fat and Growth Traits of Tong Sheep (Ovis aries). 农业生物技术学报, 2021, 29(6): 1142-1149.

链接本文:

http://journal05.magtech.org.cn/Jwk_ny/CN/10.3969/j.issn.1674-7968.2021.06.012 或 http://journal05.magtech.org.cn/Jwk_ny/CN/Y2021/V29/I6/1142

[1] 代立霞, 周世卫, 田崇奇, 等. 2017. 不同日粮对滩羊尾部脂肪沉积及Leptin、GLUT4基因表达的影响[J]. 家畜生态学报, 38(1): 13-19.
(Dai L X, Zhou S W, Tian C Q, et al.2017. Effects of different diets on tail-fat depositions and expressions of leptinand GLUT4 Genes of Tan Sheep[J]. Journal of Domestic Animal Ecology. 38(1): 13-19.)
[2] 刘宝凤, 周沙沙, 王景霖, 等. 2013. Lep和LEPR基因在不同脂尾型绵羊脂肪组织中的mRNA表达研究[J]. 畜牧兽医学报, 44(7): 1014-1022.
(Liu B F, Zhou S S, Wang J L, et al.2013. Differential expression of lepand LEPR mRNA in adipose tissues of sheep with divergent fat-tails[J]. Chinese Journal of Animal and Veterinary Sciences. 44(7): 1014-1022.)
[3] 刘晓妍, 冯雪, 朱锐锐, 等. 2020. ZICI、UCP1、LEP基因在成年水牛和黄牛肌肉和脂肪组织中的表达模式比较[J].中国畜牧杂志, 56(04): 45-50.
(Liu X Y, Feng X, Zhu R R, et al.2020. Expression profile comparison of three adipocyte markers between muscle and adipose tissues in buffalo and cattle[J]. Chinese Journal of Animal Science. 56(04): 45-50.)
[4] 鲁红云, 孙辽, 舒晓春, 等. 2008. 瘦素受体基因多态性与2型糖尿病合并非酒精性脂肪肝的关系[J]. 中国医师杂志, 010(005): 584-586.
( Lu H Y, Sun L, Shu X C, et al.2008. Relationship between leptin receptor gene polymorphism and type 2 diabetes with non-alcoholic fatty liver[J]. Journal of Chinese Physician. 010(005) :584-586.)
[5] 马丽娜, 于洋. 2017. 滩羊肥胖基因(OB)TaqMan探针SNP分型研究[J].黑龙江畜牧兽医,(24): 71-72+292-293.
(Ma L N, Yu Y.2017. Study on SNP typing of TaqMan probe of Tan sheep obesity gene (OB)[J]. Heilongjiang Animal Science and Veterinary Medicine (24), 71-72+292-293.)
[6] 杨朝霞, 马章全, 杨晓明. 2012. 同羊保种与利用的新思考[J]. 家畜生态学报, 33(03): 107-109.
Yang Z X, Ma Z Q, Yang X M, et al.2012. New thinking on conservation and utilization of Tong sheep[J]. Acta Ecologiae Animalis Domastici. 33(03): 107-109.
[7] 叶鼎承, 杨建敏, 甘乾福, 等. 2016. 槐猪和杜洛克猪瘦素及其受体基因的差异表达研究[J]. 中国农学通报, 32(29): 4-10.
(Ye D C, Yang J M, Gan Q F, et al.2016. Expression comparison of leptin gene and leptin receptor gene in Huai Pig and Duroc Pig[J]. Chinese Agricultural Science Bulletin. 32(29): 4-10.)
[8] 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: 314-331.
[9] Avilés C, Polvillo O, Peña F, et al.2013. Associations between DGAT1, FABP4, LEP, RORC, and SCD1 gene polymorphisms and fat deposition in Spanish commercial beef[J]. Journal of Animal Science, 91(10): 4571-4577.
[10] Ge J F., Qi C C., Zhou J N.2013. Imbalance of leptin pathway and hypothalamus synaptic plasticity markers are associated with stress-induced depression in rats[J]. Behavioural brain research, 249, 38-43.
[11] Gilbert R P, Bailey D R, Shannon N H.1993. Body dimensions and carcass measurements of cattle selected for postweaning gain fed two different diets[J]. Journal of animal science. 71(7): 1688-1698.
[12] Haissaguerre M, Ferriere A, Simon V, et al.2018. mTORC1-dependent increase in oxidative metabolism in POMC neurons regulates food intake and action of leptin[J]. Molecular Metabolism. 12: 98-106.
[13] Haldar A, French M C, Brauning R, et al.2014. Single-Nucleotide polymorphisms in the LEPR gene are associated with divergent phenotypes for age at onset of puberty in davisdale ewes[J]. Biology of Reproduction, 90(2): 33-33.
[14] He Y, Ding Y, Liang B, et al.2017. A systematic study of dysregulated microRNA in type 2 diabetes mellitus[J]. International journal of molecular sciences. 18(3).
[15] Huvenne, H, Le Beyec, J, Pépin, D, et al.2015. Seven novel deleterious LEPR mutations found in early-onset obesity: a ΔExon6-8 shared by subjects from Reunion Island, France, suggests a founder effect[J]. The Journal of clinical endocrinology and metabolism, 100(5), E757-E766.
[16] Kim J M, Park J E, Lee S W, et al.2017. Association of polymorphisms in the 5′ regulatory region of LEPR gene with meat quality traits in Berkshire pigs[J]. Animal Genetics, 48(6): 723-724.
