Threonine affects digestion capacity and hepatopancreatic gene expression of juvenile blunt snout bream (Megalobrama amblycephala)

文献类型: 外文期刊

第一作者: Habte-Tsion, Habte-Michael

作者: Habte-Tsion, Habte-Michael;Ren, Mingchun;Liu, Bo;Xie, Jun;Ge, Xianping;Zhou, Qunlan;Habte-Tsion, Habte-Michael;Ren, Mingchun;Liu, Bo;Xie, Jun;Ge, Xianping;Chen, Ruli;Zhou, Qunlan;Pan, Liangkun

作者机构:

关键词: Blunt snout bream;Threonine;Digestive enzyme activities;Gene expression;Target of rapamycin pathway

期刊名称:BRITISH JOURNAL OF NUTRITION ( 影响因子:3.718; 五年影响因子:4.816 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The present study conducted a 9-week feeding trial to investigate the effects of threonine (Thr) on the digestion capacity and hepatopancreas gene expression of juvenile blunt snout bream (Megalobrama amblycephala). For this purpose, three tanks (300 litres/tank) were randomly arranged and assigned to each experimental diet. Juvenile fish were fed with diets containing graded Thr levels (0.58, 1.08, 1.58, 2.08 or 2.58% of the diet) to apparent satiation four times daily. At the end of the feeding trial, the results indicated that hepatopancreas weight, hepatosomatic index, hepatopancreatic protein content, intestinal weight, intestosomatic index and intestinal protein content increased with increasing dietary Thr levels up to 1.58% and thereafter decreased (P < 0.05). The activities of chymotrypsin, trypsin, amylase and lipase elevated as dietary Thr levels increased up to 1.58% (P<0.05), while these activities decreased in most cases after 1.58% dietary Thr except for chymotrypsin and trypsin in the hepatopancreas (plateau 1.58-2.08% Thr). The relative gene expression levels of chymotrypsin, trypsin, amylase, lipase, target of rapamycin and insulin-like growth factor-I were up-regulated, and the highest values were observed with 1.58% dietary Thr or 1.58 and 2.08% dietary Thr, whereas the relative gene expression levels of eukaryotic translation initiation factor 4E-binding protein 2 gradually decreased (P<0.10) as dietary Thr levels increased up to 1.58% and thereafter significantly increased (P<0.05), which could explain that about 1.58% dietary Thr could improve the growth and development of digestive organs and activities of digestive enzymes of juvenile blunt snout bream.

分类号: R15

  • 相关文献

[1]Protein-sparing effect of dietary lipid in practical diets for blunt snout bream (Megalobrama amblycephala) fingerlings: effects on digestive and metabolic responses. Li, Xiangfei,Jiang, Yangyang,Liu, Wenbin,Ge, Xianping. 2012

[2]Ontogeny expression of ghrelin, neuropeptide Y and cholecystokinin in blunt snout bream, Megalobrama amblycephala. Ping, H. -C.,Feng, K.,Zhang, G. -R.,Wei, K. -J.,Wang, W. -M.,Zou, G. -W.. 2014

[3]The effect of dietary folic acid on biochemical parameters and gene expression of three heat shock proteins (HSPs) of blunt snout bream (Megalobrama amblycephala) fingerling under acute high temperature stress. Sesay, Daniella Fatmata,Habte-Tsion, Habte-Michael,Zhou, Qunlan,Ren, Mingchun,Xie, Jun,Liu, Bo,Sesay, Daniella Fatmata,Zhou, Qunlan,Ren, Mingchun,Xie, Jun,Liu, Bo,Chen, Ruli,Pan, Liangkun.

[4]Growth performance and TOR pathway gene expression of juvenile blunt snout bream, Megalobrama amblycephala, fed with diets replacing fish meal with cottonseed meal. Zhou, Qun-Lan,Habte-Tsion, Habte-Michael,Ge, Xianping,Zhou, Qun-Lan,Ge, Xianping,Liu, Bo,Xie, Jun,Ren, Mingchun,Miao, Linghong,Pan, Liangkun.

[5]A deficiency or an excess of dietary threonine level affects weight gain, enzyme activity, immune response and immune-related gene expression in juvenile blunt snout bream (Megalobrama amblycephala). Habte-Tsion, Habte-Michael,Ge, Xianping,Liu, Bo,Xie, Jun,Ren, Mingchun,Zhou, Qunlan,Ge, Xianping,Liu, Bo,Xie, Jun,Ren, Mingchun,Zhou, Qunlan,Miao, Linghong,Pan, Liangkun,Chen, Ruli.

[6]Effects of dietary L-threonine levels on antioxidant capacity, digestive enzyme activities, and antibody production of Xinyang green-shell laying hens. Li, J. M.,Zhang, X. Y.,Yuan, C.,Miao, L. P.,Dong, X. Y.,Lu, J. J.,Zou, X. T.,Yan, H. X..

[7]Substitution of Wheat for Corn in Beef Cattle Diets: Digestibility, Digestive Enzyme Activities, Serum Metabolite Contents and Ruminal Fermentation. Liu, Y. F.,Zhao, H. B.,Liu, X. M.,You, W.,Cheng, H. J.,Wan, F. C.,Liu, G. F.,Tan, X. W.,Song, E. L.,Zhang, X. L.,Liu, Y. F.,Zhao, H. B.,Liu, X. M.,You, W.,Cheng, H. J.,Wan, F. C.,Liu, G. F.,Tan, X. W.,Song, E. L.,Zhang, X. L..

