[1]Influence of embryo handling and transfer method on pig cloning efficiency. Shi, Junsong,Zhou, Rong,Luo, Lvhua,Mai, Ranbiao,Zeng, Haiyu,He, Xiaoyan,Ji, Hongmei,Wang, Qinglai,Wu, Zhenfang,Li, Zicong,Shi, Junsong,Zhou, Rong,Luo, Lvhua,Mai, Ranbiao,Zeng, Haiyu,He, Xiaoyan,Ji, Hongmei,Wang, Qinglai,Wu, Zhenfang,Li, Zicong,He, Xiaoyan,Liu, Dewu,Zeng, Fang,Cai, Gengyuan,Tang, Fei,Wu, Zhenfang,Li, Zicong,Liu, Dewu,Zeng, Fang,Cai, Gengyuan,Tang, Fei,Wu, Zhenfang,Li, Zicong.

[2]Optimization of cryopreservation of buffalo (Bubalus bubalis) blastocysts produced by in vitro fertilization and somatic cell nuclear transfer. Yang, C. Y.,Pang, C. Y.,Yang, B. Z.,Li, R. C.,Liang, X. W.,Lu, Y. Q..

[3]Mutation of the XIST gene upregulates expression of X-linked genes but decreases the developmental rates of cloned male porcine embryos. Yang, Yang,Wu, Dan,Liu, Dewu,Quan, Jianping,Cai, Gengyuan,Zheng, Enqin,Wu, Zhenfang,Li, Zicong,Yang, Yang,Wu, Dan,Liu, Dewu,Quan, Jianping,Cai, Gengyuan,Zheng, Enqin,Wu, Zhenfang,Li, Zicong,Shi, Junsong,Zhou, Rong,He, Xiaoyan.

[4]MC1568 Enhances Histone Acetylation During Oocyte Meiosis and Improves Development of Somatic Cell Nuclear Transfer Embryos in Pig. Wang, Huili,Meng, Chunhua,Zhang, Jun,Li, Yinxia,Qian, Yong,Xing, Guangdong,Cao, Shaoxian,Cui, Wei,Zhao, Dongmin. 2018

[5]A Comparison of in vitro Development of Buffalo (Bubalus bubalis) Embryos Produced either by Somatic Cell Nuclear Transfer or in vitro Fertilization using Oocytes Obtained by Different Methods. Yang, Chunyan,Pang, Chunying,Zheng, Haiying,Huang, Fenxiang,Shang, Jianghua,Wang, Jian,Yang, Bingzhuang,Liang, Xianwei. 2013

[6]Separation and quantification of milk casein from different buffalo breeds. Li, Shanshan,Liu, Jianxin,Ren, Daxi,Li, Ling,Zeng, Qingkun,Li, Ling.

[7]Comparative protein profiles: Potential molecular markers from spermatozoa of Acipenseriformes (Chondrostei, Pisces). Li, Ping,Hulak, Martin,Rodina, Marek,Li, Zhi-Hua,Linhart, Otomar,Li, Ping,Li, Zhi-Hua,Sulc, Miroslav.

[8]Differential Protein Analysis of IPEC-J2 Cells Infected with Porcine Epidemic Diarrhea Virus Pandemic and Classical Strains Elucidates the Pathogenesis of Infection. Lin, Huixing,Chen, Lei,Ma, Zhe,Fan, Hongjie,Li, Bin,He, Kongwang,Fan, Hongjie.

[9]Proteomic analysis of strawberry leaves infected with Colletotrichum fragariae. Fang, Xianping,Chen, Wenyue,Xin, Ya,Yu, Hong,Xiao, Wenfei,Wang, Shuzhen,Zheng, Guizhen,Liu, Hongbo,Jin, Liang,Ma, Huasheng,Ruan, Songlin,Zhang, Hengmu,Yan, Chengqi,Liu, Hui.

[10]The beta subunit of glyceraldehyde 3-phosphate dehydrogenase is an important factor for maintaining photosynthesis and plant development under salt stress-Based on an integrative analysis of the structural, physiological and proteomic changes in chloroplasts in Thellungiella halophila. Chang, Lili,Guo, Anping,Wang, Xuchu,Chang, Lili,Guo, Anping,Jin, Xiang,Yang, Qian,Wang, Dan,Sun, Yong,Huang, Qixing,Wang, Limin,Peng, Cunzhi,Wang, Xuchu.

