[1]Development of EST-SSR markers related to disease resistance and their application in genetic diversity and evolution analysis in Gossypium. Wang, B. H.,Rong, P.,Cai, X. X.,Zhu, X. Y.,Chen, C. J.,Xu, Y. Y.,Huang, X. J.,Zhuang, Z. M.,Wang, C. B.,Wang, C. B.,Wang, W.. 2015

[2]High-throughput development of simple sequence repeat markers for genetic diversity research in Crambe abyssinica. Qi, Weicong,Lin, Feng,Zhao, Han,Liu, Yuhe,Huang, Bangquan,Cheng, Jihua,Zhang, Wei. 2016

[3]Genetic diversity and relationships among 47 loquat varieties revealed by EST-SSR markers. Li, Xiao-ying,Xu, Hong-xia,Chen, Jun-wei. 2013

[4]Genetic Diversity Analysis of Faba Bean (Vicia faba L.) Based on EST-SSR Markers. Gong Ya-ming,Xu Sheng-chun,Hu Qi-zan,Zhang Gu-wen,Ding Ju,Mao Wei-hua,Li Ze-yun. 2011

[5]Genetic diversity in the germplasm of black pepper determined by EST-SSR markers. Wu, B. D.,Fan, R.,Hu, L. S.,Wu, H. S.,Hao, C. Y.,Wu, B. D.,Fan, R.,Hu, L. S.,Wu, H. S.,Hao, C. Y.. 2016

[6]Diversity distribution and population structure of tea germplasms in China revealed by EST-SSR markers. Yao, Ming-Zhe,Ma, Chun-Lei,Qiao, Ting-Ting,Jin, Ji-Qiang,Chen, Liang. 2012

[7]Core EST-SSR Marker Selection Based on Genetic Linkage Map Construction and Their Application in Genetic Diversity Analysis of Litchi (Litchi chinensis Sonn.) Germplasm Resources. Xiang, X.,Chen, D. M.,Ma, S. P.,Ma, W. C.,Fan, J.,Yang, X. Y.,Liu, M.,Sun, Q. M.. 2014

[8]Genetic diversity and relationships among different tomato varieties revealed by EST-SSR markers. Korir, N. K.,Tao, R.,Li, X.,Kayesh, E.,Li, A.,Zhen, W.,Diao, W.,Wang, S.,Li, X.. 2014

[9]Genetic diversity and evolutionary relationship analyses within and among Raphanus species using EST-SSR markers. Wang, Qingbiao,Zhang, Li,Zheng, Pengjing,Wang, Qingbiao,Zhang, Li,Zheng, Pengjing.

[10]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.

[11]Comparative transcriptome reveal the potential adaptive evolutionary genes in Andrias davidianus. Hu, Qiaomu,Wang, Quanhe,Meng, Yan,Tian, Haifeng,Xiao, Hanbing,Wang, Quanhe. 2018

[12]Characterization and Comparative Analysis of Olfactory Receptor Co-Receptor Orco Orthologs Among Five Mirid Bug Species. Wang, Qian,Zhou, Yan-Le,Shan, Shuang,Cui, Huan-Huan,Xiao, Yong,Dong, Kun,Khashaveh, Adel,Zhang, Yong-Jun,Wang, Qian,Zhou, Yan-Le,Sun, Liang. 2018

[13]Foxtail Millet NF-Y Families: Genome-Wide Survey and Evolution Analyses Identified Two Functional Genes Important in Abiotic Stresses. Feng, Zhi-Juan,He, Guan-Hua,Lu, Pan-Pan,Chen, Ming,Ma, You-Zhi,Xu, Zhao-Shi,Feng, Zhi-Juan,Gong, Ya-Ming,Zheng, Wei-Jun. 2015

[14]Genome-Wide Analysis of the Sus Gene Family in Cotton. Changsong Zou,Cairui Lu,Haihong Shang,Xinrui Jing,Hailiang Cheng,Youping Zhang,Guoli Song. 2013

[15]Molecular characterization of a transcriptionally active Ty1/copia-like retrotransposon in Gossypium. Yuefen Cao,Yurong Jiang,Mingquan Ding,Shae He,Hua Zhang,Lifeng Lin,Junkang Rong.

[16]Characterization and development of chloroplast microsatellite markers for Gossypium hirsutum, and cross-species amplification in other Gossypium species. Cai, X. Y.,Liu, F.,Zhou, Z. L.,Wang, X. X.,Wang, C. Y.,Wang, Y. H.,Wang, K. B.. 2015

[17]Mapping QTLs for drought tolerance in an F-2:3 population from an inter-specific cross between Gossypium tomentosum and Gossypium hirsutum. J.Y. Zheng,G. Oluoch,M.K. Riaz Khan,X.X. Wang,X.Y. Cai,Z.L. Zhou,C.Y. Wang,Y.H. Wang,X.Y. Li,F. Liu,K.B. Wang. 2016

[18]Genome-wide characterization and comparative analysis of the MLO gene family in cotton. Xiaoyan Wang,Qifeng Ma,Lingling Dou,Zhen Liu,Renhai Peng,Shuxun Yu. 2016

[19]A Gossypium BAC clone contains key repeat components distinguishing sub-genome of allotetraploidy cottons. Yuling Liu,Renhai Peng,Fang Liu,Xingxing Wang,Xinglei Cui,Zhongli Zhou,Chunying Wang,Xiaoyan Cai,Yuhong Wang,Zhongxu Lin,Kunbo Wang. 2016

[20]Induction of cotton ovule culture fibre branching by co-expression of cotton BTL, cotton SIM, and Arabidopsis STI genes. Gaskin Wang,Hongjie Feng,Junling Sun,Xiongming Du. 2013