[8]Interactions of dietary protein and threonine on growth performance in Pekin ducklings from 1 to 14 days of age. Jiang, Y.,Xie, M.,Tang, J.,Hou, S. S.,Jiang, Y.,Tang, J.,Qiao, S. Y.,Wen, Z. G.,Zhu, Y. W.. 2018

[9]Effects of dietary protein on threonine requirements of Pekin ducks from hatch to 21 days of age. Jiang, Y.,Uzma, M.,Tang, T.,Hou, S. S.,Huang, W.,Xie, M.,Jiang, Y.,Tang, T.,Wen, Z. G..

[10]Threonine supplementation reduces dietary protein and improves lipid metabolism in Pekin ducks. Jiang, Y.,Tang, J.,Xie, M.,Hou, S. S.,Jiang, Y.,Tang, J.,Qiao, S. Y.,Wen, Z. G..

[11]Effects of dietary threonine and immune stress on growth performance, carcass trait, serum immune parameters, and intestinal muc2 and NF-kappa b gene expression in Pekin ducks from hatch to 21 days. Bi, Y.,Nan, X. M.,Zheng, S. S.,Xiong, B. H.,Jiang, L. S.. 2018

[12]Threonine modulates immune response, antioxidant status and gene expressions of antioxidant enzymes and antioxidant-immune-cytokine-related signaling molecules in juvenile blunt snout bream (Megalobrama amblycephala). Habte-Tsion, Habte-Michael,Ren, Mingchun,Liu, Bo,Ge, Xianping,Xie, Jun,Ren, Mingchun,Liu, Bo,Ge, Xianping,Xie, Jun,Chen, Ruli,Habte-Tsion, Habte-Michael.

[13]Threonine influences the absorption capacity and brush-border enzyme gene expression in the intestine of juvenile blunt snout bream (Megalobrama amblycephala). Habte-Tsion, Habte-Michael,Ren, Mingchun,Liu, Bo,Ge, Xianping,Xie, Jun,Zhou, Qunlan,Ren, Mingchun,Liu, Bo,Ge, Xianping,Xie, Jun,Chen, Ruli,Zhou, Qunlan,Pan, Liangkun,Habte-Tsion, Habte-Michael.

[14]Estimation of L-threonine requirements for Longyan laying ducks. Fouad, A. M.,Zhang, H. X.,Chen, W.,Xia, W. G.,Ruan, D.,Wang, S.,Zheng, C. T.,Fouad, A. M..

[15]Effects of dietary folic acid on the growth, digestive enzyme activity, immune response and antioxidant enzyme activity of blunt snout bream (Megalobrama amblycephala) fingerling. Sesay, Daniella Fatmata,Habte-Tsion, Habte-Michael,Zhou, Qunlan,Ren, Mingchun,Xie, Jun,Liu, Bo,Zhou, Qunlan,Ren, Mingchun,Xie, Jun,Liu, Bo,Chen, Ruli,Pan, Liangkun.

[16]Dietary arginine requirement of juvenile blunt snout bream, Megalobrama amblycephala. Ren, Mingchun,Xie, Jun,Liu, Bo,Zhou, Qunlan,Ge, Xianping,Pan, Liangkun,Chen, Ruli,Liao, Yingjie,Xie, Jun,Liu, Bo,Ge, Xianping,Cui, Honghong. 2013

[17]Effects of dietary supplementation of fructooligosaccharide on growth performance, body composition, intestinal enzymes activities and histology of blunt snout bream (Megalobrama amblycephala) fingerlings. Wu, Y.,Liu, W. -B.,Xu, W. -N.,Li, X. -F.,Jiang, G. -Z.,Li, H. -Y.,He, J. -X..

[18]Dietary threonine requirement of juvenile blunt snout bream (Megalobrama amblycephala). Habte-Tsion, Habte-Michael,Liu, Bo,Ren, Mingchun,Ge, Xianping,Xie, Jun,Zhou, Qunlan,Liu, Bo,Ren, Mingchun,Ge, Xianping,Xie, Jun,Zhou, Qunlan,Miao, Linghong,Pan, Liangkun,Chen, Ruli.

[19]Removal of early fruiting branches impacts leaf senescence and yield by altering the sink/source ratio of field-grown cotton. Chen, Yizhen,Dong, Hezhong,Chen, Yizhen,Kong, Xiangqiang,Dong, Hezhong,Kong, Xiangqiang,Dong, Hezhong. 2018

[20]Transgenic expression of delta-6 and delta-15 fatty acid desaturases enhances omega-3 polyunsaturated fatty acid accumulation in Synechocystis sp PCC6803. Chen, Gao,Bian, Fei,Peng, Zhenying,Zhang, Yan,Yu, Jinhui,Xuan, Ning,Bi, Yuping,He, Qingfang,Chen, Gao,Bian, Fei,Peng, Zhenying,Zhang, Yan,Yu, Jinhui,Xuan, Ning,Bi, Yuping,He, Qingfang,He, Qingfang,Wang, Qiang,Qu, Shujie,Ge, Haitao. 2014

作者其他论文 更多>>

微信小程序