[11]Identification of differentially regulated maize proteins conditioning Sugarcane mosaic virus systemic infection. Chen, Hui,Xia, Zihao,Xie, Jipeng,Wu, Boming,Fan, Zaifeng,Zhou, Tao,Chen, Hui,Xia, Zihao,Xie, Jipeng,Wu, Boming,Fan, Zaifeng,Zhou, Tao,Cao, Yanyong,Li, Yiqing,Carr, John P..

[12]Systematic comparison of technical details in CBB methods and development of a sensitive GAP stain for comparative proteomic analysis. Wang, Xuchu,Wang, Dongyang,Wang, Dan,Wang, Haiyan,Chang, Lili,Yi, Xiaoping,Peng, Ming,Guo, Anping.

[13]The protective effects of vitamin C on apoptosis, DNA damage and proteome of pufferfish (Takifugu obscurus) under low temperature stress. Cheng, Chang-Hong,Liang, Hai-Yan,Luo, Sheng-Wei,Wang, An-Li,Ye, Chao-Xia. 2018

[14]Comparative proteomics analysis provide novel insight into laminitis in Chinese Holstein cows. Dong, Shu-Wei,Zhang, Shi-Dong,Wang, Dong-Sheng,Wang, Hui,Shang, Xiao-Fei,Yan, Zuo-Ting,Yang, Zhi-Qiang,Dong, Shu-Wei,Yan, Ping. 2015

[15]Comparative proteomics of Bt-transgenic and non-transgenic cotton leaves. Wang, Limin,Wang, Xuchu,Jin, Xiang,Jia, Ruizong,Huang, Qixing,Tan, Yanhua,Guo, Anping,Wang, Limin. 2015

[16]Comparative proteomic and bioinformatic analysis of Theileria luwenshuni and Theileria uilenbergi. Zhang, Xiao,Li, Youquan,Chen, Ze,Liu, Zhijie,Ren, Qiaoyun,Yang, Jifei,Zhu, Xinquan,Guan, Guiquan,Liu, Aihong,Luo, Jianxun,Yin, Hong,Zhang, Xiao,Li, Youquan,Chen, Ze,Liu, Zhijie,Ren, Qiaoyun,Yang, Jifei,Zhu, Xinquan,Guan, Guiquan,Liu, Aihong,Luo, Jianxun,Yin, Hong,Zhang, Xiao,Li, Youquan,Chen, Ze,Liu, Zhijie,Ren, Qiaoyun,Yang, Jifei,Zhu, Xinquan,Guan, Guiquan,Liu, Aihong,Luo, Jianxun,Yin, Hong.

[17]Comparative Proteomics of Leaves from Phytase-Transgenic Maize and Its Non-transgenic Isogenic Variety. Tan, Yanhua,Zhang, Jiaming,Guo, Anping,Wang, Xuchu,Tan, Yanhua,Yi, Xiaoping,Wang, Limin,Peng, Cunzhi,Sun, Yong,Wang, Dan,Zhang, Jiaming,Guo, Anping,Wang, Xuchu. 2016

[18]Comparative Analysts of Flower Proteomes of Two Apple Genotypes Selected by their Different Resistance to Alternaria alternate. Zhang, Cai-xia,Zhang, Li-yi,Tian, Yi,Cong, Pei-hua,Zhang, Cai-xia,Zhang, Li-yi,Tian, Yi,Cong, Pei-hua.

[19]Comparative Proteomics of Rubber Latex Revealed Multiple Protein Species of REF/SRPP Family Respond Diversely to Ethylene Stimulation among Different Rubber Tree Clones. Tong, Zheng,Wang, Dan,Sun, Yong,Yang, Qian,Meng, Xueru,Wang, Limin,Wang, Xuchu,Feng, Weiqiang,Wang, Xuchu,Li, Ling,Wurtele, Eve Syrkin,Wang, Xuchu,Li, Ling,Wurtele, Eve Syrkin,Li, Ling. 2017

[20]Identification of potential virulence determinants associated H9N2 avian influenza virus PB2 E627K mutation by comparative proteomics. Qi, Wenbao,Su, Shuo,Huang, Lihong,Li, Huanan,Liao, Ming,Tian, Jin.