| 215 | 4 | 118 |
| 下载次数 | 被引频次 | 阅读次数 |
动物体脂沉积具有明显的时空变化特征,且与其肉品质性状密切相关。新疆褐牛是我国著名的肉乳兼用培育品种,但与国外优良肉牛品种相比,其脂代谢相关肉品质性状的生长发育变化以及其相关调控基因的表达变化缺乏系统研究。本研究以相同饲养条件下安格斯肉牛和新疆褐牛3月龄公犊为对象,对其屠宰性状、不同脂肪组织形态测量指标、背最长肌和脂肪组织中脂肪酸合成酶(FASN)、脂肪酸结合蛋白4(FABP4)、激素敏感脂酶(HSL)、脂蛋白脂酶(LPL)和瘦素(LEP)基因的m RNA及其蛋白表达以及血清中其激素水平进行了测定。以期为后续的品种比较研究提供早期生长发育变化基础。结果为:(1)安格斯公犊肉骨比极显著高于新疆褐牛(p<0.01),而肋脂厚和眼肌面积显著小于新疆褐牛(p<0.05)。(2)安格斯肉牛心周脂肪和网膜脂肪组织中的脂肪细胞面积/单位面积脂肪细胞数量之比显著高于新疆褐牛(p<0.05)。(3)在背最长肌和肾周脂肪中安格斯牛的FASN基因mRNA表达量均呈现出显著(p<0.05)和极显著(p<0.01)低于新疆褐牛的一致性变化;而在心周脂肪中则呈现安格斯公犊极显著高于新疆褐牛的相反变化(p<0.01)。此外,在心周脂肪中安格斯牛的LEP和LPL基因的m RNA表达量极显著(p<0.01)和显著(p<0.05)高于新疆褐牛,而在肾周脂肪中安格斯牛的LPL、HSL和FABP4基因的mRNA表达量均极显著低于新疆褐牛(p<0.01)。在心周脂肪组织和肾周脂肪中安格斯牛的LPL蛋白表达量极显著(p<0.01)和显著(p<0.05)高于新疆褐牛;(4)安格斯公犊血清5种激素浓度均显著(p<0.05)或极显著(p<0.01)低于新疆褐牛。除LEP外,该结果与肾周脂肪中其余4种激素编码基因的mRNA相对表达量变化一致。本研究结果表明,三月龄新疆褐牛体脂沉积能力大于安格斯牛,而产肉率有低于安格斯牛的趋势。体脂代谢相关基因及其蛋白表达的品种间差异主要体现在背最长肌、肾周、心周脂肪等组织。
Abstract:Fat deposition in animals has significant spatial-temporal features and is closely associated with the meat quality traits. Xinjiang brown cattle was one of famous cattle breeds with dual-purpose of meat and milk bred in China, whereas the development of the fat metabolism related meat quality traits and the expression of their regulating genes in Xinjiang brown cattle are not well elucidated in the comparison with those famous foreign beef cattle breeds. In this paper the slaughtering traits and the expression of some fat metabolism related meat quality control genes, i.e., fatty acid syntheses(FASN), fatty acid-binding protein 4(FABP4), hormone-sensitive lipase(HSL),lipoprotein lipase(LPL) and leptin(LEP) mRNA, and their products were compared between 3 month old Angus and Xinjiang brown cattle calves to lay a foundation for the early growth and development of the subsequent comparison between breeds. The results were as follows:(1) The ratio of meat/bone in Angus was extremely high than that of Xinjiang brown cattle(p<0.01), whereas the thickness of rib fat and the eye muscle area in Angus were significantly smaller than those of Xinjiang brown cattle(p<0.05);(2) The ratio of adipocyte area/number of adipocyte per unit in the pericardial and omental adipose tissue of Angus was significantly higher than that of Xinjiang brown cattle(p<0.05);(3) The expression of FASN gene's mRNA in longissimus muscle and perirenal adipose tissue of Angus was significantly and extremely lower than those of Xinjiang brown cattle, while in the pericardial adipose tissue of Angus it was extremely higher than that of Xinjiang brown cattle(p<0.01). In addition the expression of LEP and LPL genes m RNA in the pericardial adipose tissue of Angus was extremely and significantly higher than those of Xinjiang brown cattle, but the expression of LPL, HSL and FABP4 genes' mRNA in the perirenal adipose tissue was extremely lower than those of Xinjiang brown cattle(p<0.01). The expression of LPL protein in the pericardial and perirenal adipose tissues of Angus was extremely(p<0.01) and significantly(p<0.05) higher than those of Xinjiang brown cattle;(4) Five blood hormones of Angus were significantly lower than those of Xinjiang brown cattle, which was consistent with the expression of their encoding genes' m RNA except for LEP. It is indicated that the meat productivity in Angus is higher than that of Xinjiang brown cattle, whereas the fat deposition is lower than that of Xinjiang brown cattle. The breed differences in terms of fat metabolism related mea quality control genes expression is mainly reflected in the longissimus muscle, perirenal and pericardial adipose tissues.
