[1]The OsHAPL1-DTH8-Hd1 complex functions as the transcription regulator to repress heading date in rice. Zhu, Shanshan,Wu, Fuqing,Li, Chaonan,Cheng, Zhijun,Zhang, Xin,Guo, Xiuping,Sheng, Peike,Wang, Jiulin,Lei, Cailin,Wang, Jie,Zhao, Zhichao,Wu, Chuanyin,Wang, Haiyang,Wan, Jianmin,Wang, Jiachang,Cai, Maohong,Zhang, Huan,Xu, Yang,Wu, Mingming,Wan, Jianmin.

[2]Domestication and association analysis of Hd1 in Chinese mini-core collections of rice. Wei, Xin,Qiao, Weihua,Yuan, Nannan,Chen, Youtao,Wang, Rongsheng,Cao, Lirong,Zhang, Wanxia,Yang, Qingwen,Wei, Xin,Zeng, Hanlai. 2014

[3]Genetic diversity within Oryza rufipogon germplasms preserved in Chinese field gene banks of wild rice as revealed by microsatellite markers. Zhang, Chi-Hong,Li, Dao-Yuan,Pan, Da-Jian,Jia, Ji-Zeng,Dong, Yu-Shen.

[4]Genetic variation and phylogeography of Psammosilene tunicoides (Caryophyllaceae), a narrowly distributed and endemic species in south-western China. Zhang, Qing-Ying,Zhao, Yu-Juan,Gong, Xun,Zhang, Qing-Ying.

[5]Effects of Hd2 in the presence of the photoperiod-insensitive functional allele of Hd1 in rice. Zhuang, Jie-Yun,Cheng, Shi-Hua. 2016

[6]Flowering time regulation by the CONSTANS-Like gene OsCOL10. Tan, Junjie,Wu, Fuqing,Wan, Jianmin,Wan, Jianmin,Tan, Junjie. 2017

[7]A CONSTANS-like transcriptional activator, OsCOL13, functions as a negative regulator of flowering downstream of OsphyB and upstream of Ehd1 in rice. Sheng, Peike,Tan, Junjie,Liu, Xuanming,Sheng, Peike,Wu, Fuqing,Tan, Junjie,Zhang, Huan,Ma, Weiwei,Chen, Liping,Wang, Jiachang,Wang, Jie,Zhu, Shanshan,Guo, Xiuping,Wang, Jiulin,Zhang, Xin,Cheng, Zhijun,Wu, Chuanyin,Wan, Jianmin,Bao, Yiqun,Wan, Jianmin.

[8]OsCOL10, a CONSTANS-Like Gene, Functions as a Flowering Time Repressor Downstream of Ghd7 in Rice. Tan, Junjie,Jin, Mingna,Wu, Fuqing,Sheng, Peike,Cheng, Zhijun,Wang, Jiulin,Zheng, Xiaoming,Wang, Min,Zhu, Shanshan,Guo, Xiuping,Zhang, Xin,Wang, Haiyang,Wu, Chuanyin,Wan, Jianmin,Tan, Junjie,Sheng, Peike,Liu, Xuanming,Wan, Jianmin,Wang, Jiachang,Chen, Liping,Wang, Chunming,Wan, Jianmin,Tan, Junjie.

[9]Development and characterization of chromosome segment substitution lines derived from Oryza rufipogon in the genetic background of O. sativa spp. indica cultivar 9311. Qiao, Weihua,Qi, Lan,Cheng, Zhijun,Su, Long,Li, Jing,Sun, Yan,Zheng, Xiaoming,Yang, Qingwen,Qi, Lan,Ren, Junfang. 2016

[10]Characterization of quantitative trait loci for number of primary branches in near-isogenic lines from a cross between the Oryza sativa cultivar 'Hwayeongbyeo' and the wild relative Oryza rufipogon. Ji, Shi-Dong,Xiao, Luo,Lee, Hyun-Sook,Ahn, Sang-Nag,Yuan, Ping-Rong. 2012

[11]Genome-wide multilocus analysis of intraspecific differentiation in Oryza rufipogon Griff. from China and the influence of introgression from O. sativa L.. Li, F.,Pei, X. W.,Jia, S. R.,Wang, F.,Yuan, Q. H.,Wu, H. J.,Peng, Y. F.. 2013

[12]Genetic diversity associated with conservation of endangered Dongxiang wild rice (Oryza rufipogon). Xie, J.,Hu, B.,Xie, J.,Kong, D.,Hu, B.,Wan, Y.,Agrama, H. A.,Hu, B.,Zhuang, J.,Yan, W..

