The Progress and Challenges in Metabolic Research in China

文献类型: 外文期刊

第一作者: Xu, Li

作者: Xu, Li;Ren, Hao;Gao, Guangang;Zhou, Linkang;Li, Peng;Xu, Li;Ren, Hao;Gao, Guangang;Zhou, Linkang;Li, Peng;Xu, Li;Malik, Muhammad Arshad

作者机构:

关键词: metabolism;lipid metabolism;metabolic regulation;metabolic diseases

期刊名称:IUBMB LIFE ( 影响因子:3.885; 五年影响因子:4.022 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Metabolism refers to a chain of chemical reactions converting food/fuel into energy to conduct cellular processes, including the synthesis of the building blocks of the body, such as proteins, lipids, nucleic acids, and carbohydrates, and the elimination of nitrogenous wastes. Metabolic chain reactions are catalyzed by various enzymes that are orchestrated in specific pathways. Metabolic pathways are important for organisms to grow and reproduce, maintain their structures, and respond to their environments. The coordinated regulation of metabolic pathways is important for maintaining metabolic homeostasis. The key steps and crucial enzymes in these pathways have been well investigated. However, the crucial regulatory factors and feedback (or feedforward) mechanisms of nutrients and intermediate metabolites of these biochemical processes remain to be fully elucidated. In addition, the roles of these enzymes and regulatory factors in controlling metabolism under physiological and pathological conditions are largely unknown. In particular, metabolic dysregulation is closely linked to the development of many diseases, including obesity, fatty liver, diabetes, cancer, cardiovascular, cerebrovascular, and neurodegenerative diseases. Therefore, metabolism, an old area of biochemistry, has attracted much attention in the last decade. With substantially increased government funding, the involvement of talented researchers, an improved infrastructure and scientific environment over the last ten years, the basic research in the field of metabolism in China has dramatically advanced. Here, we have summarized the major discoveries of scientists in China in the last decade in the area of metabolism. Due to the vast amount of information, we focused this review on specific aspects of metabolism, particularly metabolic regulation and lipid metabolism in vertebrates. (C) 2016 IUBMB Life

分类号: Q5

  • 相关文献

[1]The response of digestive enzyme activity in the mature Chinese mitten crab, Eriocheir sinensis (Decapoda: Brachyura), to gradual increase of salinity. Wang, Ruifang,Zhuang, Ping,Feng, Guangpeng,Zhang, Longzhen,Huang, Xiaorong,Zhao, Feng,Wang, Yu,Wang, Ruifang,Zhuang, Ping. 2013

[2]Crystallization and preliminary X-ray analysis of a novel esterase Rv0045c from Mycobacterium tuberculosis. Xu, Lipeng,Liu, Siguo,Xu, Lipeng,Guo, Jiubiao,Zheng, Xiangdong,Pang, Hai,Wen, Tingyi,Sun, Fei. 2010

[3]Comparative analysis of effects of dietary arachidonic acid and EPA on growth, tissue fatty acid composition, antioxidant response and lipid metabolism in juvenile grass carp, Ctenopharyngodon idellus. Tian, Jing-jing,Lei, Cai-xia,Ji, Hong,Zhou, Ji-shu,Yu, Hai-bo,Li, Yang,Tian, Jing-jing,Yu, Er-meng,Xie, Jun,Kaneko, Gen. 2017

[4]The effect of equol injection in ovo on lipid metabolism and hepatic lipogenic gene expression in broilers. Ni, Y. D.,Wei, X. J.,Zhang, C. X.,Zhong, Y.,Zhao, R. Q.,Lu, L. Z.,Grossmann, R.. 2012

[5]Lipoprotein metabolism differs between Marek's disease susceptible and resistant chickens. Yuan, P.,Yu, Y.,Luo, J.,Tian, F.,Song, J.,Yu, Y.,Zhang, H.,Chang, S.,Ramachandran, R.,Zhang, L.. 2012

[6]Expression and methylation of microsomal triglyceride transfer protein and acetyl-CoA carboxylase are associated with fatty liver syndrome in chicken. Liu, Zhen,Li, Qinghe,Liu, Ranran,Zhao, Guiping,Zhang, Yonghong,Zheng, Maiqing,Cui, Huanxian,Li, Peng,Cui, Xiaoyan,Liu, Jie,Wen, Jie,Liu, Zhen,Li, Qinghe,Liu, Ranran,Zhao, Guiping,Zheng, Maiqing,Cui, Huanxian,Li, Peng,Cui, Xiaoyan,Liu, Jie,Wen, Jie,Zhang, Yonghong.

[7]Dietary n-3 LC-PUFAs affect lipoprotein lipase (LPL) and fatty acid synthase (FAS) activities and mRNA expression during vitellogenesis and ovarian fatty acid composition of female silver pomfret (Pampus argenteus) broodstock. Peng, S.,Shi, Z.,Gao, Q.,Zhang, C.,Wang, J..

