[1]Identification of QTL underlying isoflavone contents in soybean seeds among multiple environments. Zeng, Guoliang,Li, Dongmei,Han, Yingpeng,Teng, Weili,Wang, Jian,Li, Wenbin,Qiu, Liquan. 2009

[2]Isoflavone, gamma-aminobutyric acid contents and antioxidant activities are significantly increased during germination of three Chinese soybean cultivars. Wang, Fengzhong,Wang, Huifang,Wang, Donghui,Fang, Fang,Lai, Jixiang,Wu, Tao,Tsao, Rong.

[3]Novel and favorable QTL allele clusters for end-use quality revealed by introgression lines derived from synthetic wheat. Li, Yulian,Zhou, Ronghua,Wang, Jin,Liao, Xiangzheng,Jia, Jizeng,Branlard, Gerard,Li, Yulian. 2012

[4]Molecular marker-assisted breeding options for maize improvement in Asia. Prasanna, B. M.,Pixley, Kevin,Pixley, Kevin,Warburton, Marilyn L.,Xie, Chuan-Xiao.

[5]Quantitative Trait Loci for Asian Corn Borer Resistance in Maize Population Mc37 x Zi330. Li Xia,He Kang-lai,Wang Zhen-ying,Bai Shu-xiong,Li Xia. 2010

[6]Analysis of QTLs for seed low temperature germinability and anoxia germinability in rice (Oryza sativa L.). Jiang, L,Liu, SJ,Hou, MY,Tang, JY,Chen, LM,Zhai, HQ,Wan, JM. 2006

[7]QTL mapping of coleorhiza length in maize (Zea mays L.) under two germination environmental conditions. Jiang, Xuwen,Tian, Baohua,Zhang, Weimin,Wang, Guoying,Wang, Jianhua,Jiang, Xuwen,Tian, Baohua,Zhang, Weimin,Wang, Guoying,Wang, Jianhua,Wang, Guoying. 2011

[8]Quantitative trait loci underlying the development of seed composition in soybean (Glycine max L. Merr.). Li, Wenbin,Sun, Desheng,Du, Yuping,Chen, Qingshan,Zhang, Zhongchen,Qiu, Lijuan,Sun, Genlou.

[9]QTL mapping of subgynoecy in cucumber (Cucumis sativus L.). Chen, H.,Shi, Q.,Liu, S.,Wu, J.,Huang, S.,Liu, S.. 2012

[10]QTL Analysis of Spike Morphological Traits and Plant Height in Winter Wheat (Triticum aestivum L.) Using a High-Density SNP and SSR-Based Linkage Map. Zhai, Huijie,Feng, Zhiyu,Li, Jiang,Liu, Xinye,Ni, Zhongfu,Sun, Qixin,Zhai, Huijie,Feng, Zhiyu,Li, Jiang,Liu, Xinye,Ni, Zhongfu,Sun, Qixin,Xiao, Shihe. 2016

[11]A intervarietal genetic map and QTL analysis for yield traits in wheat. Li, Sishen,Jia, Jizeng,Wei, Xianyun,Zhang, Xiaocun,Li, Linzhi,Chen, Haimei,Fan, Yuding,Sun, Haiyan,Zhao, Xinhua,Lei, Tiandong,Xu, Yunfong,Jiang, Fangshan,Wang, Honggang,Li, Lihui. 2007

[12]Analyzing the Effects of Climate Factors on Soybean Protein, Oil Contents, and Composition by Extensive and High-Density Sampling in China. Song, Wenwen,Liu, Xiaobing,Song, Wenwen,Yang, Ruping,Wu, Tingting,Wu, Cunxiang,Sun, Shi,Zhang, Shouwei,Jiang, Bingjun,Tian, Shiyan,Han, Tianfu,Song, Wenwen,Yang, Ruping.

[13]Effects of open-air elevated atmospheric CO2 concentration on yield quality of soybean (Glycine max (L.) Merr). Hao, Xingyu,Li, Ping,Gao, Zhigiang,Hao, Xingyu,Gao, Ji,Han, Xue,Ju, Hui,Lin, Erda,Ma, Zhanyun,Merchant, Andrew,Yang, Wanshen. 2014

[14]Combining QTL and candidate gene analysis with phenotypic model to unravel the relationship between lodging and related traits in soybean. Chen, Haifeng,Yang, Zhonglu,Chen, Limiao,Zhang, Chanjuan,Yuan, Songli,Zhang, Xiaojuan,Qiu, Dezhen,Wan, Qiao,Chen, Shuilian,Shan, Zhihui,Zhou, Xinan,Zhan, Yong.

[15]Verification and fine-mapping of QTLs conferring days to flowering in soybean using residual heterozygous lines. Su ChengFu,Lu WeiGuo,Zhao TuanJie,Gai JunYi,Su ChengFu,Lu WeiGuo,Zhao TuanJie,Gai JunYi,Su ChengFu,Lu WeiGuo,Zhao TuanJie,Gai JunYi,Lu WeiGuo. 2010

[16]Identification of quantitative trait loci underlying resistance to southern root-knot and reniform nematodes in soybean accession PI 567516C. Jiao, Yongqing,Vuong, Tri D.,Liu, Yang,Li, Zenglu,Noe, Jim,Robbins, Robert T.,Joshi, Trupti,Xu, Dong,Shannon, J. Grover,Nguyen, Henry T.. 2015

[17]Validation of the quantitative trait locus underlying soybean plant height using residual heterozygous lines and near-isogenic lines across multi-environments. Yan, Long,Zhang, Yuanyuan,Yang, Chunyan,Chen, Qiang,Liu, Bingqiang,Di, Rui,Zhang, Mengchen,Yan, Long,Song, Qijian,Cregan, Perry B.,An, Yongqiang Charles,Wu, Chengjun.

[18]Effects of Dietary Isoflavone Supplementation on Meat Quality and Oxidative Stability During Storage in Lingnan Yellow Broilers. Jiang Shou-qun,Jiang Zong-yong,Zhou Gui-lian,Lin Ying-cai,Zheng Chun-tian. 2014

[19]Effects of soy isoflavone on performance, meat quality and antioxidative property of male broilers fed oxidized fish oil. Jiang, S. Q.,Jiang, Z. Y.,Lin, Y. C.,Xi, P. B.,Ma, X. Y.. 2007

[20]Effects of surfactant and salt species in reverse micellar forward extraction efficiency of isoflavones with enriched protein from soy flour. Zhao, Xiaoyan,Du, Fangling,Zhu, Junqing,Wei, Zhiyi.