内蒙古呼伦贝尔地区本土牛牛肉黄脂现象的相关基因和代谢组学研究

doi:10.12160/j.issn.1672-5190.2023.06.001

Abstract

Abstract: [Objective] This study was conducted to preliminarily explore the possible regulative mechanisms underlying yellow beef fat of local cattle in Hulun Buir City of Inner Mongolia. [Method] A total of 72 local cattle were selected from Hulun Buir City, and their subcutaneous fat and liver tissues were sampled. The subcutaneous fat samples were subjected to color scoring with a 5-point subjective scoring scheme. Using liver tissues as experimental materials, the penta-primer amplification refractory mutation system （PARMS） was employed to assess the genotype and gene frequency distribution of BCO2 SNPW80X, BCMO1 SNP4, RDHE2 SNP2, ALDH8A1 SNP16 and PPARCG1A SNP12, which were considered as the crucial genes in the signaling pathways involved in the metabolic process of β-carotene. The non-targeted metabolomics analysis of the fat samples were performed by liquid chromatography-mass spectrometry （LC-MS） technology to identify the differential metabolites in different colored fat samples, and the differential metabolites were subsequently subjected to metabolic pathway enrichment analysis. [Result] The 72 subcutaneous fat tissue samples were predominantly white colored, with yellow colored ones （scoring 3 or above） accounting for 30.55%. The SNPs in BCO2, BCMO1, RDHE2 and PPARCG1A genes were observed in different samples, while these SNPs had no significant （P>0.05） correlation with fat color. Compared with the white colored fat samples, a total of 235 differential metabolites were identified in the yellow colored fat samples, which were enriched in the signaling pathways such as unsaturated fatty acid biosynthesis, primary bile acid biosynthesis, and bile secretion. [Conclusion] Comparing the yellow and white colored fat samples collected from the local cattle in Hulun Buir City, there were multiple differential metabolites involving in the signaling pathways closely related to fat formation, in vivo β-carotene transport and trans-membrane transport of β-carotene. In addition, they also directly or indirectly correlated with the β-carotene metabolism associated genes such as BCO2, BCMO1 and PPARCG1A. Further research may focus on the relevant molecular regulatory mechanisms, so as to provide a theoretical basis for the preparation of β-carotene containing feed and the targeted regulation of beef fat color.

Key words: Hulun Buir City, beef cattle, yellow colored fat, SNP, metabolomics, β-carotene

CLC Number:

S823.922

WANG Xiao, LI Hui, SU Shaofeng, ZHAO Meng, TIAN Jing, ZHAO Hongyan, ZUO Lanming, LIANG Zhijie, WANG Jinhuan, TIAN Rugang. Genetic Variant Analysis and Metabolomics Reveal the Possible Molecular Mechanisms Underlying Yellow Beef Fat of Local Cattle in Hulun Buir City of Inner Mongolia[J]. Animal Husbandry and Feed Science, 2023, 44(6): 1-12.

0
/ / Recommend

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: https://journal30.magtechjournal.com/xmysl/EN/10.12160/j.issn.1672-5190.2023.06.001

