[1]Resveratrol induces apoptosis and inhibits adipogenesis by stimulating the SIRT1-AMPK alpha-FOXO1 signalling pathway in bovine intramuscular adipocytes. Liu, Xiaomu,Zhao, Hongbo,Jin, Qing,You, Wei,Cheng, Haijian,Liu, Yifan,Song, Enliang,Liu, Guifen,Tan, Xiuwen,Zhang, Xianglun,Wan, Fachun,Liu, Xiaomu,Zhao, Hongbo,Jin, Qing,You, Wei,Cheng, Haijian,Liu, Yifan,Song, Enliang,Liu, Guifen,Tan, Xiuwen,Zhang, Xianglun,Wan, Fachun. 2018

[2]Effects of dietary resveratrol supplementation on hepatic and serum pro-/anti-inflammatory activity in juvenile GIFT tilapia, Oreochromis niloticus. Zheng, Yao,Wu, Wei,Song, Chao,Meng, Shunlong,Fan, Limin,Bing, Xuwen,Chen, Jiazhang,Zheng, Yao,Zhao, Zhixiang,Wu, Wei,Bing, Xuwen,Chen, Jiazhang.

[3]Lentivirus-mediated Sirt1 shRNA and resveratrol independently induce porcine preadipocyte apoptosis by canonical apoptotic pathway. Pang, Wei-Jun,Xiong, Yan,Zhang, Zhao,Wei, Ning,Yang, Gong-she,Chen, Ni.

[4]Association between genetic polymorphisms of antioxidant enzyme genes and susceptibility to hepatocellular carcinoma: a meta-analysis. Meng, Zhaolu,Shi, Huiling. 2016

[5]Recombinant Newcastle disease virus expressing human TRAIL as a potential candidate for hepatoma therapy. Wu, Yunzhou,An, Ying,Yan, Shijun,Yin, Jiechao,Li, Deshan,He, Jinjiao,Geng, Jingshu,Ye, Xianlong,Yu, Qingzhong,Zhang, Zhenyu.

[6]Proteome Differences between Hepatitis B Virus Genotype-B- and Genotype-C-Induced Hepatocellular Carcinoma Revealed by iTRAQ-Based Quantitative Proteomics. Wei, Dahai,Zeng, Yongyi,Xing, Xiaohua,Liu, Hongzhi,Lin, Minjie,Liu, Xiaolong,Liu, Jingfeng,Wei, Dahai,Zeng, Yongyi,Xing, Xiaohua,Liu, Hongzhi,Lin, Minjie,Liu, Xiaolong,Liu, Jingfeng,Zeng, Yongyi,Liu, Jingfeng,Han, Xiao,Liu, Xiaolong,Liu, Jingfeng.

[7]Reveal the molecular signatures of hepatocellular carcinoma with different sizes by iTRAQ based quantitative proteomics. Wang, Yingchao,Liu, Hongzhi,Liang, Dong,Huang, Yao,Zeng, Yongyi,Xing, Xiaohua,Xia, Jiangbao,Lin, Minjie,Liao, Naishun,Liu, Xiaolong,Liu, Jingfeng,Wang, Yingchao,Liu, Hongzhi,Liang, Dong,Huang, Yao,Zeng, Yongyi,Xing, Xiaohua,Xia, Jiangbao,Lin, Minjie,Liao, Naishun,Liu, Xiaolong,Liu, Jingfeng,Liu, Hongzhi,Liang, Dong,Huang, Yao,Zeng, Yongyi,Liu, Jingfeng,Han, Xiao.

[8]Role of MicroRNAs in Hepatocellular Carcinoma. Zhu, Zixiang,Zhang, Xiangle,Zheng, Haixue,Wang, Guoqing. 2014

[9]Prohibitin-2 promotes hepatocellular carcinoma malignancy progression in hypoxia based on a label-free quantitative proteomics strategy. Cheng, Jun,Wu, Jian,Wu, Liming,Xie, Haiyang,Zheng, Shusen,Zhou, Lin,Cheng, Jun,Gao, Feng,Xing, Chunyang,Lv, Zhen,Wu, Liming,Ye, Sunyi,Xie, Haiyang,Zheng, Shusen,Zhou, Lin,Gao, Feng,Chen, Xiang,Xu, Wei,Xie, Qing.

