[1]Genome-wide association for grain yield under rainfed conditions in historical wheat cultivars from Pakistan. Ain, Qurat-ul,Anwar, Alia,Mahmood, Tariq,Quraishi, Umar M.,Rasheed, Awais,Xia, Xianchun,He, Zhonghu,Rasheed, Awais,He, Zhonghu,Mahmood, Tariq,Imtiaz, Muhammad. 2015

[2]Genome-wide association study of grain yield and related traits using a collection of advanced indica rice breeding lines for irrigated ecosystems. Zhou, Meixue,McNeil, David,Liang, Shanshan,Zhao, Xiangqian,Ye, Guoyou,Wu, Liwen,Wu, Liwen,Ren, Guangjun.

[3]Identification of loci contributing to maize drought tolerance in a genome-wide association study. Wang, Nan,Lv, Xiang-ling,Li, Feng-hai,Wang, Zhen-ping,Jiang, Li-yan,Liang, Xiao-ling,Yang, Jie,Wang, Nan,Wang, Zhen-ping,Weng, Jian-feng,Zhang, De-gui,Yong, Hong-jun,Li, Ming-shun,Zhang, Shi-huang,Hao, Zhuan-fang,Li, Xin-hai.

[4]Effects of Bagging on the Quality of Pear Fruit and Pesticide Residues. Lin, Jing,Chang, Youhong,Yan, Zhimei,Li, Xiaogang. 2008

[5]Reduction of Escherichia coli O157:H7 on produce by use of electrolyzed water under simulated food service operation conditions. Pangloli, Philipus,Hung, Yen-Con,Beuchat, Larry R.,Beuchat, Larry R.,King, C. Harold,Zha, Zhi-Hui.

[6]Effect of ultrasound treatment on fruit decay and quality maintenance in strawberry after harvest. Cao, Shifeng,Hu, Zhichao,Pang, Bin,Wang, Haiou,Xie, Huanxiong,Wu, Feng.

[7]Pyramiding of Pi46 and Pita to improve blast resistance and to evaluate the resistance effect of the two R genes. Xiao Wu-ming,Luo Li-xin,Wang Hui,Guo Tao,Liu Yong-zhu,Zhou Ji-yong,Chen Zhi-qiang,Zhu Xiao-yuan,Yang Qi-yun. 2016

[8]Development of SNP-based dCAPS markers for identifying male sterile gene tms5 in two-line hybrid rice. Song, F. S.,Ni, J. L.,Li, L.,Ni, D. H.,Yang, J. B.,Qian, Y. L.. 2016

[9]SSR markers associated with fertility restoration genes against Triticum timopheevii cytoplasm in Diticum aestivum. Zhou, WC,Kolb, FL,Domier, LL,Wang, SW. 2005

[10]Marker-assisted breeding of Indonesia local rice variety Siputeh for semi-dwarf phonetype, good grain quality and disease resistance to bacterial blight. Luo, Yanchang,Yin, Zhongchao,Zakaria, Sabaruddin,Basyah, Bakhtiar,Luo, Yanchang,Ma, Tingchen,Li, Zefu,Yang, Jianbo,Yin, Zhongchao. 2014

[11]Enhancing phosphorus uptake efficiency through QTL-based selection for root system architecture in maize. Gu, Riliang,Chen, Fanjun,Long, Lizhi,Cai, Hongguang,Liu, Zhigang,Yang, Jiabo,Wang, Lifeng,Mi, Guohua,Zhang, Fusuo,Yuan, Lixing,Gu, Riliang,Li, Huiyong,Li, Junhui,Cai, Hongguang,Wang, Lifeng,Li, Huiyong. 2016

[12]Microsatellite mapping of the powdery mildew resistance gene Pm5e in common wheat (Triticum aestivum L.). Huang, XQ,Wang, LX,Xu, MX,Roder, MS. 2003

[13]Marker-assisted breeding of the rice restorer line Wanhui 6725 for disease resistance, submergence tolerance and aromatic fragrance. Luo, Yanchang,Ong, Kar Hui,Yin, Zhongchao,Luo, Yanchang,Ma, Tingchen,Li, Zefu,Yang, Jianbo,Zhang, Aifang,Yin, Zhongchao. 2016

[14]Association mapping of quantitative trait loci for yield-related agronomic traits in rice (Oryza sativa L.). Xu Fei-fei,Huang Yan,Tong Chuan,Chen Ya-ling,Bao Jin-song,Jin Liang. 2016

[15]Molecular detection of rye (Secale cereale L.) chromatin in wheat line 07jian126 (Triticum aestivum L.) and its association to wheat powdery mildew resistance. Long, Hai,Zhang, Jie,Deng, Guangbing,Pan, Zhifen,Yu, Maoqun,Yu, Shuiyang,Zhang, Erliang,Yang, Hong,Zhang, Jie.

[16]Development of molecular markers linked to the wheat powdery mildew resistance gene Pm4b and marker validation for molecular breeding. Yi, Y. J.,Li, H. Y.,Wang, F.,Yi, Y. J.,An, L. Z.,Wang, X. L.,Huang, X. Q.. 2008

[17]Marker-assisted selection of two-line hybrid rice for disease resistance to rice blast and bacterial blight. Ni, Dahu,Song, Fengshun,Ni, Jinlong,Yang, Yachun,Wei, Pengcheng,Yang, Jianbo,Li, Li,Zhang, Aifang,Wang, Chunlian,Zhao, Kaijun.

[18]Genotyping-by-sequencing-based genome-wide association studies on Verticillium wilt resistance in autotetraploid alfalfa (Medicago sativa L.). Yu, Long-Xi,Zhang, Tiejun,Zheng, Ping,Main, Dorrie,Rodringuez, Jonas,Zhang, Tiejun.

[19]Enhancing genetic gain in the era of molecular breeding. Xu, Yunbi,Zou, Cheng,Xie, Chuanxiao,Xu, Yunbi,Zhang, Xuecai,Li, Ping,Lu, Yanli,Prasanna, Boddupalli M.,Olsen, Michael S..

[20]Fine mapping and marker-assisted selection (MAS) of a low glutelin content gene in rice. Wang, YH,Liu, SJ,Ji, SL,Zhang, WW,Wang, CM,Jiang, L,Wan, JM.