Analysis of Meat Quality， Nutritional Components and Expression Characteristics of Meat Quality-related Genes in Tibetan Sheep at Different Altitudes

doi:10.13304/j.nykjdb.2022.0385

Abstract

Abstract:

In order to study the difference of meat quality and the expression characteristics of meat quality-related genes in Tibetan sheep at different altitudes， the meat quality and nutritional components of longissimus dorsi， triceps brachii and biceps femoris of Tibetan sheep at altitude 2 500， 3 500 and 4 500 m were determined， and the expression levels of meat-related genes （H-FABP， LPL， MC4R and CAST） were determined and their correlations were analyzed. The results showed that the Tibetan sheep meat of low altitude had lower shearing force， lower water loss rate， higher tenderness and better taste， especially longissimus dorsi was better than the other 2 parts. The Tibetan sheep meat of high altitude had higher cooked meat rate and higher meat yield. The contents of mineral and crude protein in high altitude Tibetan sheep meat were higher， while the low altitude Tibetan sheep meat was more succulent. Compared with the two leg muscles， the longissimus dorsi had better taste. The expression levels of genes related to meat quality were differences among different altitudes. Among them， H-FABP had the highest expression levels in different muscles at mid-altitude， and LPL， MC4R and CAST had the highest expression levels in biceps femoris of Tibetan sheep at low altitude， and was higher in the longissimus dorsi of Tibetan sheep at middle and high altitude. The correlation analysis showed that the expression levels of H-FABP， LPL， MC4R and CAST genes were significantly correlated with cooked meat rate， shear stress， water loss rate， ash， crude fat， crude protein and dry matter in Tibetan sheep. It showed that the meat quality and nutritional components of Tibetan sheep at different altitudes were different， and the expression levels of meat-related genes in different parts were also different， which affected the meat quality of Tibetan sheep. Above results provided basis for meat selection and genetic improvement of Tibetan sheep at different altitudes.

Key words: Tibetan sheep, different altitude, meat quality, nutritional composition, gene expression

摘要：

为探究不同海拔藏绵羊肉品质差异及肉质相关基因的表达特征，以来自海拔2 500、3 500和4 500 m藏绵羊为研究对象，对其背最长肌、臂三头肌和股二头肌的肉品质及营养成分进行测定，并对背最长肌和股二头肌肉质相关基因（H-FABP、LPL、MC4R和CAST）的表达量进行测定及相关性分析。结果表明，在肉品质方面，低海拔藏绵羊肉的剪切力小、失水率低、嫩度高、口感更好，尤其背最长肌要优于其他2个部位，而高海拔藏绵羊的熟肉率和出肉率更高；在营养物质方面，高海拔藏绵羊肉的无机盐、粗蛋白含量较高，更具营养价值，但低海拔藏绵羊肉的多汁性好，且背最长肌的口感、营养成分均好于腿肌。肉质相关基因的表达量在不同海拔间存在差异，其中，H-FABP在中海拔藏绵羊各部位肌肉中的表达量均最高；LPL、MC4R、CAST在低海拔藏绵羊股二头肌中的表达量均最高，在中、高海拔藏绵羊背最长肌中的表达量较高。相关分析表明，H-FABP、LPL、MC4R、CAST基因的表达量与藏绵羊的熟肉率、剪切力、失水率及灰分、粗脂肪、粗蛋白、干物质含量显著相关。由此可见，不同海拔藏绵羊的肉质、营养成分均存在较大差异，且不同部位中肉质相关基因的表达量也存在差异，从而影响藏绵羊的肉质。以上结果为不同海拔藏绵羊的肉品选择及遗传改良提供基础。

关键词: 藏绵羊, 不同海拔, 肉品质, 营养成分, 基因表达

CLC Number:

S826.8+3

Liangwei YAO, Yuzhu SHA, Xinyu GUO, Xiaoning PU, Ying XU, Jiqing WANG, Shaobin LI, Zhiyun HAO, Xiu LIU. Analysis of Meat Quality， Nutritional Components and Expression Characteristics of Meat Quality-related Genes in Tibetan Sheep at Different Altitudes[J]. Journal of Agricultural Science and Technology, 2024, 26(3): 66-75.

