[1]Consequences of gene flow between oilseed rape (Brassica napus) and its relatives. Liu, Yongbo,Li, Junsheng,Liu, Yongbo,Wei, Wei,Ma, Keping,Liu, Yongbo,Darmency, Henri,Liang, Yuyong. 2013

[2]Rapid alterations of gene expression and cytosine methylation in newly synthesized Brassica napus allopolyploids. Xu, Yanhao,Zhong, Lan,Wang, Jianbo,Wu, Xiaoming,Fang, Xiaoping.

[3]De novo transcriptome sequencing of Acer palmatum and comprehensive analysis of differentially expressed genes under salt stress in two contrasting genotypes. Rong, Liping,Li, Qianzhong,Li, Shushun,Tang, Ling,Wen, Jing.

[4]Domestication Origin and Breeding History of the Tea Plant (&ITCamellia&IT &ITsinensis&IT) in China and India Based on Nuclear Microsatellites and cpDNA Sequence Data. Meegahakumbura, Muditha K.,Wambulwa, Moses C.,Li, Miao-Miao,Liu, Jie,Li, De-Zhu,Gao, Lian-Ming,Meegahakumbura, Muditha K.,Wambulwa, Moses C.,Yang, Jun-Bo,Li, De-Zhu,Meegahakumbura, Muditha K.,Wambulwa, Moses C.,Li, Miao-Miao,Li, De-Zhu,Meegahakumbura, Muditha K.,Wambulwa, Moses C.,Thapa, Kishore K.,Sun, Yong-Shuai,Moller, Michael,Xu, Jian-Chu,Liu, Ben-Ying. 2018

[5]IDENTIFICATION OF EXOTIC GENETIC COMPONENTS AND DNA METHYLATION PATTERN ANALYSIS OF THREE COTTON INTROGRESSION LINES FROM Gossypium bickii. Shou Pu He,Jun Ling Sun,Chao Zhang,Xiong Ming Du.

[6]GISH characterization of Erianthus arundinaceus chromosomes in three generations of sugarcane intergeneric hybrids. Piperidis, Nathalie,Piperidis, George,Chen, Jian-wen,Deng, Hai-hua,Wang, Li-Ping,Jackson, Phillip. 2010

[7]Synthetic hexaploid wheat enhances variation and adaptive evolution of bread wheat in breeding processes. Wan, Hong-Shen,Yang, Wu-Yun,Li, Jun,Wan, Hong-Shen,Yang, Wu-Yun. 2014

[8]A novel 5-enolpyruvoylshikimate-3-phosphate (EPSP) synthase transgene for glyphosate resistance stimulates growth and fecundity in weedy rice (Oryza sativa) without herbicide. Wang, Wei,Xia, Hui,Yang, Xiao,Xu, Ting,Si, Hong Jiang,Cai, Xing Xing,Lu, Bao-Rong,Wang, Feng,Su, Jun,Snow, Allison A.. 2014

[9]Fine-scale phylogenetic structure and major events in the history of the current wild soybean (glycine soja) and taxonomic assignment of semi-wild type (glycine gracilis skvortz.) within the chinese subgenus soja. Wang, Ke-Jing,Li, Xiang-Hua,Liu, Yang.

[10]Genetic diversity in domesticated soybean (Glycine max) and its wild progenitor (Glycine soja) for simple sequence repeat and single-nucleotide polymorphism loci. Li, Ying-Hui,Li, Wei,Zhang, Chen,Chang, Ru-Zhen,Qiu, Li-Juan,Yang, Liang,Gaut, Brandon S..

[11]Research progress in BYDV resistance genes derived from wheat and its wild relatives. Zhang, Zengyan,Lin, Zhishan,Xin, Zhiyong. 2009

[12]Synchronous evidence from both phenotypic and molecular signatures for the natural occurrence of sympatric hybridization between cultivated soybean (Glycine max) and its wild progenitor (G-soja). Wang, Ke-Jing,Li, Xiang-Hua. 2014

[13]Genome-wide multilocus analysis of intraspecific differentiation in Oryza rufipogon Griff. from China and the influence of introgression from O. sativa L.. Li, F.,Pei, X. W.,Jia, S. R.,Wang, F.,Yuan, Q. H.,Wu, H. J.,Peng, Y. F.. 2013

[14]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.

[15]Transgenes for insect resistance reduce herbivory and enhance fecundity in advanced generations of crop-weed hybrids of rice. Yang, Xiao,Xia, Hui,Wang, Wei,Lu, Bao-Rong,Wang, Feng,Su, Jun,Snow, Allison A.. 2011

[16]Introgression and selection shaping the genome and adaptive loci of weedy rice in northern China. Sun, Jian,Ma, Dian-Rong,Xu, Zheng-Jin,Liu, Dan,Du, Hong-Bo,Chen, Wen-Fu,Sun, Jian,Ma, Dian-Rong,Xu, Zheng-Jin,Liu, Dan,Du, Hong-Bo,Chen, Wen-Fu,Qian, Qian.

[17]Legume Crops Phylogeny and Genetic Diversity for Science and Breeding. Smykal, Petr,Coyne, Clarice J.,Hu, Jinguo,Ambrose, Mike J.,Maxted, Nigel,Schaefer, Hanno,Blair, Matthew W.,Berger, Jens,Greene, Stephanie L.,Nelson, Matthew N.,Besharat, Naghmeh,Varshney, Rajeev K.,Nelson, Matthew N.,Besharat, Naghmeh,Varshney, Rajeev K.,Vymyslicky, Tomas,Toker, Cengiz,Saxena, Rachit K.,Roorkiwal, Manish,Pandey, Manish K.,Varshney, Rajeev K.,Li, Ying H.,Wang, Li X.,Guo, Yong,Qiu, Li J.,Redden, Robert J..

[18]Efficacy of insect-resistance Bt/CpTI transgenes in F-5-F-7 generations of rice crop-weed hybrid progeny: implications for assessing ecological impact of transgene flow. Yang, Xiao,Li, Lei,Cai, XingXing,Lu, Bao-Rong,Wang, Feng,Su, Jun. 2015

[19]Linkage map construction and QTL mapping for cold tolerance in Oryza rufipogon Griff. at early seedling stage. Luo Xiang-dong,Zhao Jun,Dai Liang-fang,Zhang Fan-tao,Zhou Yi,Xie Jian-kun,Wan Yong. 2016

[20]Identification and molecular cytology analysis of cold tolerance introgression lines derived from Oryza sativa L. mating with O-rufipogon Griff.. Luo, Xiang-Dong,Dai, Liang-Fang,Cao, Juan-Fang,Jian, Shui-Rong,Chen, Ya-Ling,Xie, Jian-Kun,Hu, Biao-Lin.