Differential expression of L-FABP and L-BABP between fat and lean chickens

文献类型: 外文期刊

第一作者: Zhang, Q.

作者: Zhang, Q.;Shi, H.;Liu, W.;Wang, Y.;Wang, Q.;Li, H.;Zhang, Q.;Shi, H.;Liu, W.;Wang, Y.;Li, H.;Wang, Q.

作者机构:

关键词: L-FABP;L-BABP;Lipid deposition;Chicken

期刊名称:GENETICS AND MOLECULAR RESEARCH ( 影响因子:0.764; 五年影响因子:0.912 )

ISSN: 1676-5680

年卷期: 2013 年 12 卷 4 期

页码:

收录情况: SCI

摘要: Liver fatty acid-binding protein (L-FABP) and liver bile acid-binding protein (L-BABP), in the liver intra-cytoplasm of chicken, are members of the fatty acid-binding protein subfamily. This study was designed to analyze and compare L-FABP and L-BABP expression levels between fat and lean lines in chicken liver tissue, and to determine the relationship between their expression and lipid metabolism. Real-time polymerase chain reaction (PCR) and Western blotting were used to detect the mRNA and protein expression in liver tissue between the lean and fat lines. Real-time PCR showed that L-FABP mRNA expression in fat male chickens was higher than that in lean male chickens at 2, 3, 4, 5, 6, and 10 weeks of age (P < 0.05), and L-BABP mRNA expression in fat male chickens was higher than that in lean male chickens at 1, 2, 3, 4, 8, and 10 weeks of age (P < 0.05). Western blotting showed that the L-FABP protein expression in fat male chickens was higher than that in lean male chickens at 3, 5, 6, and 7 weeks of age (P < 0.05), and L-BABP protein expression in fat male chickens was higher than that in lean male chickens at 3, 4, 5, and 6 weeks of age (P < 0.05). These results suggested that chicken L-FABP and L-BABP affect abdominal fat deposition through differences in their expression level, and the possible mechanism is that a high expression level of L-FABP and L-BABP leads to a high lipogenesis rate and, ultimately, to lipid deposition.

分类号:

  • 相关文献

[1]Identification of SNPs of the L-BABP and L-FABP and their Association with Growth and Body Composition Traits in Chicken. Zhao, Yufang,Rong, Enguang,Wang, Shouzhi,Zhang, Hui,Leng, Li,Wang, Yuxiang,Wang, Qigui,Li, Hui,Zhao, Yufang,Rong, Enguang,Wang, Shouzhi,Zhang, Hui,Leng, Li,Wang, Yuxiang,Wang, Qigui,Li, Hui,Zhao, Yufang,Rong, Enguang,Wang, Shouzhi,Zhang, Hui,Leng, Li,Wang, Yuxiang,Li, Hui,Wang, Qigui.

[2]Role of a liver fatty acid-binding protein gene in lipid metabolism in chicken hepatocytes. Gao, G. L.,Na, W.,Wang, Y. X.,Zhang, H. F.,Li, H.,Wang, Q. G.,Gao, G. L.,Na, W.,Wang, Y. X.,Zhang, H. F.,Li, H.,Wang, Q. G.,Gao, G. L.,Na, W.,Wang, Y. X.,Zhang, H. F.,Li, H.,Wang, Q. G.,Gao, G. L.,Wang, Q. G.. 2015

[3]Cloning, expression, and polymorphism of the ECI1 gene in various pig breeds. Lu Yun-feng,Zhang Bo,Li Qing-gang,Wang Zhi-xiu,Zhang Hao,Wu Ke-liang,Lu Yun-feng,Chen Ji-bao,Li Qing-gang. 2017

[4]Association of T1740C polymorphism of L-FABP with meat quality traits in Junmu No. 1 white swine. Zhang, Y. H.,Dai, L. S.,Ma, T. H.,Li, F. J.,Liu, D. F.,Gao, Y.,Zhang, J. B.,Zhang, Y. H.,Guo, J.,Sun, B. X.,Gao, Y.,Zhang, J. B.,Wang, S. Z.,Zhang, S. M.. 2013

[5]Expression pattern of L-FABP gene in different tissues and its regulation of fat metabolism-related genes in duck. He, Jun,Tian, Yong,Li, Jinjun,Shen, Junda,Tao, Zhengrong,Lu, Lizhi,He, Jun,Fu, Yan,Niu, Dong.

[6]Deep Sequencing Analysis of miRNA Expression in Breast Muscle of Fast-Growing and Slow-Growing Broilers. Ouyang, Hongjia,He, Xiaomei,Li, Guihuan,Xu, Haiping,Jia, Xinzheng,Nie, Qinghua,Zhang, Xiquan,Ouyang, Hongjia,He, Xiaomei,Li, Guihuan,Xu, Haiping,Jia, Xinzheng,Nie, Qinghua,Zhang, Xiquan,Ouyang, Hongjia,He, Xiaomei,Li, Guihuan,Xu, Haiping,Jia, Xinzheng,Nie, Qinghua,Zhang, Xiquan. 2015