https://journal30.magtechjournal.com/xmysl/EN/Y2023/V44/I6/1

References

[1] 木其尔. 呼伦贝尔蒙古牛黄色脂肪成因物质研究[D].呼和浩特:内蒙古农业大学,2016.
[2] 刘晓牧,吴乃科,宋恩亮,等.牛肉黄脂研究进展[J].中国牛业科学,2006,32(2):31-33.
[3] SIMONNE A H,GREEN N R,BRANSBY I D.Consumer acceptability and β-carotene content of beef as related to cattle finishing diets[J].Journal of Food Science,1996,61(6):1254-1257.
[4] JIN Q,CHENG H J,WAN F C,et al.Effects of feeding β-carotene on levels of β-carotene and vitamin A in blood and tissues of beef cattle and the effects on beef quality[J].Meat Science,2015,110:293-301.
[5] 梅步俊,李亚珍,吉日嘎拉,等.反刍动物黄脂研究进展[J].草食家畜,2013(4):1-5.
[6] RHRLE F T,MOLONEY A P,OSORIO M T,et al.Carotenoid,colour and reflectance measurements in bovine adipose tissue to discriminate between beef from different feeding systems[J].Meat Science,2011,88(3):347-353.
[7] SHEMEIS A R,LIBORIUSSEN T,ANDERSEN B B,et al.Changes in carcass and meat quality traits of Danish friesian cull cows with the increase of their age and body condition[J].Meat Science,1994,37(2):161-167.
[8] WALSH K,KIELY P O,MOLONEY A P,et al.Intake,digestibility,rumen fermentation and performance of beef cattle fed diets based on whole-crop wheat or barley harvested at two cutting heights relative to maize silage or ad libitum concentrates[J].Animal Feed Science and Technology,2008,144(3/4):257-278.
[9] WANG Y M,CONNOR S L,WANG W,et al.The selective retention of lutein,meso-zeaxanthin and zeaxanthin in the retina of chicks fed a xanthophyll-free diet[J].Experimental Eye Research,2007,84(3):591-598.
[10] JOHANNES V L,KLAUS V.Vitamin A formation in animals:Molecular identification and functional characterization of carotene cleaving enzymes[J].Journal of Nutrition,2004,134(1):251S-256S.
[11] LIETZ G,LANGE J,RIMBACH G.Molecular and dietary regulation of β,β-carotene 15,15′-monooxygenase 1(BCMO1)[J].Archives of Biochemistry and Biophysics,2010,502(1):8-16.
[12] KIEFER C,HESSEL S,LAMPERT J M,et al.Identification and characterization of a mammalian enzyme catalyzing the asymmetric oxidative cleavage of provitamin A[J].Journal of Biological Chemistry,2001,276(17):14110-14116.
[13] TIAN R,PITCHFORD W S,MORRIS C A,et al.Genetic variation in the β,β-carotene-9′,10′-dioxygenase gene and association with fat colour in bovine adipose tissue and milk[J].Animal Genetics,2010,41(3):253-259.
[14] TIAN R,CULLEN N G,MORRIS C A,et al.Major effect of retinal short-chain dehydrogenase reductase(RDHE2)on bovine fat colour[J].Mammalian Genome,2012,23(5/6):378-386.
[15] 魏巧丽,成海建,游伟,等.β-胡萝卜素-15,15′-加氧酶在动物营养及遗传领域的研究进展[J].动物营养学报,2013,25(12):2838-2843.
[16] 任晓莹,王树林,曹得霞.日粮中添加β-胡萝卜素对牦牛皮下脂肪颜色及组织中维生素A含量的影响[J].中国畜牧兽医,2020,47(9):2833-2840.
[17] KNIGHT T W,DEATH A F.Effect of dose and frequency of vitamin A supplements,and carryover effects on plasma carotenoid concentration in steers[J].New Zealand Journal of Agricultural Research,1999,42(4):385-391.
[18] 魏巧丽. β-胡萝卜素对肉牛脂肪合成的影响研究[D].泰安:山东农业大学,2014.
[19] JOHANNES V L.Provitamin A metabolism and functions in mammalian biology[J].The American Journal of Clinical Nutrition,2012,96(5):1234S-1244S.
