[1]Comparative Proteomic Analysis of Spike-Development Inhibited and Normal Tillers of Wheat 3558. Zheng Yong-sheng,Gao Ai-nong,Li Li-hui,Liu Wei-hua,Ma Xiao-gang,Chi De-zhao. 2013

[2]Novel aspects of understanding molecular working mechanisms of salivary glands of worker honeybees (Apis mellifera) investigated by proteomics and phosphoproteomics. Feng, Mao,Fang, Yu,Han, Bin,Zhang, Lan,Lu, Xiaoshan,Li, Jianke.

[3]An integrated proteomics reveals pathological mechanism of honeybee (Apis cerena) sacbrood disease. Han, Bin,Zhang, Lan,Feng, Mao,Fang, Yu,Li, Jianke.

[4]Ultrastructural, physiological and proteomic analysis of Nostoc flagelliforme in response to dehydration and rehydration. Wang, Lingxia,You, Xiangrong,Chen, Wei,Liang, Wenyu,Zhou, Youwen,Zhang, Yaping,Cheng, Chi-Lien,You, Xiangrong.

[5]Floral reversion mechanism in longan (Dimocarpus longan Lour.) revealed by proteomic and anatomic analyses. Wang, Ling,Liang, Wenyu,Gai, Yonghong,Wang, Xiaoyan,Chen, Wei,You, Xiangrong,Chen, Wei,You, Xiangrong,Liang, Wenyu.

[6]Unraveling molecular mechanistic differences in liver metabolism between lean and fat lines of Pekin duck (Anas platyrhynchos domestica): A proteomic study. Zheng, Aijuan,Chang, Wenhuan,Zhang, Shu,Cai, Huiyi,Chen, Guilan,Lou, Ruiying,Liu, Guohua,Hou, Shuisheng.

[7]Comparative proteomic analysis of cucumber roots infected by Fusarium oxysporum f. sp cucumerium Owen. Zhang, Di,Hao, Yu Han,Fan, Hai Yan,Cui, Na,Wang, Shan Shan,Fan, Hai Yan,Meng, Ke Xin,Song, Tie Feng.

[8]Proteomics Changes in Filling Seeds of Vegetable Soybean. Zhang, Yumei,Hu, Runfang,Li, Huawei,Zhu, Haisheng,Lin, Guoqiang,Zhao, Jinming,Guo, Na,Xing, Han.

[9]Comparative proteomic analysis of longan (Dimocarpus longan Lour.) seed abortion. Liu, Hao,Liu, Yan-zhen,Chen, Wei,Zheng, Shao-quan,Jiang, Ji-mou,Wang, Ping,Liu, Hao,Liu, Yan-zhen,Chen, Wei.

[10]Proteomic Analysis of PEG-Induced Drought Stress Responsive Protein in TERF1 Overexpressed Sugarcane (Saccharum officinarum) Leaves. Rahman, M. Anisur,Ren, Lei,Wu, Wei,Yan, Yanchun,Rahman, M. Anisur.

[11]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.

[12]SAD, a stearoyl-acyl carrier protein desaturase highly expressed in high-oil maize inbred lines. Liu, Zh. J.,Yang, X. H.,Fu, Y..

[13]Evaluation of four protein extraction methods for proteomic analysis of mango peel. Liao, D. J.,Lu, X. P.,Chen, H. S.,Mo, Z. Y.,Lu, Y.. 2016

[14]Proteome analysis on lethal effect of l (2) in the sex-linked balanced lethal strains of silkworm, Bombyx mori. Chen, Jine,Zhong, Boxiong,Chen, Jine,Niu, Baolong,Wang, Yongqiang,Liu, Yan,Liu, Peigang,Meng, Zhiqi. 2012

[15]Comparative Proteomic Analysis Reveals Differential Root Proteins in Medicago sativa and Medicago truncatula in Response to Salt Stress. Long, Ruicai,Zhang, Tiejun,Kang, Junmei,Cong, Lili,Gao, Yanli,Yang, Qingchuan,Li, Mingna,Sun, Yan,Liu, Fengqi. 2016

[16]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

[17]Plasma proteomic profiles of healthy and mastitic cows - host responses to bovine mastitis. Niu, LiLi,Niu, LiLi,Wei, CaiHong,Du, LiXin. 2013

[18]Proteomic analysis of a disease-resistance-enhanced lesion mimic mutant spotted leaf 5 in rice. Chen, Xifeng,Fu, Shufang,Zhang, Pinghua,Gu, Zhimin,Liu, Jianzhong,Ma, Bojun,Qian, Qian. 2013

[19]Identification of differentially expressed proteins between bull X and Y spermatozoa. Chen, Xiaoli,Zhu, Huabin,Hao, Haisheng,Zhao, Xueming,Du, Weihua,Qin, Tong,Liu, Yan,Wang, Dong,Chen, Xiaoli,Wu, Chengjiang,Han, Weidong. 2012

[20]Comparative analysis of the effects of different storage conditions on major royal jelly proteins. Li, Jian-ke,Wang, Ting,Peng, Wen-jun. 2007