[8]Effect of dietary phosphorus levels on meat quality and lipid metabolism in broiler chickens. Li, Xue-ke,Wang, Jin-zhi,Wang, Chun-qing,Zhang, Chun-hui,Li, Xia,Wei, Xiu-li,Li, Xue-ke,Tang, Chun-hong.

[9]Fat deposition pattern and mechanism in response to dietary lipid levels in grass carp, Ctenopharyngodon idellus. Yuan, Xiaochen,Liang, Xu-Fang,Liu, Liwei,Fang, Jinguang,Li, Jiao,Li, Aixuan,Cai, Wenjing,Wang, Qingchao,Xue, Min,Wang, Jia.

[10]Modulation of appetite, lipid and glucose metabolism of juvenile grass carp (Ctenopharyngodon idellus) by different dietary protein levels. Li, Jiao,Liu, Liwei,Liang, Xu-Fang,Yuan, Xiaochen,Li, Jie,Li, Bin,Wang, Qingchao,Fang, Jinguang,Li, Jiao,Liu, Liwei,Liang, Xu-Fang,Yuan, Xiaochen,Li, Jie,Li, Bin,Fang, Jinguang,Xue, Min,Wang, Jia.

[11]Expression profiles of key transcription factors involved in lipid metabolism in Beijing-You chickens. Fu, R. Q.,Liu, R. R.,Zhao, G. P.,Zheng, M. Q.,Chen, J. L.,Wen, J..

[12]Effects of dietary oxidized oil on laying performance, lipid metabolism, and apolipoprotein gene expression in laying hens. Yue, H. Y.,Wang, J.,Qi, X. L.,Ji, F.,Liu, M. F.,Wu, S. G.,Zhang, H. J.,Qi, G. H..

[13]RNA interference of leptin receptor in chicken adipocytes. Huang, A. X.,Fu, Y.,Wu, T. X.,Huang, A. X.,Li, J. J.,Tian, Y.,Shen, J. D.,Tao, Z. R.,Li, G. Q.,Lu, L. Z.. 2014

[14]Severe riboflavin deficiency induces alterations in the hepatic proteome of starter Pekin ducks. Tang, Jing,Hu, Jian,Xie, Ming,Shi, Wenbiao,Jiang, Yong,Hou, Shuisheng,Tang, Jing,Guo, Yuming,Hegeman, Maria A.,Shi, Wenbiao,de Boer, Vincent,Keijer, Jaap. 2017

[15]Genetic Variant in Flavin-Containing Monooxygenase 3 Alters Lipid Metabolism in Laying Hens in a Diet-Specific Manner. Wang, Jing,Long, Cheng,Zhang, Haijun,Zhang, Yanan,Wang, Hao,Yue, Hongyuan,Wang, Xiaocui,Wu, Shugeng,Qi, Guanghai. 2016

[16]Dietary butylated hydroxytoluene improves lipid metabolism, antioxidant and anti-apoptotic response of largemouth bass (Micropterus salmoides). Yu, L. L.,Yu, H. H.,Liang, X. F.,Li, N.,Wang, X.,Wu, X. F.,Zheng, Y. H.,Xue, M.,Yu, H. H.,Xue, M.,Xue, M.,Liang, X. F.,Liang, X. F.,Li, F. H.. 2018

[17]Identification of Quantitative Trait Loci for Lipid Metabolism in Rice Seeds. Ying, Jie-Zheng,Shan, Jun-Xiang,Gao, Ji-Ping,Zhu, Mei-Zhen,Shi, Min,Lin, Hong-Xuan,Ying, Jie-Zheng,Shan, Jun-Xiang,Gao, Ji-Ping,Zhu, Mei-Zhen,Shi, Min,Lin, Hong-Xuan,Ying, Jie-Zheng. 2012

[18]MicroRNA-126 participates in lipid metabolism in mammary epithelial cells. Chu, Meiqiang,Zhao, Yong,Feng, Yanni,Li, Lan,Shen, Wei,Min, Lingjiang,Zhang, Hongfu,Liu, Jing,Cheng, Ming,Cao, Hongfang,Li, Qiang. 2017

[19]Flaxseed oil containing flaxseed oil ester of plant sterol attenuates high-fat diet-induced hepatic steatosis in apolipoprotein-E knockout mice. Han, Hao,Ma, Hongfei,Rong, Shuang,Chen, Li,Shan, Zhilei,Liu, Liegang,Han, Hao,Ma, Hongfei,Rong, Shuang,Chen, Li,Shan, Zhilei,Liu, Liegang,Xu, Jiqu,Zhang, Yunjian.

[20]The effects of raising system on the lipid metabolism and meat quality traits of slow-growing chickens. Yang, Ye,Wen, Jie,Fang, Gui You,Li, Zong Rong,Dong, Zhi Yan,Liu, Jing.

作者其他论文 更多>>

微信小程序