[1]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.

[2]MiR-144 affects fatty acid composition by regulating ELOVL6 expression in duck hepatocytes. He, Jun,Tian, Yong,Liu, Yali,Tao, Zhengrong,Li, Guoqin,Lu, Lizhi,He, Jun,Zhao, Yan,Niu, Dong,Lu, Yingru.

[3]miR-29a modulates SCD expression and is regulated in response to a saturated fatty acid diet in juvenile genetically improved farmed tilapia (Oreochromis niloticus). Qiang, Jun,Tao, Yi Fan,He, Jie,Sun, Yi Lan,Xu, Pao.

[4]Screening and Identification of Differentially Expressed Genes in Goose Hepatocytes Exposed to Free Fatty Acid. Pan, Zhixiong,Wang, Jiwen,Kang, Bo,Han, Chunchun,Tang, Hui,Li, Liang,Xu, Feng,Zhou, Zehui,Lv, Jia,Lu, Lizhi. 2010

[5]A global transcriptional analysis of Megalobrama amblycephala revealing the molecular determinants of diet-induced hepatic steatosis. Zhang, Dingdong,Lu, Kangle,Jiang, Guangzhen,Liu, Wenbin,Tian, Hongyan,Li, Xiangfei,Zhang, Dingdong,Dong, Zaijie.

[6]Zinc Oxide Nanoparticle Caused Plasma Metabolomic Perturbations Correlate with Hepatic Steatosis. Zhang, Weidong,Zhao, Yong,Li, Lan,Feng, Yanni,Min, Lingjiang,Ma, Dongxue,Yu, Shuai,Shen, Wei,Zhao, Yong,Zhang, Hongfu,Li, Fuli,Liu, Jing,Shi, Tianhong,Li, Fuwei. 2018

[7]Flaxseed lignans alleviate high fat diet-induced hepatic steatosis and insulin resistance in mice: Potential involvement of AMP-activated protein kinase. Sun, Jian,Tang, Yuhan,Yu, Xiao,Xu, Yanyan,Liu, Peiyi,Xiao, Lin,Liu, Liegang,Yao, Ping,Sun, Jian,Tang, Yuhan,Yu, Xiao,Xu, Yanyan,Liu, Peiyi,Xiao, Lin,Liu, Liegang,Yao, Ping,Deng, Qianchun,Deng, Qianchun.

[8]Wolfberries potentiate mitophagy and enhance mitochondrial biogenesis leading to prevention of hepatic steatosis in obese mice: The role of AMP-activated protein kinase alpha 2 subunit. Lin, Dingbo,He, Hui,Willard, Lloyd,Ji, Hua,Ji, Hua,Willis, Jordan,Jiang, Yu,Wark, Logan,Han, Jing,Medeiros, Denis M.,Liu, Yongzhang,Lu, Bin,Liu, Yongzhang,Lu, Bin. 2014

[9]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

[10]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

[11]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

[12]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

[13]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.

[14]The Progress and Challenges in Metabolic Research in China. 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.

[15]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..

[16]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.

[17]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.

[18]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.

[19]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..

[20]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..