Albrecht E.,Gotoh T.,Ebara F.,Xu J.X.,Viergutz T.,Nurnberg G.,Maak S.,and Wegner J.,2011,Cellular conditions for intramuscular fat deposition in Japanese Black and Holstein steers,Meat Science,89(1):13-20
Berg E.P.,Mcfadin E.L.,Maddock K.R.,Goodwin R.N.,Baas T.J.,and Keisler D.H.,2003,Serum concentrations of leptin in six genetic lines of swine and relationship with growth and carcass characteristics,J.Animal Sci.,81(1):167-171
Bonnet M.,Faulconnier Y.,Hocqutte J.F.,Bocquier F.,Leroux C.,Martin P.,and Chilliard Y.,2004,Nutritional status induces divergent variations of GLUT4 protein content,but not lipoprotein lipase activity,between adipose tissues and muscles in adult cattle,Br J.Nutr.,92(4):617-625
Deiuliis J.J.,Shin M.L.,Eastridge Y.,Sun K.L.,2010,Bovine adipose triglyceride lipase is not altered and adipocyte fatty acid-binding protein is increased by dietary flaxseed,Lipids,45(11):963-973
Delavaud C.,Ferlay A.,Faulconnier Y.,Bocquier F.,Kann G.,and Chilliard Y.,2002,Plasma leptin concentration in adult cattle:Effects of breed,adiposity,feeding level and meal intake,J.Animal Sci.,80(5):1317-1328
Du M.,Huang Y.,Das A.K.,Yang Q.,Duarte M.S.,Dodson M.V.,and Zhu M.J.,2013,Meat science and muscle biology symposium:Manipulating mesenchymal progenitor cell differentiation to optimize performance and carcass value of beef cattle,Journal of animal science,91(3):1419-1427
Frank D.,Ball A.,Hughes J.,Krishnamurthy R.,Piyasiri U.,Stark J.,Watkins P.,and Warner R.,2016,Sensory and flavor chemistry characteristics of Australian beef:Influence of intramuscular fat,feed and breed,J.Agr.Food Chem.,64(21):4299-4311
Guo J.Q.,Zhou J.H.,Liu L.Y.,Ma N.T.,Zeng L.,Re X.T.,and Huang X.X.,2017,Analysis of growth and development patterns in Xinjiang Brown Cattle,Xumu Yu Shouyi(Animal Husbandry&Veterinary Medicine),49(2):10-14(郭俊清,周靖航,刘丽元,马那提·哈山,曾黎,热西提·阿不都热依木,黄锡霞,2017,新疆褐牛生长发育规律分析,畜牧与兽医,49(2):10-14)
Guo T.J.,Zang C.J.,Wang L.Q.,He Z.L.,Sang D.J.,Shao W.,and Yu X.,2016,The influence of castration on serum fat metabolism of simmental cattle,Jiaxu Shengtai Xuebao(Acta Ecologiae Animalis Domastici),37(3):39-42,54(郭同军,臧长江,王连群,何宗霖,桑断疾,邵伟,余雄,2016,去势对西门塔尔牛血清脂肪代谢的影响,家畜生态学报,37(3):39-42,54)
Huang Y.X.,and Yang L.Y.,2010,Progress on lipoprotein lipase,Dongwu Yixue Jinzhang(Progress in Veterinary Medicine),31(3):86-89(黄英俏,杨连玉,2010,脂蛋白脂酶研究进展,动物医学进展,31(3):86-89)
Kramer L.M.,Abdel-Ghaffar M.A.,Koltes J.E.,Fritz-Waters E.R.,Mayes M.S.,Swell A.D.,Weeks N.T.,Garrick D.J.,Fernando R.L.,Ma L.,and Reecy M.J.,2016,Epistatic interactions associated with fatty acid concentrations of beef from Angus sired beef cattle,BMC Genomics,17(1):891
Li N.,Li H.B.,Yan X.M.,Du W.,Zhang J.S.,Yuan L.X.,Zhang Y.,and Yao G.,2016,Correlation between four metabolismrelated genes in different adipose tissues and adipocyte morphology in Xinjiang brown cattle,Int.J.Clin.Exp.Med.,9(3):5912-5921