[17] Klinkenberg E, Onwona-Agyeman K A, McCall P J, et al.2010. Cohort trial reveals community impact of insecticide-treated nets on malariometric indices in urban Ghana[J]. Transactions of the Royal Society of Tropical Medicine and Hygiene. 104(7): 496-503.
[18] Lee S, Ng KL, Kwok K, et al.2010. The changing profile of eating disorders at a tertiary psychiatric clinic in Hong Kong (1987-2007)[J]. The International journal of eating disorders, 43(4), 307-314.
[19] Mackowski M, Szymoniak K, Szydlowski M, et al.2005. Missense mutations in exon 4 of the porcine LEPR gene encoding extracellular domain and their association with fatness traits[J]. Animal Genetics, 36(2): 135-137.
[20] Maffei, M, Halaas, J, Ravussin, E, et al.1995. Leptin levels in human and rodent: measurement of plasma leptin and ob RNA in obese and weight-reduced subjects[J]. Nature medicine, 1(11): 1155-1161.
[21] Magdalena S N, Katarzyna R K, Katarzyna P, et al.2016. Changes in body weight and fatness of sows during reproductive activity depending on LEPR and MC4R genes polymorphism[J]. Livestock Science, 192: 25-32.
[22] Mammes O, Aubert R, Betoulle D, et al.2001. LEPR gene polymorphisms: Associations with overweight, fat mass and response to diet in women[J]. European journal of clinical investigation. 31(5): 398-404.
[23] Mastrangelo S, Sottile G, Sutera A M, et al.2018. Genome-wide association study reveals the locus responsible for microtia in Valle del Belice sheep breed[J]. Animal Genetics, 49(6): 636-640.
[24] Moradi M H, Nejati-Javaremi A, Moradi-Shahrbabak M, et al.2012. Genomic scan of selective sweeps in thin and fat tail sheep breeds for identifying of candidate regions associated with fat deposition[J]. BMC Genetics. 13: 10.
[25] Morton G J, Cummings D E, Baskin D G.2006. Central nervous system control of food intake and body weight[J]. Nature, 443: 289-295.
[26] Ros-Freixedes R, Gol S, Pena R N.2016. Genome-wide association study singles out SCD and LEPR as the two main loci influencing intramuscular fat content and fatty acid composition in Duroc Pigs[J]. PlOS ONE, 11: 3.
[27] Saeed S, Bonnefond A, Manzoor J, et al.2014. Novel LEPR mutations in obese Pakistani children identified by PCR‐based enrichment and next generation sequencing[J]. Obesity, 2014, 22(4).
[28] Schaab M., Kratzsch J.2015. The soluble leptin receptor. Best practice & research[J]. Clinical Endocrinology & Metabolism, 29(5): 661-670.
[29] Shi Y Y, He L.2005. SHEsis, a powerful software platform for analyses of linkage disequilibrium, haplotype construction, and genetic association at polymorphism loci[J]. Cell Research, 15(2): 97-98.
[30] Trayhurn P.2013. Hypoxia and adipose tissue function and dysfunction in obesity[J]. Physiological Reviews, 93(1): 1-21.
[31] Waaddegaard M., Davidsen M., Kjøller M.2009. Obesity and prevalence of risk behaviour for eating disorders among young Danish women[J]. Scandinavian Journal of Public Health, 37(7): 736-743.
[32] Wei S, Zan L S, Wang H B, et al.2013. Adenovirus-mediated interference of FABP4 regulates mRNA expression of ADIPOQ, LEP and LEPR in bovine adipocytes[J]. Genetics and Molecular Research. 12(1): 494-505.
[33] Yuan Z, Liu E, Liu Z, et al.2017. Selection signature analysis reveals genes associated with tail type in Chinese indigenous sheep[J]. Animal Genetics, 48(1): 55-66.
[34] Yue Y, Cheng X, Zhao S G, et al.2016. Effects of tail docking on the expression of genes related to lipid metabolism in Lanzhou fat-tailed sheep[J]. Genetics & Molecular Research, 15(1), DOI: https://doi.org/10.4238/gmr.15017323.
[35] Zhao M, Li X M, Qu H.2013. EDdb: A web resource for eating disorder and its application to identify an extended adipocytokine signaling pathway related to eating disorder[J]. Science China Life sciences, 56(12): 1086-1096.
[36] Zorena K, Jachimowicz-Duda O, Ślęzak D, et al.2020. Adipokines and obesity. Potential link to metabolic disorders and chronic complications[J]. International journal of molecular sciences, 21(10): 3570.