[1]Map-based cloning of a spotted-leaf mutant gene OsSL5 in Japonica rice. Ge, Chang-wei,Pan, Jiang-jie,Zhang, Xiao-qin,Xue, Da-wei,Ge, Chang-wei,E, Zhi-guo,Pan, Jiang-jie,Zeng, Da-li,Dong, Guo-jun,Hu, Jiang,Xue, Da-wei,Jiang, Hua.

[2]Characterization and mapping of a novel mutant sms1 (senescence and male sterility 1) in rice. Yan, Wenyi,Zeng, Longjun,Peng, Yu,Yan, Dawei,Yang, Weibing,Yang, Donglei,He, Zuhua,Yan, Wenyi,Dong, Yanjun,Yan, Wenyi,Ye, Shenghai,Jin, Qingsheng,Zhang, Xiaoming. 2010

[3]Development of gene-tagged molecular markers for starch synthesis-related genes in rice. Tian ZhiXi,Liu GuiFu,Wang YongHong,Liu QiaoQuan,Tang ShuZhu,Li JiaYang,Yan ChangJie,Yan Song,Xie HuiLan,Wang Fang,Xu JieFen,Gu MingHong,Yan ChangJie,Yan Song,Xie HuiLan,Wang Fang,Xu JieFen,Gu MingHong,Qian Qian. 2010

[4]Association Mapping and Marker Development of Genes for Starch Lysophospholipid Synthesis in Rice. Tong Chuan,Bao Jin-Song,Tong Chuan,Liu Lei,Waters, Daniel L. E.. 2016

[5]Characterization of an RNase Z nonsense mutation identified exclusively in environment-conditioned genic male sterile rice. Zhang, Hua-Li,Huang, Jian-Zhong,Nawaz, Zarqa,Lu, Hai-Ping,Shu, Qing-Yao,Zhang, Hua-Li,Huang, Jian-Zhong,Nawaz, Zarqa,Lu, Hai-Ping,Shu, Qing-Yao,Zhang, Hua-Li,Huang, Jian-Zhong,Nawaz, Zarqa,Lu, Hai-Ping,Shu, Qing-Yao,Zhang, Hua-Li,Lu, Hai-Ping,Shu, Qing-Yao,Liu, Qing-Long,Gong, Jun-Yi,Zhu, Yu-Jun,Yan, Wengui. 2014

[6]Breeding of a target genotype variety based on identified chalkiness marker-QTL associations in rice (Oryza sativa L.). Liu, X.,Du, Y. R.,Li, X. H.,Yang, W. Q.,Liu, X.,Wang, Y.,Liu, X.,Li, X. L.. 2015

[7]Allele-specific marker-based assessment revealed that the rice blast resistance genes Pi2 and Pi9 have not been widely deployed in Chinese indica rice cultivars. Tian, Dagang,Zhou, Yuanchang,Tian, Dagang,Chen, Zaijie,Chen, Ziqiang,Wang, Feng,Chen, Songbiao,Wang, Zonghua. 2016

[8]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.

[9]Quantitative Trait Loci Mapping for Bacterial Blight Resistance in Rice Using Bulked Segregant Analysis. Han, Xueying,Chen, Jianping,Han, Xueying,Yang, Yong,Wang, Xuming,Zhou, Jie,Yu, Chulang,Cheng, Chen,Cheng, Ye,Yan, Chengqi,Chen, Jianping,Zhang, Wenhao. 2014

[10]Transcriptome Analysis of a Progeny of Somatic Hybrids of Cultivated Rice (Oryza sativa L.) and Wild Rice (Oryza meyeriana L.) With High Resistance to Bacterial Blight. Wang, Xu-Ming,Zhou, Jie,Yang, Yong,Yu, Fei-Bo,Chen, Juan,Yu, Chu-Lang,Wang, Fang,Cheng, Ye,Yan, Cheng-Qi,Chen, Jian-Ping,Yu, Fei-Bo,Chen, Juan. 2013

[11]Testifying the rice bacterial blight resistance gene xa5 by genetic complementation and further analyzing xa5 (Xa5) in comparison with its homolog TFIIA gamma 1. Jiang, GH,Xia, ZH,Zhou, YL,Wan, J,Li, DY,Chen, RS,Zhai, WX,Zhu, LH.

[12]Application of a simplified marker-assisted backcross technique for hybrid breeding in rice. Ji, Zhijuan,Zeng, Yuxiang,Qian, Qian,Yang, Changdeng,Shi, Jianyao,Ji, Zhijuan,Qian, Qian.

[13]Use of asymmetric somatic hybridization for transfer of the bacterial blight resistance trait from Oryza meyeriana L. to O. sativa L. ssp japonica. Yan, CQ,Qian, KX,Yan, QS,Zhang, XQ,Xue, GP,Huangfu, WG,Wu, YF,Zhao, YZ,Xue, ZY,Huang, J,Xu, GZ,Wu, P. 2004

[14]Improvement of bacterial blight and brown planthopper resistance in an elite restorer line Huazhan of Oryza. Yi, Zili,Xiao, Youlun,Li, Jinjiang,Yu, Jianghui,Meng, Qiucheng,Deng, Xiangyang,Xiao, Guoying,Xiao, Youlun.

[15]Overcoming obstacles to interspecific hybridization between Gossypium hirsutum and G. turneri. Chen, Yu,Chen, Yu,Feng, Shouli,Zhao, Ting,Zhou, Baoliang. 2018

[16]Peanut (Arachis hypogaea L.) Omics and Biotechnology in China. Wang, Xing-Jun,Xia, Han,Wan, Shu-Bo,Zhao, Chuan-Zhi,Li, Ai-Qin,Wang, Xing-Jun,Xia, Han,Wan, Shu-Bo,Zhao, Chuan-Zhi,Li, Ai-Qin,Wang, Xing-Jun,Xia, Han,Wan, Shu-Bo,Zhao, Chuan-Zhi,Li, Ai-Qin,Liu, Shuan-Tao. 2011

[17]Screening for the molecular marker linked to saucer gene of peach fruit shape. Guo, J,Jiang, Q,Zhang, K,Zhao, J,Yang, Y. 2002

[18]Analysis of genetic relationships of mulberry (Morus L.) germplasm using sequence-related amplified polymorphism (SRAP) markers. Zhao, Weiguo,Chung, Il-Min,Zhao, Weiguo,Fang, Rongjun,Pan, Yile,Yang, Yonghua,Chung, Jong-Wook,Park, Yong-Jin. 2009

[19]Genetic analysis and mapping of rice (Oryza sativa L.) male-sterile (OsMS-L) mutant. Liu, HS,Chu, HW,Li, H,Wang, HM,Wei, JL,Li, N,Ding, SY,Huang, H,Ma, H,Huang, CF,Luo, D,Yuang, Z,Liu, JH,Zhang, DB. 2005

[20]Isolation of a new repetitive DNA sequence from Secale africanum enables targeting of Secale chromatin in wheat background. Yang, Zu-Jun,Li, Guang-Rong,Zeng, Zi-Xian,Zhang, Yong,Zhou, Jian-Ping,Liu, Zhao-Hui,Ren, Zheng-Long. 2008