[1]Transcriptome Analysis of Stem and Globally Comparison with Other Tissues in Brassica napus. Miao, Liyun,Zhang, Libin,Raboanatahiry, Nadia,Fu, Chunhua,Li, Maoteng,Miao, Liyun,Xiang, Jun,Gan, Jianping,Li, Maoteng,Lu, Guangyuan,Zhang, Xuekun. 2016

[2]Transcriptomic Analysis of Seed Coats in Yellow-Seeded Brassica napus Reveals Novel Genes That Influence Proanthocyanidin Biosynthesis. Hong, Meiyan,Hu, Kaining,Tian, Tiantian,Li, Xia,Chen, Li,Zhang, Yan,Yi, Bin,Wen, Jing,Ma, Chaozhi,Shen, Jinxiong,Fu, Tingdong,Tu, Jinxing,Li, Xia,Chen, Li,Zhang, Yan. 2017

[3]Production of red-flowered oilseed rape via the ectopic expression of Orychophragmus violaceus OvPAP2. Fu, Wenqin,Chen, Daozong,Pan, Qi,Li, Fengfeng,Ge, Xianhong,Li, Zaiyun,Zhao, Zhigang. 2018

[4]Transcriptome analysis of Brassica napus pod using RNA-Seq and identification of lipid-related candidate genes. Xu, Hai-Ming,Kong, Xiang-Dong,Chen, Fei,Huang, Ji-Xiang,Zhao, Jian-Yi,Lou, Xiang-Yang. 2015

[5]Comparative Analysis of the Brassica napus Root and Leaf Transcript Profiling in Response to Drought Stress. Liu, Chunqing,Zhang, Ka,An, Hong,Hu, Kaining,Wen, Jing,Shen, Jinxiong,Ma, Chaozhi,Yi, Bin,Tu, Jinxing,Fu, Tingdong,Zhang, Xuekun. 2015

[6]Analysis of transcriptional and epigenetic changes in hybrid vigor of allopolyploid Brassica napus uncovers key roles for small RNAs. Shen, Yifei,Sun, Shuo,Shen, Enhui,Ye, Chu-Yu,Fan, Longjiang,Shen, Yifei,Sun, Shuo,Shen, Enhui,Ye, Chu-Yu,Fan, Longjiang,Hua, Shuijin,Cai, Daguang,Timko, Michael P.,Zhu, Qian-Hao.

[7]Cello-oligosaccharide influences intestinal microflora, mucosal architecture and nutrient transport in weaned pigs. Jiao, L. F.,Song, Z. H.,Ke, Y. L.,Xiao, K.,Hu, C. H.,Shi, B..

[8]A collection of 10,096 indica rice full-length cDNAs reveals highly expressed sequence divergence between Oryza sativa indica and japonica subspecies. Liu, Xiaohui,Lu, Tingting,Yu, Shuliang,Li, Ying,Huang, Yuchen,Huang, Tao,Zhang, Lei,Zhu, Jingjie,Zhao, Qiang,Fan, Danlin,Mu, Jie,Shangguan, Yingying,Feng, Qi,Guan, Jianping,Ying, Kai,Zhang, Yu,Lin, Zhixin,Sun, Zongxiu,Qian, Qian,Lu, Yuping,Han, Bin.

[9]Expression of Aquaporin BnPIP-like Gene from Rapeseed (Brassica napus) Enhances Salt Resistance in Yeast (Pichia pastoris). Li, Hao-Jie,Zhang, Jin-Fang,Cui, Cheng,Jiang, Jun,Zheng, Ben-Chuan,Jiang, Liang-Cai,Tan, Hao,Zhang, Bi. 2016

[10]Comparative Transcriptomic Analysis of Two Brassica napus Near-Isogenic Lines Reveals a Network of Genes That Influences Seed Oil Accumulation. Wang, Jingxue,Li, Chen,Yuan, Ling,Singh, Sanjay K.,Pattanaik, Sitakanta,Yuan, Ling,Du, Chunfang,Fan, Jianchun. 2016

[11]PHOTOSYNTHESIS AND ANTIOXIDANT RESPONSE TO WINTER RAPESEED (BRASSICA NAPUS L.) AS AFFECTED BY BORON. Hossain, Md Faruque,Pan Shenggang,Duan Meiyang,Mo Zhaowen,Karbo, Maurice Baimba,Tang Xiangru,Hossain, Md Faruque,Pan Shenggang,Duan Meiyang,Mo Zhaowen,Karbo, Maurice Baimba,Tang Xiangru,Hossain, Md Faruque,Bano, Asghari. 2015

[12]Diversity and biocontrol potential of endophytic fungi in Brassica napus. Zhang, Jing,Yang, Long,Jiang, Daohong,Li, Guoqing,Zhang, Qinghua,Zhang, Jing,Yang, Long,Jiang, Daohong,Li, Guoqing,Zhang, Lei,Chen, Weidong. 2014

[13]New insights into the genetic networks affecting seed fatty acid concentrations in Brassica napus. Wang, Xiaodong,Yin, Yongtai,Gan, Lu,Yu, Longjiang,Li, Maoteng,Long, Yan,Zhang, Chunyu,Meng, Jinling,Long, Yan,Wang, Xiaodong,Liu, Liezhao. 2015

[14]A Study on Triacylglycerol Composition and the Structure of High-Oleic Rapeseed Oil. Guan, Mei,Xiong, Xinghua,Li, Xun,Guan, Chunyun,Chen, Hong,Lu, Xin,Huang, Fenghong. 2016

[15]Genetic diversity of Brassica carinata with emphasis on the interspecific crossability with B-rapa. Jiang, Y.,Tian, E.,Li, R.,Chen, L.,Meng, J.. 2007

[16]Morphological Structure and Transcriptome Comparison of the Cytoplasmic Male Sterility Line in Brassica napus (SaNa-1A) Derived from Somatic Hybridization and Its Maintainer Line SaNa-1B. Du, Kun,Liu, Qier,Wu, Xinyue,Jiang, Jinjin,Wu, Jian,Fang, Yujie,Wang, Youping,Li, Aimin. 2016

[17]Quantitative trait loci analysis and genome-wide comparison for silique related traits in Brassica napus. Wang, Xiaodong,Chen, Li,Chao, Hongbo,Li, Maoteng,Wang, Xiaodong,Chen, Li,Xiang, Jun,Gan, Jianping,Wang, Aina,Wang, Hao,Tian, Jianhua,Zhao, Xiaoping,Zhao, Yajun,Zhao, Weiguo. 2016

[18]Genome-Wide Association and Transcriptome Analyses Reveal Candidate Genes Underlying Yield-determining Traits in Brassica napus. Lu, Kun,Peng, Liu,Zhang, Chao,Lu, Junhua,Yang, Bo,Xiao, Zhongchun,Liang, Ying,Xu, Xingfu,Qu, Cunmin,Zhang, Kai,Liu, Liezhao,Li, Jiana,Peng, Liu,Zhang, Chao,Zhu, Qinlong,Fu, Minglian,Yuan, Xiaoyan. 2017

[19]SCAR and RAPD markers associated with 18-carbon fatty acids in rapeseed, Brassica napus. Hu, J,Li, G,Struss, D,Quiros, CF. 1999

[20]Genetic diversity among populations and breeding lines from recurrent selection in Brassica napus as revealed by RAPD markers. Yuan, M,Zhou, Y,Liu, D. 2004