[1]Biochemical and Molecular Characterization of Plant MYB Transcription Factor Family. Du, Hai,Liu, Lei,Tang, Xiao-Feng,Huang, Yu-Bi,Du, Hai,Zhang, Li,Liu, Lei,Tang, Xiao-Feng,Yang, Wen-Jie,Wu, Yan-Min,Tang, Yi-Xiong.

[2]Dissecting the Variations of Ripening Progression and Flavonoid Metabolism in Grape Berries Grown under Double Cropping System. Wang, Yu,He, Lei,Yang, Xiao-Hui,He, Fei,Duan, Chang-Qing,Wang, Jun,Chen, Wei-Kai,Wang, Yu,He, Lei,Yang, Xiao-Hui,He, Fei,Duan, Chang-Qing,Wang, Jun,Bai, Xian-Jin,Cao, Mu-Ming,Cheng, Guo,Cao, Xiong-Jun,Guo, Rong-Rong. 2017

[3]NtPHYB1(K326), a homologous gene of Arabidopsis PHYB, positively regulates the content of phenolic compounds in tobacco. Zhao, Jiehong,Zhang, Jie,Li, Zhenhua,Yu, Jing,Yu, Shizhou,Guo, Yushuang,Fu, Yongfu,Zhang, Xiaomei,Han, Jie.

[4]De Novo Transcriptome Sequencing and the Hypothetical Cold Response Mode of Saussurea involucrata in Extreme Cold Environments. Li, Jin,Liu, Hailiang,Xia, Wenwen,Mu, Jianqiang,Feng, Yujie,Liu, Ruina,Wang, Aiying,Lin, Zhongping,Zhu, Jianbo,Chen, Xianfeng,Liu, Hailiang,Yan, Panyao,Chen, Xianfeng,Lin, Zhongping,Guo, Yong. 2017

[5]Differential gene expression and associated QTL mapping for cotton yield based on a cDNA-AFLP transcriptome map in an immortalized F-2. Liu, Renzhong,Wang, Baohua,Guo, Wangzhen,Zhang, Tianzhen,Liu, Renzhong,Wang, Liguo.

[6]Insights from the Cold Transcriptome and Metabolome of Dendrobium officinale: Global Reprogramming of Metabolic and Gene Regulation Networks during Cold Acclimation. Wu, Zhi-Gang,Jiang, Wu,Chen, Song-Lin,Tao, Zheng-Ming,Jiang, Cheng-Xi,Chen, Song-Lin,Mantri, Nitin. 2016

[7]QTL mapping for fiber quality traits across multiple generations and environments in upland cotton. Fu-Ding Sun,Jian-Hong Zhang,Shu-Fang Wang,Wan-Kui Gong,Yu-Zhen Shi,Ai-Ying Liu,Jun-Wen Li,Ju-Wu Gong,Hai-Hong Shang,You-Lu Yuan.

[8]Comparative Proteomic Analysis of the Graft Unions in Hickory (Carya cathayensis) Provides Insights into Response Mechanisms to Grafting Process. Xu, Dongbin,Yuan, Huwei,Tong, Yafei,Zhao, Liang,Qiu, Lingling,Guo, Wenbin,Yan, Daoliang,Zheng, Bingsong,Xu, Dongbin,Yuan, Huwei,Tong, Yafei,Zhao, Liang,Qiu, Lingling,Guo, Wenbin,Yan, Daoliang,Zheng, Bingsong,Shen, Chenjia,Liu, Hongjia. 2017

[9]Genetic and metabolic engineering of isoflavonoid biosynthesis. Du, Hai,Huang, Yubi,Du, Hai,Tang, Yixiong. 2010

[10]Genome Sequence of Pseudomonas koreensis CRS05-R5, an Antagonistic Bacterium Isolated from Rice Paddy Field. Lin, Haiyan,Hu, Shikai,Liu, Ruifang,Chen, Ping,Ge, Changwei,Guo, Longbiao,Lin, Haiyan,Liu, Ruifang,Zhu, Bo. 2016

[11]Brassinosteroids Improve Quality of Summer Tea (Camellia sinensis L.) by Balancing Biosynthesis of Polyphenols and Amino Acids. Li, Xin,Ahammed, Golam J.,Li, Zhi-Xin,Zhang, Lan,Wei, Ji-Peng,Shen, Chen,Yan, Peng,Zhang, Li-Ping,Han, Wen-Yan,Ahammed, Golam J.,Li, Zhi-Xin,Shen, Chen. 2016

[12]Whole genome sequence of Pseudomonas aeruginosa F9676, an antagonistic bacterium isolated from rice seed. Shi, Zhenyuan,Ren, Deyong,Hu, Shikai,Hu, Xingming,Wu, Liwen,Lin, Haiyan,Hu, Jiang,Zhang, Guangheng,Guo, Longbiao,Hu, Shikai,Lin, Haiyan.