[13]Domestication and geographic origin of Oryza sativa in China: Insights from multilocus analysis of nucleotide variation of O. sativa and O. rufipogon. Wei, Xin,Zeng, Han-Lai,Wei, Xin,Qiao, Wei-Hua,Chen, You-Tao,Wang, Rong-Sheng,Cao, Li-Rong,Zhang, Wan-Xia,Yuan, Nan-Nan,Yang, Qing-Wen,Li, Zi-Chao.

[14]Genomic dissection of small RNAs in wild rice (Oryza rufipogon): lessons for rice domestication. Wang, Yu,Bai, Xuefei,Yan, Chenghai,Gui, Yiejie,Fan, Longjiang,Wang, Yu,Bai, Xuefei,Yan, Chenghai,Gui, Yiejie,Fan, Longjiang,Wei, Xinghua,Guo, Longbiao,Zhu, Qian-Hao.

[15]Variation of the OsGI intron and its phenotypic associations in Oryza rufipogon Griff. and Oryza sativa L.. Chen, Z.,Pei, X.,Jia, S.,Wang, F.,Yuan, Q.,Wu, H.,Peng, Y.. 2013

[16]Assessment of population genetic structure in common wild rice Oryza rufipogon Griff. using microsatellite and allozyme markers. Gao, LZ,Schaal, BA,Zhang, CH,Jia, JZ,Dong, YS. 2002

[17]A large-scale field study of transgene flow from cultivated rice (Oryza sativa) to common wild rice (O-rufipogon) and barnyard grass (Echinochloa crusgalli). Yuan, Qian-Hua,Shi, Lei,Qian, Qian,Liu, Wu-Ge,Kuang, Ba-Geng,Zeng, Da-Li,Liao, Yi-Long,Cao, Bin,Jia, Shi-Rong. 2006

[18]Population structural analysis of an in-situ conservation site for wild rice in Laos. Wang, Yan-Ping,Zhang, Hong-Sheng,Bounphanousay, Chay,Kanyavong, Kongpanh,Nakamura, Ikuo,Sato, Yo-Ichiro,Sato, Tadashi,Wang, Yan-Ping,Tang, Ling-hua,Ishikawa, Ryuji. 2012

[19]Combinations of the Ghd7, Ghd8 and Hd1 genes largely define the ecogeographical adaptation and yield potential of cultivated rice. Zhou, Xiangchun,Yan, Wenhao,Zhang, Zhanyi,Lu, Li,Han, Zhongmin,Zhao, Hu,Liu, Haiyang,Song, Pan,Hu, Yong,Shen, Guojing,He, Qin,Wang, Gongwei,Xing, Yongzhong,Zhang, Jia,Zhou, Xiangchun,Yan, Wenhao,Zhang, Zhanyi,Lu, Li,Han, Zhongmin,Zhao, Hu,Liu, Haiyang,Song, Pan,Hu, Yong,Shen, Guojing,He, Qin,Wang, Gongwei,Xing, Yongzhong,Guo, Sibin,Gao, Guoqing.

[20]Fungal Biodiversity Profiles 21-30. Buyck, Bart,Duhem, Bernard,Hofstetter, Valerie,Das, Kanad,Parihar, Arvind,Jayawardena, Ruvishika S.,Niveiro, Nicolas,Michlig, Andrea,Fabian Popoff, Orlando,Andrea Ramirez, Natalia,Niveiro, Nicolas,Michlig, Andrea,Fabian Popoff, Orlando,Andrea Ramirez, Natalia,Lewish, David P.,Pereira, Olinto L.,da Silva, Meiriele,Prasher, Indu B.,Verma, Rajnish K.,Adhikari, Sinchan,Omar Alberto, Edgardo,Bulgakov, Timur S.,Castareda-Ruiz, Rafael F.,Hembrom, Manoj E.,Hyde, Kevin D.,Hyde, Kevin D.,Buyck, Bart,Nuytinck, Jorinde.