[20] BERTOLINI F,CHINCHILLA-VARGAS J,KHADSE J R,et al.Marker discovery and associations with beta-carotene content in Indian dairy cattle and buffalo breeds[J].Journal of Dairy Science,2019,102(11):10039-10055.
[21] 徐磊,贾玉堂,赵拴平,等.西门塔尔牛BCO2基因多态性及与脂肪颜色性状的相关性研究[J].中国牛业科学,2015,41(3):22-26.
[22] LIETZ G,OXLEY A,BOESCH‐SAADATMANDI C,et al. Importance of β,β‐carotene 15,15′‐monooxygenase 1(BCMO1)and β,β‐carotene 9′,10′‐dioxygenase 2(BCDO2)in nutrition and health[J].Molecular Nutrition and Food Research,2012,56(2):241-250.
[23] 樊月圆,昝林森,王洪宝,等.牛过氧化物酶体增殖激活受体α(PPARα)基因第5外显子多态性与胴体、肉质性状的相关性[J].农业生物技术学报,2010,18(4):713-718.
[24] AL-WADEI H A N,SCHULLER H M. Non-genomic inhibitory signaling of β-carotene in squamous cell carcinoma of the lungs[J].International Journal of Oncology,2009,34(4):1093-1098.
[25] KNIGHT T W,DEATH A F.Is beef with yellow fat potentially healthier for you than beef with white fat[J].Proceedings of the New Zealand Society of Animal Production,1997,57:134-136.
[26] BACHMANN H,DESBARATS A,PATTISON P,et al.Feedback regulation of β,β-carotene 15,15′-monooxygenase by retinoic acid in rats and chickens[J].Journal of Nutrition,2003,132(12):3616-3622.
[27] 韩瑞丽. β-胡萝卜素和VE对富含ω-3多不饱和脂肪酸鸡肉的保护作用和肉质的影响[D].泰安:山东农业大学,2003.
[28] SHAMA S,LIU W Q.Omega-3 fatty acids and gut microbiota:A reciprocal interaction in nonalcoholic fatty liver disease[J].Digestive Diseases and Sciences,2020,65(3):906-910.
[29] HESSEL S,EICHINGER A,ISKEN A,et al.CMO1 deficiency abolishes vitamin A production from β-carotene and alters lipid metabolism in mice[J].Journal of Biological Chemistry,2007,282(46):33553-33561.
[30] SAEED A,DULLAART R P F,SCHREUDER T C M A,et al. Disturbed vitamin A metabolism in non-alcoholic fatty liver disease(NAFLD)[J].Nutrients,2017,10(1):29.
[31] SEO J S,LEE K S,JANG J H,et al.The effect of dietary supplementation of β-carotene on lipid metabolism in streptozotocin-induced diabetic rats[J].Nutrition Research,2004,24(12):1011-1021.
[32] HOEKE M O.The interrelationship between bile acid and vitamin A homeostasis[D]. Groningen:University of Groningen,2017.
[33] BOHLOULI M,HALLI K,YIN T,et al.Genome-wide associations for heat stress response suggest potential candidate genes underlying milk fatty acid composition in dairy cattle[J].Journal of Dairy Science,2022,105(4):3323-3340.
[34] KASSAM A,MIAO B,YOUNG P R,et al.Retinoid X receptor(RXR)agonist-induced antagonism of farnesoid X receptor(FXR)activity due to absence of coactivator recruitment and decreased DNA binding[J].Journal of Biological Chemistry,2003,278(12):10028-10032.
[35] JEMIOA-RZEMINSKA M,PASENKIEWICZ-GIERULA M,STRZAKA K.The behaviour of beta-carotene in the phosphatidylcholine bilayer as revealed by a molecular simulation study[J].Chemistry and Physics of Lipids,2005,135(1):27-37.
[36] DOPIERA K,SKRZYPIEC M.Morphology,compressibility and viscoelasticity of the mixed lipid monolayers in the presence of β-carotene[J].Chemistry and Physics of Lipids,2018,213:88-95.
[37] 武陶,张柏林,毕昌昊.细胞膜合成途径模块化调控与形态改造提高大肠杆菌β-胡萝卜素的积累与产量[J].生物工程学报,2018,34(5):79-87.