表达特征分析, 姚亮伟, 沙玉柱, 郭新羽, 蒲小宁, 徐英, 王继卿, 李少斌, 郝志云, 刘秀. 不同海拔藏绵羊肉品质、营养成分及肉质相关基因[J]. 中国农业科技导报, 2024, 26(3): 66-75.

Figures/Tables 6

References 43

1	段心明.中国肉羊产业发展现状、趋势与对策浅析[C]//第十六届(2019)中国羊业发展大会暨庆阳农耕文化节论文集.北京:农业科技出版社,2019:76-82.
2	孙晓萍,刘建斌,袁超,等.藏绵羊高海拔适应性及生产性能分析[J].今日畜牧兽医,2018,34(4):50-52.
3	向泽宇,王长庭.青藏高原藏羊遗传资源的现状、存在问题及对策[J].中国畜牧兽医文摘,2011, 27(2):1-4.
4	张润霞,王旭丽,蒲小鹏,等.青藏高原高寒牧区草畜生产系统分析[J].云南农业大学学报(自然科学),2015,30(5):755-759.
	ZHANG R X, WANG X L, PU X P, et al.. Analysis of rangeland and livestock production systems in alpine pastoral area of Qinghai [J]. J. Yunnan Agric. Univ. (Nat. Sci.), 2015, 30(5):755-759.
5	程晓月.甘肃天祝几种高寒草甸植物营养成分含量和生理生化指标与海拔的关系研究[D].兰州:兰州大学,2012.
	CHENG X Y. The relationship between altitudes and nutrition contents, physiological and biochemical property of plants from the alpine meadow in Tianzhu [D]. Lanzhou: Lanzhou University, 2012.
6	王琳琳,陈炼红.麦洼牦牛肉和高山牦牛肉品质差异性的比较分析[J].西南民族大学学报(自然科学版),2019,45(5):449-457.
	WANG L L, CHEN L H. Comparative analysis of quality difference between Maiwa yak meat and mountain yak meat [J]. J. Southwest Univ. Nationalities (Nat. Sci.), 2019, 45(5):449-457.
7	邱丙姗,杨繁,周京伟,等.不同区域藏猪性能的比较研究[J].猪业科学,2019,36(9):128-131.
8	GUO Y Y, LI J, SHANG J, et al.. Development of muscle-related genes and their effects on meat quality [J]. Energy Procedia, 2012, 16(2):229-223.
9	李武峰,许尚忠,曹红鹤,等.3个杂交牛种H-FABP基因第二内含子的遗传变异与肉品质性状的相关分析[J].畜牧兽医学报,2004,67(3):252-255.
	LI W F, XU S Z, CAO H H, et al.. Genetic variation in intron2 of H-FABP gene in three bovine hybrids and the relationships with meat quality traits [J]. J. Anim. Husbandry Veterinary Med., 2004, 67(3):252-255.
10	JOHANNA S, INGUNN B, SIGBJØRN L, et al.. Differential gene expression of fatty acid binding proteins during porcine adipogenesis [J]. Comp. Biochem. Physiol. B Biochem. Mol. Biol., 2008, 151(2):147-52.
11	王刚,曾勇庆,武英国,等.猪肌肉组织LPL基因表达的发育性变化及其与肌内脂肪沉积关系的研究[J].畜牧兽医学报,2007,67(03):253-257.
	WANG G, ZENG Y Q, WU Y G, et al.. The developmental changes of LPL mRNA expression in muscle and their association with intramuscular fat for pigs [J]. J. Anim. Husb. Vet. Med., 2007, 67(3):253-257.
12	姚飞,卢德勋,姚焰础,等.苏尼特肥羔肌肉组织LPL和HSL的发育性变化及其对肌内脂肪沉积的影响[J].饲料工业,2008,43(5):37-40.
13	吴结革,徐世永,刘京鸽.哺乳动物黑素皮质素受体-4的生物学功能及其基因多态性研究进展[J].金陵科技学院学报, 2020,36(3):77-81.
	WU J G, XU S Y, LIU J G. Research progress in biological function and gene polymorphism of mammalian melanocortin-4 receptor [J]. J. Jinling Univ. Sci. Technol., 2020, 36(3):77-81.
14	李静,朱庆. CAST基因及钙蛋白酶系统的研究进展[J].安徽农业科学,2007,62(15):4618-4619.
	LI J, ZHU Q. Research progress in CAST and CAPN [J]. Anhui Agric. Sci., 2007, 62(15):4618-4619.
