[1]Quantitative detection of the rice false smut pathogen Ustilaginoidea virens by real-time PCR. Li, H.,Ni, D. H.,Li, J.,Li, H.,Ni, D. H.,Duan, Y. B.,Li, J.,Song, F. S.,Li, L.,Wei, P. C.,Yang, J. B.,Li, H.,Wei, P. C.,Duan, Y. B.,Song, F. S.,Chen, Y.. 2013

[2]Bioactive Bis-naphtho-gamma-pyrones from Rice False Smut Pathogen Ustilaginoidea virens. Lu, Shiqiong,Sun, Weibo,Meng, Jiajia,Wang, Ali,Wang, Xiaohan,Tian, Jin,Fu, Xiaoxiang,Lai, Daowan,Zhou, Ligang,Dai, Jungui,Dai, Jungui,Liu, Yang.

[3]Differential expression profiling of the early response to Ustilaginoidea virens between false smut resistant and susceptible rice varieties. Han, Yanqing,Zhang, Kang,Yang, Jun,Zhang, Nan,Fang, Anfei,Zhang, Yong,Sun, Wenxian,Han, Yanqing,Zhang, Kang,Yang, Jun,Zhang, Nan,Fang, Anfei,Zhang, Yong,Sun, Wenxian,Liu, Yongfeng,Chen, Zhiyi,Hsiang, Tom. 2015

[4]The role of Ustilaginoidea virens sclerotia in increasing incidence of rice false smut disease in the subtropical zone in China. Yong, Mingli,Deng, Qide,Fan, Linlin,Wang, Zhengyi,Hu, Dongwei,Miao, Jiankun,Wang, Shu,Bai, Yuanjun,Lai, Chaohui,Chen, Hongming,Yang, Xiujuan,Chen, Furu,Jin, Li,Yang, Binghui. 2018

[5]Epiphytic colonization of Ustilaginoidea virens on biotic and abiotic surfaces implies the widespread presence of primary inoculum for rice false smut disease. Guo, X. -Y.,Li, Y.,Li, L.,Xu, Y. -J.,Zhao, J. -Q.,Wang, W.,Guo, X. -Y.,Xiong, H.,Huang, F.,Liu, Y. -F.,Yu, J. -J..

[6]Identification of pathogenicity-related genes in the rice pathogen Ustilaginoidea virens through random insertional mutagenesis. Yu, Mina,Yu, Junjie,Hu, Jiankun,Huang, Lei,Wang, Yahui,Yin, Xiaole,Nie, Yafeng,Meng, Xiangkun,Wang, Weiduo,Liu, Yongfeng,Hu, Jiankun,Huang, Lei.

[7]Coupling Seq-BSA and RNA-Seq Analyses Reveal the Molecular Pathway and Genes Associated with Heading Type in Chinese Cabbage. Gu, AiXia,Chen, YueQi,Wei, Lai,Lu, Yin,Wang, YanHua,Chen, XuePing,Zhao, JianJun,Shen, ShuXing,Meng, Chuan,Dong, Hui. 2017

[8]Comparative transcriptome analysis of fruiting body and sporulating mycelia of Villosiclava virens reveals genes with putative functions in sexual reproduction. Yu, Jun-Jie,Yu, Mi-Na,Nie, Ya-Feng,Yin, Xiao-Le,Zhao, Jie,Wang, Ya-Hui,Ding, Hui,Qi, Zhong-Qiang,Du, Yan,Liu, Yong-Feng,Sun, Wen-Xian,Sun, Wen-Xian,Huang, Li.

[9]Transgenic expression of a rice riboflavin synthase gene in tobacco enhances plant growth and resistance to Tobacco mosaic virus. Zhao, Y. Y.,Wang, D. F.,Dong, H. S.,Zhang, C. L.,Wu, T. Q.,Guo, A.. 2014

[10]Relationships among hormone changes, transmembrane Ca2+ flux and lipid peroxidation during leaf senescence in spring maize. He, P,Jin, JY. 1999

[11]The 14-3-3 protein GENERAL REGULATORY FACTOR11 (GRF11) acts downstream of nitric oxide to regulate iron acquisition in Arabidopsis thaliana. Yang, Jian Li,Chen, Wei Wei,Chen, Li Qian,Zheng, Shao Jian,Chen, Wei Wei,Qin, Cheng,Jin, Chong Wei,Shi, Yuan Zhi.

