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[2]Genomic analysis of hybrid rice varieties reveals numerous superior alleles that contribute to heterosis. Huang, Xuehui,Zhao, Yan,Feng, Qi,Gong, Hao,Li, Wenjun,Zhan, Qilin,Liu, Kunyan,Zhu, Chuanrang,Huang, Tao,Zhao, Qiang,Zhang, Lei,Fan, Danlin,Zhou, Congcong,Lu, Yiqi,Weng, Qijun,Wang, Zi-Xuan,Han, Bin,Yang, Shihua,Gong, Junyi,Cheng, Benyi,Xia, Junhui,Chen, Neng,Hao, Zhongna,Li, Jiayang.

[3]BREEDING AND CHARACTERIZATION OF HOMOKARYOTIC HETEROPLASMIC MALE STERILE LINES IN RICE (ORYZA SATIVA). Zhu, Yingguo,Mei, Qiming,Zhou, Xichang,Xie, Rong,Liu, Chengyuan.

[4]Limited tissue culture-induced mutations and linked epigenetic modifications in F-1 hybrids of sorghum pure lines are accompanied by increased transcription of DNA methyltransferases and 5-methylcytosine glycosylases. von Wettstein, Diter,Zhang, Meishan,Xu, Chunming,Zhao, Na,Liu, Bao,Zhang, Meishan,Yan, Hongyan. 2009

[5]Applications of xerophytophysiology in plant production - Sorghum plants improved by exposing the mesocotyl as stimulus. Xu, Hui-lian,Xu, Rongyan,Qin, Feifei,Qin, Feifei,Wang, Fahong,Li, Fengmin. 2009

[6]Tannins in livestock feeds in China. Diao, QY,Qi, GG. 2000

[7]Genetic contribution of Chinese landraces to the development of sorghum hybrids. Li, Y,Li, CZ. 1998

[8]Progress in Sorghum Head Smut Research. Bai, Chunming,Lu, Xiaochun,Tao, Chengguang,Liu, Yifei. 2016

[9]Transgenic expression of a sorghum gene (SbLRR2) encoding a simple extracellular leucine-rich protein enhances resistance against necrotrophic pathogens in Arabidopsis. Zhu, Fu-Yuan,Lo, Clive,Zhu, Fu-Yuan,Zhang, Jianhua,Zhu, Fu-Yuan,Zhang, Jianhua,Li, Lei.

[10]Identification of two novel waxy alleles and development of their molecular markers in sorghum. Li, Yan,Fan, Jing,Zhao, Jiqun,Xu, Yongju,Wang, Wenming,Zhao, Ganlin,Ding, Guoxiang,Ni, Xianlin.

[11]Allelopathic effects of Hemistepta lyrata on the germination and growth of wheat, sorghum, cucumber, rape, and radish seeds. Gao, Xingxiang,Li, Mei,Gao, Zongjun,Li, Changsong,Sun, Zuowen.

[12]Preparation of a modified flue gas desulphurization residue and its effect on pot sorghum growth and acidic soil amelioration. Shi, Lin,Li, Yongli,Xu, Peizhi,Xie, Kaizhi,Tang, Shuanhu.

[13]Nutrient Limiting Factors in Acidic Vegetable Soils. Wang Zheng-Yin,Tu Shi-Hua,Sulewski, G..

[14]Isolation and expression analysis of defense-related genes in sorghum-Colletotrichum sublineolum interaction. Li, Lei,Li, Lei,Zhu, Fuyuan,Chu, Apple,Lo, Clive,Liu, Hongjia.

[15]Molecular cloning and expression analysis of duplicated polyphenol oxidase genes reveal their functional differentiations in sorghum. Yan, Song,Li, Sujuan,Zhai, Guowei,Shao, Jianfeng,Tao, Yuezhi,Zou, Guihua,Yan, Song,Zhu, Shan,Huang, Renliang,Lu, Ping,Deng, Hui.

[16]Genetic Structure Analysis of Sorghum Parent Lines Based on SSR Markers. Wang, L. M.,Yan, X. F.,Wang, L. M.,Jiao, S. J.,Jiang, Y. X.,Yan, H. D.,Su, D. F.,Sun, G. Q.,Sun, L. F.. 2013

[17]Development of Head Smut Resistance-linked Sequence Characterized Amplified Regions Markers in Sorghum. Li, Yueying,Ma, Lianju,Ma, Chunyan,Li, Xuemei,Lu, Dan,Lu, Shuiyi,Hao, Lin,Zou, Jianqiu. 2012

[18]Chinese sorghum genetic resources. Lu, QS,Dahlberg, JA. 2001

[19]Identification of genomic region associated with rice weevil resistance in sorghum [Sorghum bicolor (L.) Moench]. Zhai, Guowei,Wang, Hua,Li, Sujuan,Liu, Heqing,Shao, Jianfeng,Tao, Yuezhi,Zou, Guihua.

[20]Identification of QTLs for salt tolerance at germination and seedling stage of Sorghum bicolor L. Moench. Wang, Hailian,Chen, Guiling,Zhang, Huawen,Liu, Bin,Yang, Yanbing,Qin, Ling,Chen, Erying,Guan, Yanan.