15	国家卫生和计划生育委员会. 食品安全国家标准食品中灰分的测定 [S].北京:中国标准出版社,2016.
16	国家食品药品监督管理总局. 食品安全国家标准食品中蛋白质的测定 [S].北京:中国标准出版社,2016.
17	国家食品药品监督管理总局. 食品安全国家标准食品中脂肪的测定 [S].北京:中国标准出版社,2016.
18	国家食品药品监督管理总局. 食品安全国家标准食品中水分的测定 [S].北京:中国标准出版社,2016.
19	于小杰,王净,白园园,等.放牧与舍饲饲养方式对小尾寒羊肉品质的影响[J].畜牧兽医学报, 2021,52(8):2223-2232.
	YU X J, WANG J, BAI Y Y, et al.. Effects of grazing and confinement feeding systems on the meat quality of small-tailed han sheep [J]. J. Anim. Husbandry Veterinary Med., 2021, 52(8):2223-2232.
20	王芳.不同品种、月龄和部位绵羊肉品质的比较与分析[D].北京:中国农业科学院,2021.
	WANG F. Different breeds, ages and parts comparison and analysis of meat quality [D]. Beijing: Chinese Academy of Agricultural Sciences, 2021.
21	日格波,周明亮,杨平贵,等.牦牛肉嫩度的研究进展[J].草学,2019,43(2):63-67.
	RI G B, ZHOU M L, YANG P G, et al.. Research progress on tenderness of yak meat [J]. J. Grassland Forage Sci., 2019, 43(2):63-67.
22	陈艳珍.羊肉品质的评定指标及影响因素[J].黑龙江畜牧兽医,2011,65(14):53-54
23	王芳,王宏博,席斌,等.不同品种绵羊肉品质比较与分析[J].食品与发酵工业, 2021,47(1):229-235.
	WANG F, WANG H B, XI B, et al.. Comparison and analysis of meat quality of different breeds of sheep [J]. Food Ferm. Ind., 2021, 47(1):229-235.
24	李梦琪.欧拉藏羊肉品质分析及冻藏对其脂肪和蛋白氧化的影响[D].兰州:甘肃农业大学,2018.
	LI M Q. Quality analysis and the effects of frozen storange on lipid and protein oxidation of Oula Tibetan sheep meat [D]. Lanzhou: Gansu Agricultural University, 2018.
25	DALZIEL C J, KLIEM K E, GIVENS D I. Fat and fatty acid composition of cooked meat from UK retail chickens labelled as from organic and non-organic production systems [J]. Food Chem., 2015, 179(1):103-108.
26	陈洋.体重对巴美肉羊屠宰性能和羊肉品质的影响[D].呼和浩特:内蒙古农业大学,2014.
	CHEN Y. The effect of weight on slaughter performance and meat quality of Bamei lamb [D]. Hohhot: Inner Mongolia Agricultural University, 2014.
27	马宁,许迟,李涛,等.颗粒日粮中添加柠条对滩羊生长性能、血液生化指标、瘤胃发酵及羊肉品质的影响[J].畜牧与饲料科学,2021,42(3):14-20, 38.
	MA N, XU C, LI T, et al.. Effects of adding Caragana korshinskii in pelleted diet on growth performance, blood biochemical indicators, ruminal fermentation and mutton quality of tan sheep [J]. Anim. Husb. Feed Sci., 2021, 42(3):14-20, 38.
28	卢桂松.年龄和肌内脂肪沉积对牛肉嫩度的影响[D].南京:南京农业大学,2013.
	LU G S. Effects of age and fat deposition on beef tenderness [D]. Nanjing: Nanjing Agricultural University, 2013.
29	喇光忠.临夏市清真牛羊肉营养成分分析与卫生评价的研究[D].兰州:甘肃农业大学,2008.
	LA G Z. Studies on hygienic assessment and analysis nutritional ingredient of Muslim beef & mutton in Linxia [D]. Lanzhou: Gansu Agricultural University, 2008.
30	潘兴云,薛研君,蒋林惠,等.肉多汁性的研究及核磁共振技术在多汁性检测中的前景[J].科技信息,2010,39(24):6-7.
31	单体中,汪以真,李民.猪脂蛋白脂酶基因片段的克隆及不同体重的表达差异[J].农业生物技术学报,2006,30(2):151-155.
