[1]Enhancing bioefficacy of Bacillus subtilis with sodium bicarbonate for the control of ring rot in pear during storage. Liu, Youzhou,Wang, Kerong,Liu, Youzhou,Chen, Zhiyi,Liu, Yongfeng,Wang, Xiaoyu,Luo, Chuping,Nie, Yafeng. 2011

[2]Association analysis of thyroglobulin gene variants with carcass and meat quality traits in beef cattle. Xu, Shang-Zhong,Gan, Qian-Fu,Hou, Guan-Yu,Xu, Shang-Zhong. 2008

[3]Bovine lipid metabolism related gene GPAM: Molecular characterization, function identification, and association analysis with fat deposition traits. Yu, Haibin,Zhao, Zhihui,Lu, Chuanyan,Yang, Runjun,Yu, Xianzhong,Li, Junya.

[4]Effects of feeding beta-carotene on levels of beta-carotene and vitamin A in blood and tissues of beef cattle and the effects on beef quality. Jin, Qing,Cheng, Haijian,Wan, Fachun,Liu, Guifen,Liu, Xiaomu,Zhao, Hongbo,You, Wei,Liu, Yifan,Tan, Xiuwen,Jin, Qing,Cheng, Haijian,Wan, Fachun,Liu, Guifen,Liu, Xiaomu,Zhao, Hongbo,You, Wei,Liu, Yifan,Tan, Xiuwen,Bi, Yulin.

[5]Association of genetic variations in the ACLY gene with growth traits in Chinese beef cattle. Li, M. N.,Guo, X.,Bao, P. J.,Wu, X. Y.,Ding, X. Z.,Chu, M.,Liang, C. N.,Yan, P.. 2016

[6]Modified Bfat-1 gene and its biological verification in mice by hydrodynamic tail vein injection. Gao Xue,Du Xin-hua,Zhang Lu-pei,Chen Yan,Gao Hui-jiang,Xu Shang-zhong,Li Jun-ya,Du Xin-hua. 2016

[7]Wheat distillers grains in feedlot cattle diets: Feeding behavior, growth performance, carcass characteristics, and blood metabolites. Yang, W. Z.,Li, Y. L.,McAllister, T. A.,Beauchemin, K. A.,Li, Y. L.,McKinnon, J. J.. 2012

[8]Polymorphism of MyoD1 and Myf6 genes and associations with carcass and meat quality traits in beef cattle. Du, X. H.,Gan, Q. F.,Yuan, Z. R.,Gao, X.,Zhang, L. P.,Gao, H. J.,Li, J. Y.,Xu, S. Z.,Gan, Q. F.. 2013

[9]Genetic Polymorphisms of Mc4R and IGF2 Gene Association with Feed Conversion Efficiency Traits in Beef Cattle. Du, Xin-hua,Chen, Cui,Yuan, Zheng-rong,Zhang, Li-min,Chen, Xiao-jie,Wang, Yan-hui,Gao, Xue,Zhang, Lu-pei,Gao, Hui-jiang,Li, Jun-ya,Xu, Shang-zhong. 2013

[10]Association between PON1 gene SNPs and growth and carcass traits in beef cattle. Ji, A. C.,Huai, Y. H.,Zhou, Z. K.,Li, J. Y.,Zhang, L. P.,Xu, S. Z.,Gao, X.,Ren, H. Y.,Chen, J. B.,Ji, A. C.,Huai, Y. H.. 2008

[11]Expression analysis, single nucleotide polymorphisms within SIRT4 and SIRT7 genes and their association with body size and meat quality traits in Qinchuan cattle. Gui Lin-sheng,Wang Jia-li,Hong Jie-yun,Zan Lin-sen,Xin Xiao-ling. 2016

[12]Meat quality and carcass traits in relation to HGD-BstXI and HGD-HaeIII PCR-RFLP polymorphism in Chinese red cattle. Cao, Y.,Zhang, L. C.,Yu, Y. S.,Jin, H. G.,Zhou, G. L.,Zhou, G. L.,Li, M..

[13]Effects of citric acid supplementation on rumen fermentation, urinary excretion of purine derivatives and feed digestibility in steers. Liu, Qiang,Yang, Wen Zhu,Wang, Cong,Meng, Jie,Yang, Wen Zhu,Dong, Kuan Hu,Huang, Ying Xiang,Yang, Xiao Min,He, Dong Chang.

[14]Sequence Variations in the Bovine IGF-I and IGFBP3 Genes and Their Association with Growth and Development Traits in Chinese Beef Cattle. Gao Xue,Shi Ming-yan,Li Jun-ya,Ren Hong-yan,Xu Shang-zhong,Shi Ming-yan,Xu Xiu-rong. 2009

[15]Microsatellite markers for animal identification and meat traceability of six beef cattle breeds in the Chinese market. Zhao, Jie,Zhu, Chao,Xu, Zhenzhen,Jiang, Xiaoling,Yang, Shuming,Chen, Ailiang,Zhao, Jie,Zhu, Chao,Xu, Zhenzhen,Jiang, Xiaoling,Yang, Shuming,Chen, Ailiang.

[16]Does the in situ ruminal degradation of feeds vary with the finishing ration fed to beef cattle?. Li, Y. L.,Yang, W. Z.. 2010

[17]Diets of differentially processed wheat alter ruminal fermentation parameters and microbial populations in beef cattle. Jiang, S. Z.,Yang, Z. B.,Yang, W. R.,Zhang, C. Y.,Li, Z.,Liu, X. M.,Wan, F. C.,Liu, X. M.,Wan, F. C..

[18]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..

[19]Effect of wheat distillers dried grains with solubles (DDGS) as a replacement for barley grain and barley silage on ruminal pH and fermentation in finishing beef cattle. Li, Y. L.,Yang, W. Z.,He, M. L.,McAllister, T. A.,Beauchemin, K. A.. 2010

[20]Effects of Three Feeding Systems on Production Performance, Rumen Fermentation and Rumen Digesta Particle Structure of Beef Cattle. Sun, F. F.,Liu, Y. F.,Wan, F. C.,Zhao, H. B.,Liu, X. M.,You, W.,Cheng, H. J.,Liu, G. F.,Tan, X. W.,Song, E. L..