[13]Whole genome sequence of Pantoea ananatis R100, an antagonistic bacterium isolated from rice seed. Wu, Liwen,Liu, Ruifang,Niu, Yaofang,Lin, Haiyan,Ye, Weijun,Guo, Longbiao,Hu, Xingming,Liu, Ruifang,Lin, Haiyan.

[14]Genome-Wide Analysis Reveals the Secondary Metabolome in Streptomyces kanasensis ZX01. Zhang, Guoqiang,Feng, Juntao,Han, Lirong,Zhang, Xing,Zhang, Guoqiang,Yu, Dailin,Sang, Bu. 2017

[15]INFLUENCE OF P DEFICIENCY ON MAJOR SECONDARY METABOLISM IN FLAVONOIDS SYNTHESIS PATHWAY OF CHRYSANTHEMUM MORIFOLIUM RAMAT. Liu, Wei,Wang, Xiao,Zhu, Duan-Wei,Geng, Ming-Jian,Yang, Te-Wu,Liu, Da-Hui.

[16]Glucosinolate biosynthetic genes in Brassica rapa. Wang, Xiaowu. 2011

[17]Nitric oxide mediates brassinosteroid-induced flavonoid biosynthesis in Camellia sinensis L.. Li, Xin,Zhang, Lan,Ahammed, Golam Jalal,Li, Zhi-Xin,Wei, Ji-Peng,Shen, Chen,Yan, Peng,Zhang, Li-Ping,Han, Wen-Yan,Ahammed, Golam Jalal,Wei, Ji-Peng,Shen, Chen.

[18]Complete genome sequence of Pseudomonas azotoformans S4, a potential biocontrol bacterium. Fang, Yang,Wu, Lijuan,Chen, Guoqing,Feng, Guozhong,Fang, Yang.

[19]Genome sequence of Pseudomonas parafulva CRS01-1, an antagonistic bacterium isolated from rice field. Liu, Qunen,Zhang, Yingxin,Yu, Ning,Bi, Zhenzhen,Zhu, Aike,Zhan, Xiaodeng,Wu, Weixun,Yu, Ping,Chen, Daibo,Cheng, Shihua,Cao, Liyong,Zhang, Yingxin,Zhan, Xiaodeng,Wu, Weixun,Yu, Ping,Chen, Daibo,Cheng, Shihua,Cao, Liyong.

[20]The Genome of Medicinal Plant Macleaya cordata Provides New Insights into Benzylisoquinoline Alkaloids Metabolism. Liu, Yisong,Huang, Peng,Tang, Qi,Cheng, Pi,Zheng, Yajie,Zeng, Jianguo,Liu, Xiubin,Liu, Yisong,Huang, Peng,Qing, Zhixing,Tang, Qi,Cheng, Pi,Zheng, Yajie,Zeng, Jianguo,Liu, Xiubin,Huang, Peng,Tang, Qi,Cheng, Pi,Zheng, Yajie,Liu, Jinfeng,Zhuo, Yixiu,Yu, Linlan,Xiong, Xingyao,Zeng, Jianguo,Liu, Yisong,Huang, Jialu,Ma, Yongshuo,Zhou, Yuan,Zhang, Zhonghua,Shang, Yi,Huang, Sanwen,Ma, Yongshuo,Shang, Yi,Huang, Sanwen,Qing, Zhixing,Yang, Peng,Cao, Huifen,Zhang, Yancong,Lin, Kui,Cao, Huifen,Zhang, Yancong,Lin, Kui,Yuan, Zejun,Tang, Zhaoshan,Peng, Qiong,Zhang, Jinbo,Jiang, Wenkai,Ro, Dae-Kyun,Chen, Xiaoya,Chen, Xiaoya. 2017