	SHAN T Z, WANG Y Z, LI M. Cloning of lipoprotein lipase (LPL) gene of swine and the difference of LPl gene expression at different avoirdupois stages [J]. J. Agric. Biotechnol., 2006, 30(2):151-155.
32	乔永,黄治国,李齐发,等.绵羊肌肉LPL基因表达的发育性变化及其对肌内脂肪含量的影响[J].中国农业科学,2007,63(10):2323-2330.
	QIAO Y, HUANG Z G, LI Q F, et al.. Developmental changes of the LPL mRNA expression and the effect on IMF content in sheep muscle [J]. Chin. Agric. Sci., 2007, 63(10):2323-2330.
33	仇雪梅,李宁,邓学梅,等.影响动物肉质性状主要候选基因的研究进展[J].遗传,2002, 44(5):571-574.
	QOU X M, LI N, DENG X M, et al.. Progress in candidate genes influencing meat quality traits in chickens [J]. Genetics, 2002, 44(5):571-574.
34	王怀禹.黑素皮质素受体4(MC4R)基因多态性与动物生长性能的相关性研究[J].养殖与饲料, 2010,21(5):1-5.
35	姚慧.动物钙蛋白酶系统的研究进展[J].湖北畜牧兽医,2014,35(2):81-86.
36	姜延志,邢淑华,岑王敏,等.脂蛋白脂酶调控因子研究进展[J].遗传,2013,35(7):830-838.
	JIANG Y Z, XING S H, CEN W M, et al.. New insights in regulation factors of lipoprotein lipase [J]. Genetics, 2013, 35(7):830-838.
37	孙国虎.不同能量水平对绵羊血液生理生化指标的影响及肉质相关基因表达研究[D].兰州:甘肃农业大学,2014.
	SUN G H. Study on the blood physiological and biochemical indexes and meat relate gene expression of sheep groups [D]. Lanzhou: Gansu Agricultural University, 2014.
38	罗燕,谷新利,赵宗胜,等.中国美利奴羊H-FABP基因多态性及其与部分肉质性状的相关性[J].动物学杂志,2013,48(06):964-970.
	LUO Y, GU X L, ZHAO Z S, et al.. Single nucleotide polymorphism of H-FABP gene and lts correlation with meat quality traits in Merino sheep [J]. J. Zool., 2013, 48(6):964-970.
39	郭艳青,许尚忠,孙宝忠,等.牛LPL基因的遗传变异与肉品质性状的关联分析[J].农业生物技术学报,2007,30(5):899-907.
	GUO Y Q, XU S Z, SUN B Z, et al.. Genetic variation of LPL gene and association analysis with meat quality traits in bovine [J]. J. Agric. Biotechnol., 2007, 30(5):899-907.
40	曾献存,陈韩英,贾斌,等. MC4R和PROP1基因多态性及合并基因型与中国美利奴羊生长性状的关联分析[J].畜牧兽医学报,2011,42(9):1227-1232.
	ZENG X C, CHEN H Y, JIA B, et al.. Effects of single and combined genotypes of MC4R and PROP1 genes on growth traits in Chinese Merino sheep [J]. J. Anim. Husb. Vet. Med., 2011, 42(9):1227-1232.
41	GEESINK G H, KOOHMARAIE M. Effect of calpastatin on degradation of myofibrillar proteins by mu-calpain under postmortem conditions [J]. J. Anim. Sci., 1999, 77(10):2685-2692.
42	唐仁勇.μ-Calpain、Calpastatin与猪肉嫩度的关系及其基因表达的营养调控研究[D].成都:四川农业大学,2008.
	TANG R Y. The relationship between u-Calpain, Calpastain and pork tendernessand the study on nutritional regulation of its expression [D]. Chengdu: Sichuan Agricultural University, 2008.
43	燕凤.绵羊CAPN1、CAST基因mRNA的发育性表达规律及其对肉品质的影响[D].杨凌:西北农林科技大学,2008.
	YAN F. Developmental regularity of sheep CAPN1 and CAST gene mRNA expression and their effect on meat quality [D]. Yangling: Northwest A&F University, 2008.