[12]Ectopic expression of the cotton non-symbiotic hemoglobin gene GhHb1 triggers defense responses and increases disease tolerance in Arabidopsis. Zhong, Nai-Qin,Wang, Hai-Yun,Chen, An-Ping,Jian, Gui-Liang,Xia, Gui-Xian. 2006

[13]Phenotypic and Transcriptomic Analyses of Autotetraploid and Diploid Mulberry (Morus alba L.). Dai, Fanwei,Wang, Zhenjiang,Luo, Guoqing,Tang, Cuiming. 2015

[14]Reactive oxygen species and hormone signaling cascades in endophytic bacterium induced essential oil accumulation in Atractylodes lancea. Zhou, Jia-Yu,Zhao, Dan,Deng-Wang, Meng-Yao,Dai, Chuan-Chao,Li, Xia.

[15]Cloning and expression of putative ethylene receptor genes in soybean plant. Xie Zongming,Lei Gang,Hada, Wuriyanghan,Tian Aiguo,Zhang Jinsong,Chen Shouyi.

[16]Dicer-like 3 produces transposable element-associated 24-nt siRNAs that control agricultural traits in rice. Wei, Liya,Gu, Lianfeng,Song, Xianwei,Cui, Xiekui,Lu, Zhike,Zhou, Ming,Wang, Lulu,Cao, Xiaofeng,Wei, Liya,Gu, Lianfeng,Song, Xianwei,Cui, Xiekui,Lu, Zhike,Zhou, Ming,Wang, Lulu,Cao, Xiaofeng,Wei, Liya,Cui, Xiekui,Hu, Fengyi,Zhai, Jixian,Meyers, Blake C.,Zhai, Jixian,Meyers, Blake C..

[17]A genotypic difference in primary root length is associated with the inhibitory role of transforming growth factor-beta receptor-interacting protein-1 on root meristem size in wheat. He, Xue,Fang, Jingjing,Li, Jingjuan,Qu, Baoyuan,Ren, Yongzhe,Ma, Wenying,Zhao, Xueqiang,Li, Bin,Wang, Daowen,Li, Zhensheng,Tong, Yiping,Fang, Jingjing,Li, Jingjuan,Ren, Yongzhe. 2014

[18]Characterization and cloning of SMALL GRAIN 4, a novel DWARF11 allele that affects brassinosteroid biosynthesis in rice. Shi, Zhenyuan,Rao, Yuchun,Xu, Jie,Hu, Shikai,Fang, Yunxia,Yu, Haiping,Pan, Jiangjie,Liu, Ruifang,Ren, Deyong,Wang, Xiaohu,Zhu, Yangzhou,Zhu, Li,Dong, Guojun,Zhang, Guangheng,Zeng, Dali,Guo, Longbiao,Hu, Jiang,Qian, Qian,Rao, Yuchun,Zhu, Yangzhou,Xu, Jie. 2015

[19]Somatic embryogenesis receptor-like kinase 5 in the ecotype Landsberg erecta of Arabidopsis is a functional RD LRR-RLK in regulating brassinosteroid signaling and cell death control. Wu, Wangze,Wu, Yujun,Gao, Yang,Li, Meizhen,Yin, Hongju,Lv, Minghui,Zhao, Jianxin,Li, Jia,He, Kai,Wu, Wangze. 2015

[20]Integrative RNA-and miRNA-Profile Analysis Reveals a Likely Role of BR and Auxin Signaling in Branch Angle Regulation of B. napus. Cheng, Hongtao,Hao, Mengyu,Wang, Wenxiang,Mei, Desheng,Liu, Jia,Wang, Hui,Sang, Shifei,Tang, Min,Zhou, Rijin,Chu, Wen,Fu, Li,Hu, Qiong,Wells, Rachel. 2017