[7]Molecular epidemiology of hydropericardium syndrome outbreak-associated serotype 4 fowl adenovirus isolates in central China. Zhang, Teng,Zhang, Teng,Jin, Qianyue,Ding, Peiyang,Chai, Yongxiao,Li, Yafei,Liu, Xiao,Luo, Jun,Zhang, Gaiping,Chai, Yongxiao,Liu, Xiao,Zhang, Gaiping,Ding, Peiyang,Li, Yafei,Wang, Yinbiao,Jin, Qianyue,Zhang, Gaiping. 2016

[8]A premature stop codon within the tvb receptor gene results in decreased susceptibility to infection by avian leukosis virus subgroups B, D, and E. Chen, WeiGuo,Liu, Yang,Li, Xinjian,Li, Hongxing,Dai, Zhenkai,Yan, Yiming,Zhang, Xinheng,Lin, Wencheng,Ma, Jingyun,Xie, Qingmei,Chen, WeiGuo,Liu, Yang,Li, Xinjian,Li, Hongxing,Dai, Zhenkai,Yan, Yiming,Zhang, Xinheng,Lin, Wencheng,Ma, Jingyun,Xie, Qingmei,Li, Aijun,Shu, Dingming,Zhang, Huanmin,Chen, WeiGuo,Liu, Yang,Li, Xinjian,Li, Hongxing,Dai, Zhenkai,Yan, Yiming,Zhang, Xinheng,Lin, Wencheng,Ma, Jingyun,Xie, Qingmei,Chen, WeiGuo,Lin, Wencheng,Ma, Jingyun,Xie, Qingmei. 2017

[9]An association between genetic variation in the roundabout, axon guidance receptor, homolog 2 gene and immunity traits in chickens. Shu, D. M.. 2014

[10]Differentially expressed genes in the liver of lean and fat chickens. He, Q.,Wang, S. Z.,Leng, L.,Na, W.,Wang, Q. G.,Li, H.,He, Q.,Wang, S. Z.,Leng, L.,Na, W.,Wang, Q. G.,Li, H.,He, Q.,Wang, S. Z.,Leng, L.,Na, W.,Li, H.,Wang, Q. G.. 2014

[11]A genome-wide association study identifies major loci affecting the immune response against infectious bronchitis virus in chicken. Luo, Chenglong,Qu, Hao,Ma, Jie,Wang, Jie,Shu, Dingming,Hu, Xiaoxiang,Li, Ning,Luo, Chenglong,Qu, Hao,Ma, Jie,Wang, Jie,Shu, Dingming. 2014

[12]Biological Characteristics of Chinese Precocious Strain of Eimeria acervulina and Its Immune Efficacy Against Different Field Strains. Wu, Lin-Lin,Lin, Rui-Qing,Duan, Wen-Fang,Zou, Shang-Shu,Yuan, Zi-Guo,Weng, Ya-Biao,Sun, Ming-Fei,Liu, Li-Dan. 2014

[13]Determination of virginiamycin M1 residue in tissues of swine and chicken by ultra-performance liquid chromatography tandem mass spectrometry. Wang, Xiaoyang,Wang, Mi,Zhang, Keyu,Hou, Ting,Zhang, Lifang,Fei, Chenzong,Xue, Feiqun,Wang, Xiaoyang,Hang, Taijun. 2018

[14]Up-regulation of NLRC5 and NF-kappa B signaling pathway in carrier chickens challenged with Salmonella enterica Serovar Pullorum at different persistence periods. Liu, Xiangping,Sheng, Zhongwei,Dou, Xinhong,Wang, Kehua,Ma, Teng,Wang, Hongzhi,Li, Zhiteng,Pan, Zhiming,Chang, Guobin,Chen, Guohong. 2015

[15]Dissection of Myogenic Differentiation Signatures in Chickens by RNA-Seq Analysis. Li, Tingting,Zhang, Genxi,Wu, Pengfei,Liu, Qiuhong,Wang, Jinyu,Duan, Lian,Li, Guohui. 2018

[16]Combination of multi-element and stable isotope analysis improved the traceability of chicken from four provinces of China. Zhao, Yan,Wang, Donghua,Yang, Shuming,Zhao, Yan,Wang, Donghua,Yang, Shuming,Zhang, Bin,Guo, Bin,Guo, Bin. 2016

[17]Complete mitochondrial genome sequence and gene organization of Chinese indigenous chickens with phylogenetic considerations. Zhao, F. P.,Zhang, B. K.,Zhao, F. P.,Fan, H. Y.,Fan, H. Y.,Li, G. H.. 2016

[18]Detecting Splicing Variants of FOXP2 and its Protein Expression in Chicken Brain. Wang, Xi,Hamid, Mohammod Abdul,Zhao, Xingbo,Wang, Xi,Li, Hongxia. 2012

[19]Effect of an exon 1 mutation in the myostatin gene on the growth traits of the Bian chicken. Zhang, G. X.,Zhao, X. H.,Wang, J. Y.,Ding, F. X.,Zhang, L.. 2012

[20]Genome-wide association study of antibody response to Newcastle disease virus in chicken. Luo, Chenglong,Qu, Hao,Ma, Jie,Wang, Jie,Li, Chunyu,Yang, Chunfen,Shu, Dingming,Hu, Xiaoxiang,Li, Ning,Luo, Chenglong,Qu, Hao,Ma, Jie,Wang, Jie,Li, Chunyu,Yang, Chunfen,Hu, Xiaoxiang,Shu, Dingming. 2013

作者其他论文 更多>>

微信小程序