基因 Gene	引物序列 Primer sequence （5’-3’）	长度 Length/bp	退火温度 Annealing temperature/℃	基因序列号 DNA sequence number
β-Actin	F：AGCCTTCCTTCCTGGGCATGGA R：GGACAGCACCGTGTTGGCGTAGA	113	60	NM_001009784.3
H-FABP	F：AGAGACATCACTTGTGCGGG R：CTCCACCCTCTGTTGGTCAC	154	60	AY157617.1
LPL	F：TCTGAATAGAAAGTCTGGCTGAAAC R：AAAGCACTGGACGTCTTTTGT	106	60	XM_027963889.1
MC4R	F：GGTGGCGATCACCATCAGTG R：GTGGACGTAGAGAGACGCCA	148	60	NM_001126370.3
CAST	F：AGTGGTTTCCCAAACCCCAG R：GTCTTTGCCCGAGACTGTCA	122	60	NM_001009788.1

基因 Gene	引物序列 Primer sequence （5’-3’）	长度 Length/bp	退火温度 Annealing temperature/℃	基因序列号 DNA sequence number
β-Actin	F：AGCCTTCCTTCCTGGGCATGGA R：GGACAGCACCGTGTTGGCGTAGA	113	60	NM_001009784.3
H-FABP	F：AGAGACATCACTTGTGCGGG R：CTCCACCCTCTGTTGGTCAC	154	60	AY157617.1
LPL	F：TCTGAATAGAAAGTCTGGCTGAAAC R：AAAGCACTGGACGTCTTTTGT	106	60	XM_027963889.1
MC4R	F：GGTGGCGATCACCATCAGTG R：GTGGACGTAGAGAGACGCCA	148	60	NM_001126370.3
CAST	F：AGTGGTTTCCCAAACCCCAG R：GTCTTTGCCCGAGACTGTCA	122	60	NM_001009788.1