Li N.,Li H.B.,Yan X.M.,Zhang J.S.,Zhou Z.Y.,Yao G.,and Zhang Y.,2013,Comparative analysis of the slaughter performance and beef quality between Xinjiang brown cattle and other dual purpose cattle,Xinjiang Nongye Kexue(Xinjiang Agricultural Sciences),50(12):2317-2324(李娜,李红波,闫向民,张金山,周振勇,姚刚,张杨,2013,新疆褐牛与其他三个乳肉兼用牛屠宰性能和肉品质的比较研究,新疆农业科学,50(12):2317-2324)
Lucio F.M.M.,Cristina M.B.,Pamela A.A.,Miguel H.S.,Francisco J.N.,Erika T.,Aldrin V.P.,Saulo L.S.,Paulo R.L.,Jose B.S.F.,and Heidge F.,2017,Circulating leptin and its muscle gene expression in Nellore cattle with divergent feed efficiency,Animal Sci.Biotechnol.,8(1):71
Martins T.S.,Sanglard L.M.P.,Silva W.,Chizzotti M.L.,Renno L.N.,Serao N.V.L.,Silva F.F.,Guimaraes S.E.F.,Ladeira M.M.,Dodson M.V.,Du M.,and Duarte M.S.,2015,Molecular factors underlying the deposition of intramuscular fat and collagen in skeletal muscle of nellore and Angus cattle,PLoS One,10(10):e0139943
Qiao Y.,Huang Z.G.,Li Q.F.,Liu Z.S.,Hao C.L.,Shi G.Q.,Dai R.,and Xie Z.,2007,Developmental changes of the FASand HSL m RNA expression and their effects on the content of intramuscular fat in kazak and Xinjiang sheep,J.Gene.Genomics,34(10):909-917
Qu G.J.,Dong X.Q.,Meng K.Y.,Yang L.Y.,Ding S.H.,and Qin G.X.,2016,FAS m RNA expression of different hybridized combination beef cattle and its effect on intramuscular fat deposition,Zhongguo Shouyi Xuebao(Chinese Journal of Veterinary Science),36(7):1183-1185,1211(曲桂娟,董晓庆,孟轲音,杨连玉,丁尚红,秦贵信,2016,不同杂交组合肉牛背最长肌FAS m RNA表达及其对肌内脂肪沉积的影响,中国兽医学报,36(7):1183-1185,1211)
Rafael T.S.R.,Souza R.,Mario L.C.,Camilo E.V.,Maria C.B.,Edvaldo B.,Karina C.B.,Rafael A.G.,Marcio M.L.,and Taiane S.M.,2017,Differences in beef quality between Angus(Bos taurus taurus)and Nellore(Bos taurus indicus)cattle through a proteomic and phosphoproteomic approach,PLoSOne,12(1):e0170294
Ren M.Q.,Wegner J.,Bellmann O.,Brockmann G.A.,Schneider F.,Teuscher F.,and Ender K.,2003,Comparing m RNA levels of genes encoding leptin,leptin receptor,and lipoprotein lipase between dairy and beef cattle,Domestic Animal Endocrinol.,23(3):371-381
Voge J.L.,Santiago C.A.T.,Aad P.Y.,Goad D.W.,and Malayer J.R.,2004,Quantification of insulin-like growth factor binding protein m RNA using real-time PCR in bovine granulosa and theca cells:Effect of estradiol,insulin,and gonadotropins,Domestic Animal Endocrinol.,26(3):241-258
Wang G.F.,Wu H.G.,Zhao X.H.,Ji S.C.,Wu H.J.,Wang D.S.,Liu S.M.,and Gao X.S.,2010,Comparative study on some carcass traits in Angus,hereford and Chinese simmental cat tles,Nengmenggu Minzu Daxue Xuebao(Journal of Inner Mongolia University for Nationalities),25(5):535-537(王国富,吴慧光,赵新海,季守财,吴红君,王东升,刘胜敏,高树新,2010,安格斯牛、海福特牛和中国西门塔尔牛的部分胴体性状比较分析,内蒙古民族大学学报,25(5):535-537)
基本信息:
DOI:10.13417/j.gab.039.001579
中图分类号:S823
引用信息:
[1]冯亮,张永鹏,王金泉,等.新疆褐牛和安格斯牛公犊脂代谢相关肉品质性状的比较[J].基因组学与应用生物学,2020,39(04):1579-1587.DOI:10.13417/j.gab.039.001579.
基金信息:
国家自然科学基金(项目编号31460647);; 新疆自治区重点研发计划项目(项目编号2017B01001-2)共同资助
2020-04-25
2020-04-25