[1]Establishment of Chinese soybean Glycine max core collections with agronomic traits and SSR markers. Wang, Lixia,Guan, Yuan,Guan, Rongxia,Li, Yinghui,Ma, Yansong,Dong, Zhimin,Liu, Xian,Zhang, Haiyan,Zhang, Yueqiang,Liu, Zhangxiong,Chang, Ruzhen,Xu, Haiming,Li, Linhai,Lin, Fanyun,Luan, Weijiang,Yan, Zhe,Ning, Xuecheng,Zhu, Li,Cui, Yanhua,Piao, Rihua,Liu, Yan,Chen, Pengying,Qiu, Lijuan. 2006

[2]Generation and characterization of 24 novel EST derived microsatellites from tea plant (Camellia sinensis) and cross-species amplification in its closely related species and varieties. Zhao, Li-Ping,Liu, Zhen,Chen, Liang,Yao, Ming-Zhe,Wang, Xin-Chao.

[3]Genetic variability assessed by microsatellites in the breeding populations of the shrimp Penaeus (Fenneropenaeus) chinensis in China. Zhang, Tianshi,Kong, Jie,Wang, Weiji,Wang, Qingyin,Zhang, Tianshi.

[4]Effect of blue light on ethylene biosynthesis, signalling and fruit ripening in postharvest peaches. Gong, Duoduo,Sheng, Tao,Shao, Jiarong,Song, Chunbo,Wo, Fengchao,Chen, Wei,Yang, Zhenfeng,Cao, Shifeng.

[5]Combination of salicylic acid and ultrasound to control postharvest blue mold caused by Penicillium expansum in peach fruit. Cao, Shifeng,Yang, Zhenfeng,Cai, Yuting,Zheng, Yonghua.

[6]Structure, expression profile, and evolution of the sucrose synthase gene family in peach (Prunus persica). Zhang, Chunhua,Yu, Mingliang,Ma, Ruijuan,Shen, Zhijun,Zhang, Binbin,Korir, Nicholas Kibet.

[7]Mutation rate analysis via parent-progeny sequencing of the perennial peach. I. A low rate in woody perennials and a higher mutagenicity in hybrids. Xie, Zhengqing,Wang, Long,Tian, Dacheng,Yang, Sihai,Wang, Lirong,Wang, Zhiqiang,Lu, Zhenhua,Hurst, Laurence D..

[8]Pulp volatiles measured by an electronic nose are related to harvest season, TSS concentration and TSS/TA ratio among 39 peaches and nectarines. Su, Mingshen,Zhang, Bo,Chen, Kunsong,Shen, Jiyuan,Su, Mingshen,Ye, Zhengwen,Gu, Xiaojun,Guo, Juan.

[9]Identification of a candidate gene for resistance to root-knot nematode in a wild peach and screening of its polymorphisms. Cao, Ke,Wang, Lirong,Zhao, Pei,Zhu, Gengrui,Fang, Weichao,Chen, Changwen,Wang, Xinwei.

[10]KT/HAK/KUP potassium transporter genes differentially expressed during fruit development, ripening, and postharvest shelf-life of 'Xiahui6' peaches. Song, Zhizhong,Guo, Shaolei,Zhang, Chunhua,Zhang, Binbin,Ma, Ruijuan,Yu, Mingliang,Song, Zhizhong,Guo, Shaolei,Zhang, Chunhua,Zhang, Binbin,Ma, Ruijuan,Yu, Mingliang,Korir, Nicholas Kibet.

[11]Development of Ty1-copia retrotransposon-based SSAP molecular markers for the study of genetic diversity in peach. Jiao, Yun,Ma, Rui-juan,Shen, Zhi-jun,Yu, Ming-liang.

[12]Genome-Wide Identification and Analysis of the Type-B Authentic Response Regulator Gene Family in Peach (Prunus persica). Zeng, Jingjue,Zhu, Xudong,Haider, Muhammad S.,Zhang, Cheng,Wang, Chen,Wang, Xicheng.

[13]Molecular genetics of blood-fleshed peach reveals activation of anthocyanin biosynthesis by NAC transcription factors. Zhou, Hui,Gu, Chao,Han, Yuepeng,Zhou, Hui,Kui Lin-Wang,Dare, Andrew P.,Espley, Richard V.,Allan, Andrew C.,Wang, Huiliang,He, Huaping.

[14]Multispectral detection of skin defects of bi-colored peaches based on vis-NIR hyperspectral imaging. Li, Jiangbo,Chen, Liping,Huang, Wenqian,Wang, Qingyan,Zhang, Baohua,Tian, Xi,Li, Bin,Li, Jiangbo,Chen, Liping,Huang, Wenqian,Wang, Qingyan,Tian, Xi,Fan, Shuxiang,Li, Bin,Li, Jiangbo,Chen, Liping,Huang, Wenqian,Li, Jiangbo,Chen, Liping,Huang, Wenqian.

[15]Inactivation of a Gene Encoding Carotenoid Cleavage Dioxygenase (CCD4) Leads to Carotenoid-Based Yellow Coloration of Fruit Flesh and Leaf Midvein in Peach. Ma, Juanjuan,Li, Jing,Zhou, Hui,Wang, Lu,Gu, Chao,Liao, Liao,Han, Yuepeng,Ma, Juanjuan,Zhou, Hui,Zhao, Jianbo,Ren, Fei.

[16]Physiological and transcriptional responses in the iron-sulphur cluster assembly pathway under abiotic stress in peach (Prunus persica L.) seedlings. Song, Zhizhong,Yang, Yong,Xu, Jianlan,Ma, Ruijuan,Yu, Mingliang.

[17]Genome-wide identification and expression analysis of the lipoxygenase gene family during peach fruit ripening under different postharvest treatments. Guo, Shaolei,Song, Zhizhong,Ma, Ruijuan,Yang, Yong,Yu, Mingliang,Guo, Shaolei,Yang, Yong,Guo, Shaolei,Song, Zhizhong,Ma, Ruijuan,Yang, Yong,Yu, Mingliang.

[18]Cloning and expression of genes related to the sucrose-metabolizing enzymes and carbohydrate changes in peach. Zhang, Chunhua,Shen, Zhijun,Ma, Ruijuan,Yu, Mingliang,Zhang, Yanping,Han, Jian,Korir, Nicholas Kibet.

[19]Isolation, cloning, and expression of five genes related to nitrogen metabolism in peach (Prunus persica L. Batsch). Zhang, C. H.,Zhang, B. B.,Yu, M. L.,Ma, R. J.,Song, Z. Z.,Korir, N. K..

[20]Genome-wide analysis of the homeodomain-leucine zipper (HD-ZIP) gene family in peach (Prunus persica). Zhang, C. H.,Ma, R. J.,Shen, Z. J.,Yu, M. L.,Sun, X.,Korir, N. K.. 2014