[10]The application of proteomics in different aspects of hepatocellular carcinoma research. Xing, Xiaohua,Liang, Dong,Huang, Yao,Zeng, Yongyi,Liu, Xiaolong,Liu, Jingfeng,Liang, Dong,Xing, Xiaohua,Huang, Yao,Zeng, Yongyi,Liu, Xiaolong,Liu, Jingfeng,Huang, Yao,Zeng, Yongyi,Liu, Jingfeng,Han, Xiao.

[11]The Synthesis and Accumulation of Resveratrol Are Associated with Veraison and Abscisic Acid Concentration in Beihong (Vitis vinifera x Vitis amurensis) Berry Skin. Wang, Junfang,Wang, Shuqin,Liu, Guotian,Duan, Wei,Li, Shaohua,Wang, Lijun,Wang, Junfang,Wang, Shuqin,Liu, Guotian,Duan, Wei,Li, Shaohua,Wang, Lijun,Wang, Junfang,Wang, Shuqin,Liu, Guotian,Edwards, Everard J.. 2016

[12]Optimisation for resveratrol accumulation during peanut germination with phenylalanine feeding & ultrasound-treatment using response surface methodology. Yu, Miao,Yu, Miao,Liu, Hongzhi,Yang, Ying,Shi, Aimin,Liu, Li,Hui, Hui,Wang, Qiang,Yu, Miao. 2016

[13]Somatic embryos cultures of Vitis amurensis Rupr. in air-lift bioreactors for the production of biomass and resveratrol. Sun, Dan,Li, Changyu,Qin, Hongyan,Zhang, Qingtian,Yang, Yiming,Ai, Jun. 2016

[14]Stilbene C-glucosides from Cissus repens. Wang, Y. -H.,He, H. -P.,Wang, J. -S.,Zhou, H.,Hao, X. -J.,Wang, Y. -H.,Wang, J. -S.,Zhou, H.,Zhang, Z. -K.,Ding, M.. 2007

[15]Hepatic transcriptome analysis of juvenile GIFT tilapia (Oreochromis niloticus), fed diets supplemented with different concentrations of resveratrol. Zheng, Yao,Wu, Wei,Hu, Gengdong,Meng, Shunlong,Fan, Limin,Song, Chao,Qiu, Liping,Chen, Jiazhang,Zhao, Zhixiang,Chen, Jiazhang,Chen, Jiazhang. 2018

[16]Isolation and identification of resveratrol-producing endophytes from wine grape Cabernet Sauvignon. Liu, Ya,Nan, Lijun,Liu, Junchao,Yan, Haiyan,Zhang, Dianpeng,Han, Xinnian. 2016

[17]Ability of resveratrol to inhibit advanced glycation end product formation and carbohydrate-hydrolyzing enzyme activity, and to conjugate methylglyoxal. Shen, Yixiao,Sheng, Zhanwu,Shen, Yixiao,Xu, Zhimin. 2017

[18]Effect of dietary supplementation with resveratrol on nutrient digestibility, methanogenesis and ruminal microbial flora in sheep. Ma, T.,Chen, D. -D.,Tu, Y.,Zhang, N. -F.,Si, B. -W.,Diao, Q. -Y.,Deng, K. -D..

[19]Influence of glycosylation of deamidated wheat gliadin on its interaction mechanism with resveratrol. Qiu, Chaoying,Wang, Yong,Teng, Yinglai,Qiu, Chaoying,Zhao, Mouming.

[20]Physicochemical Changes and Glycation Reaction in Intermediate-Moisture Protein-Sugar Foods with and without Addition of Resveratrol during Storage. Sheng, Zhanwu,Gu, Mantun,Hao, Wangjun,Shen, Yixiao,Zheng, Lili,Ai, Binling,Zheng, Xiaoyan,Sheng, Zhanwu,Zhang, Weimin,Xu, Zhimin.