指标 Index	部位 Part	低海拔 Low altitude	中海拔 Mid-altitude	高海拔 High altitude
熟肉率 Cooked meat rate/%	臂三头肌 Triceps brachii	51.987±0.790 βa	49.780±0.591 βa	50.895±0.674 βa
	股二头肌 Biceps femoris muscle	50.400±0.589 βa	47.121±0.600 Cb	52.146±0.825 βa
	背最长肌 Longissimus	54.300±0.616 αc	57.307±0.612 αb	59.607±0.222 αa
剪切力 Shearing force/N	臂三头肌 Triceps brachii	31.524±0.818 αb	35.42±0.717 αβa	37.924±0.767 αa
	股二头肌 Biceps femoris muscle	32.019±0.749 αb	33.352±0.966 βb	37.746±0.878 αa
	背最长肌 Longissimus	33.120±0.708 αb	37.753±0.383 αa	37.581±0.920 αa
失水率 Water loss rate/%	臂三头肌 Triceps brachii	36.099±0.499 αa	34.097±0.897 βa	34.271±0.796 αa
	股二头肌 Biceps femoris muscle	37.598±0.614 αa	36.639±0.354 αa	32.260±0.748 αb
	背最长肌 Longissimus	33.058±0.596 βa	29.552±0.517 Cb	29.42±0.256 βb

指标 Index	部位 Part	低海拔 Low altitude	中海拔 Mid-altitude	高海拔 High altitude
熟肉率 Cooked meat rate/%	臂三头肌 Triceps brachii	51.987±0.790 βa	49.780±0.591 βa	50.895±0.674 βa
	股二头肌 Biceps femoris muscle	50.400±0.589 βa	47.121±0.600 Cb	52.146±0.825 βa
	背最长肌 Longissimus	54.300±0.616 αc	57.307±0.612 αb	59.607±0.222 αa
剪切力 Shearing force/N	臂三头肌 Triceps brachii	31.524±0.818 αb	35.42±0.717 αβa	37.924±0.767 αa
	股二头肌 Biceps femoris muscle	32.019±0.749 αb	33.352±0.966 βb	37.746±0.878 αa
	背最长肌 Longissimus	33.120±0.708 αb	37.753±0.383 αa	37.581±0.920 αa
失水率 Water loss rate/%	臂三头肌 Triceps brachii	36.099±0.499 αa	34.097±0.897 βa	34.271±0.796 αa
	股二头肌 Biceps femoris muscle	37.598±0.614 αa	36.639±0.354 αa	32.260±0.748 αb
	背最长肌 Longissimus	33.058±0.596 βa	29.552±0.517 Cb	29.42±0.256 βb

指标 Indicators	部位 Part	低海拔 Low altitude	中海拔 Mid-altitude	高海拔 High altitude
灰分 Ash content	臂三头肌 Triceps brachii	1.075±0.019 αa	1.052±0.013 αa	1.110±0.024 βa
	股二头肌 Biceps femoris muscle	1.049±0.033 αb	1.118±0.029 αb	1.259±0.020 αa
	背最长肌 Longissimus	1.099±0.041 αa	1.063±0.026 αa	1.107±0.022 βa
粗脂肪 Crude fat	臂三头肌 Triceps brachii	1.537±0.025 βa	1.918±0.067 α‍βa	1.650±0.121 βa
	股二头肌 Biceps femoris muscle	1.685±0.155 βa	1.805±0.100 βa	1.708±0.124 αβa
	背最长肌 Longissimus	2.408±0.029 αa	2.185±0.087 αab	2.113±0.056 αb
粗蛋白 Crude protein	臂三头肌 Triceps brachii	19.889±0.307 αa	19.493±0.243 αa	20.064±0.124 βa
	股二头肌 Biceps femoris muscle	20.217±0.332 αa	19.095±0.357 αb	20.787±0.174 αa
	背最长肌 Longissimus	19.932±0.109 αa	20.13±0.455 αa	20.966±0.443 αa
水分 Moisture content	臂三头肌 Triceps brachii	76.096±0.050 βa	75.997±0.471 βa	75.358±0.354 αβa
	股二头肌 Biceps femoris muscle	75.734±0.167 βa	75.011±0.704 βa	75.034±0.386 βa
	背最长肌 Longissimus	77.119±0.344 αa	78.782±0.440 αa	76.866±1.077 αa