[1]The escalating threat of Rhizoctonia cerealis, the causal agent of sharp eyespot In wheat. Hamada, Mohamed Sobhy,Yin, Yanni,Ma, Zhonghua,Chen, Huaigu.

[2]The wheat AGC kinase TaAGC1 is a positive contributor to host resistance to the necrotrophic pathogen Rhizoctonia cerealis. Zhu, Xiuliang,Yang, Kun,Wei, Xuening,Rong, Wei,Du, Lipu,Ye, Xingguo,Qi, Lin,Zhang, Zengyan,Zhang, Qiaofeng.

[3]Mapping of a wheat resistance gene to yellow mosaic disease by amplified fragment length polymorphism and simple sequence repeat markers. Nie, H,He, ZT,Chen, XL,Han, YP,Wang, JR,Li, X,Han, CG,Yu, JL. 2005

[4]小麦赤霉病抗性分子标记研究. 张旭,任丽娟,周淼平,高力,沈晓蓉,向阳海,马鸿翔,陆维忠. 2005

[5]Characterization of Rhizoctonia cerealis sensitivity to thifluzamide in China. Sun, Haiyan,Wang, Chengfeng,Li, Wei,Zhang, Aixiang,Deng, Yuanyu,Chen, Huaigu.

[6]Expression of a radish defensin in transgenic wheat confers increased resistance to Fusarium graminearum and Rhizoctonia cerealis. Li, Zhao,Zhang, Zengyan,Du, Lipu,Xu, Huijun,Xin, Zhiyong,Li, Zhao,Zhou, Miaoping,Ren, Lijuan,Zhang, Boqiao.

[7]Homozygous and heterozygous point mutations in succinate dehydrogenase subunits b, c and d of Rhizoctonia cerealis conferring resistance to thifluzamide. Sun, Hai-Yan,Lu, Chao-Qun,Li, Wei,Deng, Yuan-Yu,Chen, Huai-Gu.

[8]Detection and quantification of Rhizoctonia cerealis in soil using real-time PCR. Guo, Yingpeng,Li, Wei,Sun, Haiyan,Wang, Ning,Chen, Huaigu,Guo, Yingpeng,Yu, Hanshou. 2012

[9]Construction of a high-density linkage map and mapping quantitative trait loci for somatic embryogenesis using leaf petioles as explants in upland cotton (Gossypium hirsutum L.). Zhenzhen Xu,Chaojun Zhang,Xiaoyang Ge,Ni Wang,Kehai Zhou,Xiaojie Yang,Zhixia Wu,Xueyan Zhang,Chuanliang Liu,Zuoren Yang,Changfeng Li,Kun Liu,Zhaoen Yang,Yuyuan Qian,Fuguang Li.

[10]Quantitative Trait Loci Associated with Drought Tolerance in Brachypodium distachyon. Jiang, Yiwei,Pei, Zhongyou,Liu, Huifen,Jiang, Yiwei,Zhao, Xiongwei,Wang, Xicheng,Yu, Xiaoqing,Zhao, Xiongwei,Luo, Na,Garvin, David F.,Garvin, David F.. 2017

[11]Characterization and genetic mapping of a new blood-flesh trait controlled by the single dominant locus DBF in peach. Shen, Zhijun,Yu, Mingliang,Ma, Ruijuan,Confolent, Carole,Lambert, Patrick,Poessel, Jean-Luc,Quilot-Turion, Benedicte,Pascal, Thierry. 2013

[12]Improving the resistance of eggplant (Solanum melongena) to Verticillium wilt using wild species Solanum linnaeanum. Liu, Jun,Zheng, Zisong,Zhou, Xiaohui,Feng, Cui,Zhuang, Yong.

[13]Genetic linkage map of Lolium multiflorum Lam. constructed from a BC1 population derived from an interspecific hybridization, L. multiflorum x Lolium temulentum L. x L. temulentum. Guan, Xuanli,Tan, Lubin,Fu, Yongcai,Cai, Hongwei,Guan, Xuanli,Tan, Lubin,Fu, Yongcai,Cai, Hongwei,Hirata, Mariko,Yuyama, Nana,Cai, Hongwei,Ding, Chenglong,Xu, Nengxiang,Tan, Lubin,Wang, Jianping.

[14]Introgression of clubroot resistance into an elite pak choi inbred line through marker-assisted introgression breeding. Chen, Longzheng,Zhang, Xiaoqing,Xu, Hai,Song, Bo,Fan, Xiaoxue.

[15]Genetic Relationship of Loquat Analyzed by ISSR. Xu, C. M.,Shen, Z. J.,Liu, D.,Zhang, Z..

[16]Analysis of simple sequence repeats in the Gaeumannomyces graminis var. tritici genome and the development of microsatellite markers. Li, Wei,Feng, Yanxia,Sun, Haiyan,Deng, Yuanyu,Chen, Huaigu,Feng, Yanxia,Yu, Hanshou. 2014

[17]Construction of a linkage map for quantitative trait loci associated with economically important traits in creeping bentgrass (Agrostis stolonifera L.). Zhang, Tifu,Ge, Min,Ye, Xiaoqing,Zhao, Han,Bughrara, Suleiman S..

[18]DISTRIBUTION OF SEVEN GRAIN GENES AND EVALUATION OF THEIR GENETIC EFFECTS ON GRAIN TRAITS. Zhang, Yadong,Zhao, Qingyong,Zhao, Chunfang,Chen, Tao,Zhu, Zhen,Zhou, Lihui,Yao, Shu,Zhao, Ling,Wang, Cailin. 2016

[19]Analysis of QTLs for panicle exsertion and its relationship with yield and yield-related traits in rice (Oryza sativa L.). Zhao, C. F.,Chen, T.,Zhao, Q. Y.,Zhou, L. H.,Zhao, L.,Zhang, Y. D.,Zhu, Z.,Yao, S.,Wang, C. L.. 2016

[20]Quantitative trait loci analysis and genome-wide comparison for silique related traits in Brassica napus. Wang, Xiaodong,Chen, Li,Chao, Hongbo,Li, Maoteng,Wang, Xiaodong,Chen, Li,Xiang, Jun,Gan, Jianping,Wang, Aina,Wang, Hao,Tian, Jianhua,Zhao, Xiaoping,Zhao, Yajun,Zhao, Weiguo. 2016