[1]GmACP expression is decreased in GmNORK knockdown transgenic soybean roots. Wang, Lijun,Deng, Lingwei. 2016

[2]The effects of gibberellins and mepiquat chloride on nitrogenase activity in Bradyrhizobium japonicum. Chen, Wenhao,Zheng, Dianfeng,Feng, Naijie,Liu, Tao,Liu, Yang,Gong, Shen,Cui, Hongqiu,Cui, Hongqiu,Xiang, Hongtao.

[3]Fine Mapping and Identification of a Novel Phytophthora Root Rot Resistance Locus RpsZS18 on Chromosome 2 in Soybean. Zhong, Chao,Sun, Suli,Duan, Canxing,Zhu, Zhendong,Yao, Liangliang,Ding, Junjie. 2018

[4]Genetic overlap of QTL associated with low-temperature tolerance at germination and seedling stage using BILs in soybean. Zhang, Wen-Bo,Jiang, Hong-wei,Liu, Chun-Yan,Hu, Guo-Hua,Zhang, Wen-Bo,Jiang, Hong-wei,Xin, Da-Wei,Chen, Qing-Shan,Hu, Guo-Hua,Li, Can-Dong,Zhang, Wen-Bo,Qiu, Peng-Cheng,Chen, Fei-Long. 2012

[5]QTL analysis of soybean oil content under 17 environments. Qi, Zhaoming,Hou, Meng,Xin, Dawei,Wang, Zhongyu,Zhu, Rongsheng,Hu, Zhenbang,Chen, Qingshan,Han, Xue,Jiang, Hongwei,Liu, Chunyan,Hu, Guohua,Li, Candong. 2014

[6]Ectopic expression of Arabidopsis thaliana Na+(K+)/H+ antiporter gene, AtNHX5, enhances soybean salt tolerance. Wu, X. X.,Li, J.,Wu, X. D.,Wang, Z. K.,Liu, S. S.,Li, S. N.,Ma, Y. L.,Zhao, L.,Li, H. Y.,Li, D. M.,Li, W. B.,Liu, Q.,Su, A. Y.,Sun, J.. 2016

[7]Construction and analysis of a suppression subtractive hybridization library of regeneration-related genes in soybean. Sun, J.,Li, J.,Liu, M.,Zhang, B. B.,Li, D. M.,Wang, M.,Zhang, C.,Li, W. B.,Wu, X. X.,Sun, J.,Su, A. Y.. 2015

[8]Differentially Expressed Genes of Soybean During Infection by Phytophthora sojae. Xu Peng-fei,Li Wen-bin,Fan Su-jie,Li Ning-hui,Wang Xin,Jiang Liang-yu,Zhang Shu-zhen,Wu Jun-jiang,Wei Lai,Xue, Allen,Chen Wei-yuan,Lv Hui-ying,Lin Shi-feng. 2012

[9]Analysis of the APX Gene Expressed in Soybean Infected by Heterodera glycines and Coated with Biocontrol Bacteria Sneb545. Xiang, Peng,Li, Hongpeng,Lu, Wencheng,Li, Baohua,Xiang, Peng,Zhu, Feng,Chen, Jingsheng,Li, Hongpeng,Chen, Lijie,Duan, Yuxi,Chen, Jingsheng. 2016

[10]An Integrated Quantitative Trait Locus Map of Oil Content in Soybean, Glycine max (L.) Merr., Generated Using a Meta-Analysis Method for Mining Genes. Han Xue,Liu Chun-yan,Jiang Hong-wei,Hu Guo-hua,Qi Zhao-ming,Sun Ya-nan,Wu Qiong,Du Xiang-yu,Liu Chun-yan,Chen Qing-shan,Shan Da-peng. 2011

[11]C-4 pathway enzymes in soybean leaves. Li, WH,Lu, QT,Hao, NB,Ge, QY,Zhang, QD,Du, WG,Kuang, TY. 2001

[12]Cloning Na+/H+ Antiporter Gene (nhaA) and Analysis of Function in Soybean. Wang Quanwei,Chen Liang,Zhang Hailing. 2011

[13]Detecting SNPs underlying domestication-related traits in soybean. Li, Ying-Hui,Ma, Yan-Song,Chang, Ru-Zhen,Qiu, Li-Juan,Reif, Jochen C.,Jackson, Scott A.,Ma, Yan-Song. 2014

[14]Identification of QTL underlying soybean agglutinin content in soybean seeds and analysis for epistatic effects among multiple genetic backgrounds and environments. Yang, M. -L.,Li, H. -Y.,Sui, M. -N.,Wang, J. -A.,Ding, J. -J.. 2017

[15]Geographical distribution of GmTfl1 alleles in Chinese soybean varieties. Liu, Guifeng,Zhao, Lin,Qiu, Lijuan,Liu, Ying,Chang, Ruzhen,Guan, Rongxia,Qiu, Lijuan,Averitt, Benjamin J.,Zhang, Bo,Ma, Yansong,Luan, Xiaoyan. 2015

[16]Stability of growth periods traits for soybean cultivars across multiple locations. Liu Zhang-xiong,Chang Ru-zhen,Qiu Li-juan,Wang Xiao-bo,Yang Chun-yan,Xu Ran,Zhang Li-feng,Lu Wei-guo,Wang Qian,Wei Su-hong,Yang Chun-ming,Wang Hui-cai,Wang Rui-zhen,Zhou Rong,Chen Huai-zhu. 2016

[17]Flavor characteristic analysis of soymilk prepared by different soybean cultivars and establishment of evaluation method of soybean cultivars suitable for soymilk processing. Shi Xiaodi,Li Jingyan,Guo Shuntang,Wang Shuming,Zhang Lei,Qiu Lijuan,Han Tianfu,Wang Qianyu,Chang Sam Kow-Ching.

[18]QTL effects and epistatic interaction for flowering time and branch number in a soybean mapping population of JapanesexChinese cultivars. Yang Guang,Xie Fu-ti,Zhai Hong,Wu Hong-yan,Zhang Xing-zheng,Wang Ya-ying,Li Yu-qiu,Hu Bo,Wang Lu,Xia Zheng-jun,Zhang Xing-zheng,Wang Ya-ying,Li Yu-qiu,Wang Lu,Yang Guang,Lu Shi-xiang,Wen Zi-xiang,Wang De-chun,Wang Shao-dong,Harada, Kyuya. 2017

[19]Genome-wide association studies dissect the genetic networks underlying agronomical traits in soybean. Fang, Chao,Ma, Yanming,Liu, Zhi,Wang, Zheng,Yang, Rui,Zhang, Min,Pan, Yi,Zhou, Guoan,Shen, Yanting,Liu, Shulin,Liu, Tengfei,Zhang, Jixiang,Zhu, Baoge,Tian, Zhixi,Wu, Shiwen,Yu, Hong,Qin, Hao,Yuan, Jia,Li, Jiayang,Wang, Guodong,Hu, Guanghui,Zhou, Zhengkui,Ren, Haixiang,Wang, Yanping,Du, Weiguang,Han, Dezhi,Yan, Hongrui,Yuan, Xiaohui,Kong, Fanjiang,Liu, Baohui,Zhang, Zhiwu,Fang, Chao,Liu, Zhi,Shen, Yanting,Liu, Shulin,Liu, Tengfei,Zhang, Jixiang,Wang, Guodong,Tian, Zhixi. 2017

[20]Construction of Two Suppression Subtractive Hybridization Libraries and Identification of Salt-Induced Genes in Soybean. Li Liang,Wang Wei-qi,Wu Cun-xiang,Han Tian-fu,Hou Wen-sheng,Li Liang. 2012