[1]STUDY ON APETALOUS BREEDING IN RAPESEED (Brassica napus). Fu Shouzhong,Qi Cunkou,Pu Huiming,Zhang Jiefu. 2001

[2]High-Density SNP Map Construction and QTL Identification for the Apetalous Character in Brassica napus L.. Wang, Xiaodong,Yu, Kunjiang,Li, Hongge,Peng, Qi,Chen, Feng,Zhang, Wei,Chen, Song,Hu, Maolong,Zhang, Jiefu,Wang, Xiaodong,Zhang, Jiefu,Chen, Feng. 2015

[3]Quantitative Trait Transcripts Mapping Coupled with Expression Quantitative Trait Loci Mapping Reveal the Molecular Network Regulating the Apetalous Characteristic in Brassica napus L.. Yu, Kunjiang,Wang, Xiaodong,Chen, Feng,Peng, Qi,Chen, Song,Li, Hongge,Zhang, Wei,Fu, Sanxiong,Hu, Maolong,Long, Weihua,Zhang, Jiefu,Yu, Kunjiang,Chu, Pu,Guan, Rongzhan,Yu, Kunjiang. 2018

[4]Cytology of multisomic addition line "NJ04-8089" in Brassica napus L.. YUAN Shifeng,QI Cunkou. 2007

[5]Practice and thoughts on developing hybrid rice for super high yield by exploiting intersubspecific heterosis. Zou Jiang-shi,Lu Chuan-gen. 2009

[6]Status and Prospects of Hybrid Rice Breeding in Jiangsu, China. Wang Cailin,Jiangxi Association for Science & Technology(CN);. 2005

[7]PROGRESS ON INHERITANCE AND BREEDING FOR WHEAT SCAB RESISTANCE IN JAAS. Yao, Jinbao,Ma, Hongxiang,Lu, Weizhong.

[8]Jerusalem artichoke: A sustainable biomass feedstock for biorefinery. Long, Xiao-Hua,Liu, Ling,Liu, Li-Ping,Liu, Zhao-Pu,Shao, Hong-Bo,Shao, Hong-Bo.

[9]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

[10]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

[11]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

[12]Cytogenetics and germplasm enrichment in Brassica allopolyploids in China. Li Zai-yun,Wang You-ping,Wang You-ping. 2017

[13]Phenotypic characterization and genetic analysis of a partially female-sterile mutant in Brassica napus. Li, Chun-Hong,Fu, San-Xiong,Chen, Xin-Jun,Qi, Cun-Kou. 2012

[14]Genome-wide association study reveals the genetic architecture of flowering time in rapeseed (Brassica napus L.). Xu, Liping,Hu, Kaining,Wen, Jing,Yi, Bin,Shen, Jinxiong,Ma, Chaozhi,Tu, Jinxing,Fu, Tingdong,Zhang, Zhenqian,Guan, Chunyun,Chen, Song,Hua, Wei,Li, Jiana.

[15]Genome-Wide Identification of QTL for Seed Yield and Yield-Related Traits and Construction of a High-Density Consensus Map for QTL Comparison in Brassica napus. Zhao, Weiguo,Wang, Hao,Tian, Jianhua,Li, Baojun,Zhao, Weiguo,Wang, Hao,Chen, Li,Chao, Hongbo,Li, Maoteng,Wang, Xiaodong,Long, Yan,Xiang, Jun,Gan, Jianping,Li, Maoteng,Liang, Wusheng. 2016

[16]The high-quality genome of Brassica napus cultivar 'ZS11' reveals the introgression history in semi-winter morphotype. Hu, Qiong,Tong, Chaobo,Huang, Shunmou,Yu, Jingyin,Mei, Desheng,Shi, Jiaqin,Wang, Xinfa,Hu, Zhiyong,Dong, Caihua,Li, Jun,Liu, Shengyi,Hua, Wei,Wang, Hanzhong,Fan, Guangyi,Liu, Weiqing,Chen, Wenbin,Zeng, Peng,Wang, Xi,Liang, Xinming,Huang, Guodong,Zhang, He,Zhang, Yaolei,Li, Liangwei,Shi, Chengcheng,Wang, Jiahao,Xu, Xun,Liu, Xin,Zhou, Yongming,Meng, Jinling,Liu, Kede,Long, Yan,Guan, Mei,Guan, Chunyun,Chalhoub, Boulos,Li, Jiana,Du, Dezhi,Qi, Cunkou,Jiang, Liangcai,Fan, Guangyi,Liu, Xin,Fan, Guangyi,Lee, Simon Ming-Yuen,Fan, Guangyi,Lee, Simon Ming-Yuen.

[17]Physiological and epigenetic analyses of Brassica napus seed germination in response to salt stress. Fang, Yujie,Li, Jian,Jiang, Jinjin,Geng, Yulu,Wang, Jinglei,Wang, Youping,Fang, Yujie.

[18]Microarray analysis of gene expression in seeds of Brassica napus planted in Nanjing (altitude: 8.9 m), Xining (altitude: 2261.2 m) and Lhasa (altitude: 3658 m) with different oil content. Fu, San-Xiong,Qi, Cunkou,Cheng, Hao.