[1]Visualization of Oryza eichingieri chromosomes in intergenomic hybrid plants from O-sativa x O-eichingeri via fluorescent in situ hybridization. Yan, HH,Min, SK,Zhu, LH. 1999

[2]Characterization of euploid backcross progenies derived from interspecific hybrids between Oryza sativa and O-eichingeri by restriction fragment length polymorphism (RFLP) analysis and genomic in situ hybridization (GISH). Yan, HH,Liu, GQ,Cheng, ZK,Min, SK,Zhu, LH. 2001

[3]Genetic relationship and genomic in situ hybridization analysis of the three genomes in Triticum aestivum. Li, DY,Zhang, XY,Yang, J,Rao, GY. 2000

[4]Mapping of a new gene for brown planthopper resistance in cultivated rice introgressed from Oryza eichingeri. Liu, GQ,Yan, HH,Fu, Q,Qian, Q,Zhang, ZT,Zhai, WX,Zhu, LH.

[5]Identification of a germ cell marker gene, the dead end homologue, in Chinese sturgeon Acipenser sinensis. Yang Xiaoge,Ye Huan,Wei Qiwei,Yang Xiaoge,Yue Huamei,Ye Huan,Li Chuangju,Wei Qiwei,Yue Huamei,Li Chuangju,Wei Qiwei.

[6]Identification and characterization of a LTR retrotransposon from the genome of Cyprinus carpio var. Jian. Cao, Liping,Yin, Guojun,Cao, Zheming,Bing, Xuwen,Ding, Weidong.

[7]Divergence between C-melo and African Cucumis Species Identified by Chromosome Painting and rDNA Distribution Pattern. Li, Kunpeng,Sun, Jianying,Li, Zongyun,Han, Yonghua,Wang, Huaisong,Wang, Jiming.

[8]Genetic Relationships Among Five Basic Genomes St, E, A, B and D in Triticeae Revealed by Genomic Southern and in situ Hybridization. Liu, Zhao,Li, Dayong,Zhang, Xueyong.

[9]Primary investigation on GISH-NOR in cotton. Liu, SH,Wang, KB,Song, GL,Wang, CY,Liu, F,Li, SH,Zhang, XD,Wang, YH.

[10]Dissection of combining ability for yield and related traits using introgression lines in the background of a key restorer line in rice (Oryza sativa L.). Xiang, Chao,Zhang, Hongjun,Wang, Jie,Wang, Wensheng,Gao, Yongming,Wang, Hui,Xia, Jiafa,Ye, Guoyou.

[11]Identification of QTLs for red fruit firmness using the wild tomato species Solanum pennellii LA716 introgression lines. Yang, Shengbao,Wang, Baike,Xu, Jian,Gao, Jie,Yang, Shengbao,Yu, Qinghui,Wang, Baike,Yang, Tao,Li, Ning,Tang, Yaping,Aisimutuola, Patiguli,Wang, Qiang.

[12]Genetic and Epigenetic Alterations of Brassica nigra Introgression Lines from Somatic Hybridization: A Resource for Cauliflower Improvement. Wang, Gui-xiang,Lv, Jing,Zhang, Jie,Han, Shuo,Zong, Mei,Guo, Ning,Zeng, Xing-ying,Zhang, Yue-yun,Liu, Fan,Lv, Jing,Wang, You-ping,Lv, Jing. 2016

[13]Scanning QTLs for Grain Shape using Two Sets of Introgression Lines in Rice. Qiu, Xianjin,Du, Bin,Hu, Hui,Ou, Xiaoxue,Lv, Wenkai,Yang, Longwei,Xing, Danying,Xu, Junying,Li, Zhixin,Zhang, Yunbo,Wang, Xiaoyan,Xu, Jianlong,Xu, Jianlong,Zheng, Tianqing,Qiu, Xianjin. 2017

[14]Dissection of heterosis for yield and related traits using populations derived from introgression lines in rice. Xiang, Chao,Zhang, Hongjun,Wei, Shaobo,Fu, Binying,Gao, Yongming,Wang, Hui,Xia, Jiafa,Li, Zefu,Ye, Guoyou. 2016

[15]Mining for Candidate Genes in an Introgression Line by Using RNA Sequencing: The Anthocyanin Overaccumulation Phenotype in Brassica. Xie, Lulu,Li, Fei,Zhang, Shifan,Zhang, Hui,Qian, Wei,Li, Peirong,Zhang, Shujiang,Sun, Rifei. 2016

[16]QTL detection of amino acid content in grains of rice using advanced backcross introgression lines. Cheng, Li-Rui,Luo, Cheng-Gang,Xu, Jian-Long. 2013