Genetic Variant Analysis and Metabolomics Reveal the Possible Molecular Mechanisms Underlying Yellow Beef Fat of Local Cattle in Hulun Buir City of Inner Mongolia

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	ZHANG Limei,GUO Jun,YE Le,LIU Yujia,LIU Xiaoqi,GUO Lingzhi. Determination and Evaluation on Visceral Selenium Content in Hulun Buir Grassland Short-tailed Sheep in Inner Mongolia [J]. Animal Husbandry and Feed Science, 2023, 44(4): 101-108.
[2]	DAI Xue, CUI Jin-lei, WU Tong, WANG Li-dong, YV Shu-hai, LI Xu-guang, LI Ting, ZHANG Zhi-hong. Development Process,Existing Problems and Countermeasures of Beef Cattle Breeding Industry in Tongliao City,Inner Mongolia [J]. Animal Husbandry and Feed Science, 2022, 43(1): 88-92.
[3]	WANG Shang-yang, LI Wen-yu, Cidanquni, Renzengwangmu, WANG Yan-lu, FENG Jing-li, HE Chang-wei, MO Fang. Comparison of Dietary Nutrients Apparent Digestibility in Beef Cattle at Different Growth Stages [J]. Animal Husbandry and Feed Science, 2021, 42(6): 9-12.
[4]	Muqier, YANG Surina, Baoxijiri, WU Jin-hu, Gensuo. Analysis of Cost-benefit and Influencing Factors of Free-range Beef Cattle Feeding - A Case Study of Five Major Free-range Beef Cattle Production Provinces and Autonomous Regions in China [J]. Animal Husbandry and Feed Science, 2021, 42(6): 92-101.
[5]	YANG Surina, Muqier, WU Jin-hu, DU Chun-ling, Gensuo. Research Hotspots and Frontiers in Beef Cattle Industry - Based on Bibliometrics of CNKI Database [J]. Animal Husbandry and Feed Science, 2021, 42(5): 98-107.
[6]	ZHAO Meng, Surina, WANG Xiao, LI Hui, YANG Ding, HE Yun-mei, WANG Feng, LUAN Qing-jiang, Saiyin, GUO Wen-hua, TIAN Chun-ying, TIAN Ru-gang. Current Situation and Development Strategies on Beef Cattle Industry in Otog Banner of Ordos City of Inner Mongolia [J]. Animal Husbandry and Feed Science, 2021, 42(2): 80-84.
[7]	ZHENG Hai-ying, LI Jiu-yue, XUE Shu-yuan, WANG Xiao-peng, JIA Wei-xing. Effects of Diets Based on Corn Straw Fermented with Microbial Agents on Production Performance and Feeding Benefits of Beef Cattle [J]. Animal Husbandry and Feed Science, 2020, 41(5): 37-40.
[8]	ZHAO Jun-li, HOU Zhi-hui, HOU An-hong, GAO Xiao-xia, WANG Xiu-wen. Current Situation and Developmental Countermeasures of Beef Cattle Industry in Hulun Buir City of Inner Mongolia [J]. Animal Husbandry and Feed Science, 2019, 40(9): 65-69.
[9]	LIU Jia-sen, LI Yun-hua, WANG Run-yuan, JIANG Shou-jun, MA Wan-shan, WANG Li-yong. Genome-wide Detection of Selection Signature in German Merino Mutton Sheep [J]. Animal Husbandry and Feed Science, 2019, 40(7): 1-7.
[10]	LUAN Qing-jiang，YE Ru，WANG Feng，GUO Wen-hua，Saiyin，TIAN Chun-ying. Variety Improvement Program for Non-traditional Beef Cattle Farming Area in Northern Inner Mongolia [J]. Animal Husbandry and Feed Science, 2019, 40(7): 27-30.
[11]	ZHAO Meng, SONG Li-wen, HU Ming, GAO Min. Overview of Scientific Use of Feed Additives in Beef Cattle in the U.S.A. [J]. Animal Husbandry and Feed Science, 2019, 40(7): 43-47.
[12]	GUO Wen-hua, JIANG Zhuo, LUAN Qing-jiang, WANG Feng, Saiyin, TIAN Chun-ying. Discussion on Management Technology for Large-scale Beef Cattle Farms in Agricultural Areas of China [J]. Animal Husbandry and Feed Science, 2019, 40(6): 49-52.
[13]	WANG Sha-sha, LIU Zong-zheng, ZHANG Bao-xun, LIU Hu-chuan, HAO Xiao-jing, LI Pei-pei, HUANG Xiao, YUAN Xiao-ya, CHANG Guo-bin. SNP Screening and Genetic Structure Analysis of TAP2 Gene in Local Chicken Breeds in China [J]. Animal Husbandry and Feed Science, 2019, 40(12): 15-19.
[14]	QIAO Jian-min, YUE Lin-fang, CHENG Li-xin, ZHENG Zhong, LI Zi-jian, Fengying, LI Yun-hua, WANG Zhi-ming, Baohua, YU Zhao-hui. Isolation and Screening of Cellulose-degrading Bacteria from the Manure of Beef Cattle [J]. Animal Husbandry and Feed Science, 2019, 40(11): 79-83.
[15]	LI Zi-jian; ,ZHENG Zhong; ,QIAO Jian-min; ,CHENG Li-xin; ,YUE Lin-fang; ,Fengying; ,LI Yun-hua; ,WANG Zhi-ming; ,Baohua; ,YU Zhao-hui;. Comparative Study on Composting Process of Beef Cattle Manure by Using Different Decomposing Inoculants [J]. Animal Husbandry and Feed Science, 2019, 40(10): 19-23.