[1]Comparative Physiological and Transcriptomic Analyses Reveal the Actions of Melatonin in the Delay of Postharvest Physiological Deterioration of Cassava. Hu, Wei,Kong, Hua,Guo, Yunling,Zhang, Yuliang,Ding, Zehong,Tie, Weiwei,Yan, Yan,Huang, Qixing,Peng, Ming,Guo, Anping,Shi, Haitao. 2016

[2]Global Gene Expression Analysis Reveals Crosstalk between Response Mechanisms to Cold and Drought Stresses in Cassava Seedlings. Li, Shuxia,Yu, Xiaoling,Ruan, Mengbin,Li, Wenbin,Peng, Ming,Yu, Xiang,Yu, Xiang,Cheng, Zhihao,Yu, Xiang. 2017

[3]Two new terpenoids from the stems of Manihot esculenta. Zeng, Yan-Bo,Li, Shan-Shan,Mei, Wen-Li,Dong, Wen-Hua,Dai, Hao-Fu,Li, Kai-Mian. 2015

[4]A new diterpene from the stems of Manihot esculenta. Li, Shan-Shan,Hu, Li-Fei,Zhao, You-Xing,Zuo, Wen-Jian,Zeng, Yan-Bo,Li, Xiao-Na,Mei, Wen-Li,Dai, Hao-Fu,Zhao, You-Xing,Zuo, Wen-Jian,Zeng, Yan-Bo,Li, Xiao-Na,Mei, Wen-Li,Dai, Hao-Fu,Li, Shan-Shan. 2011

[5]Interspecies and Intraspecies Analysis of Trehalose Contents and the Biosynthesis Pathway Gene Family Reveals Crucial Roles of Trehalose in Osmotic-Stress Tolerance in Cassava. Han, Bingying,Fu, Lili,Zhang, Dan,He, Xiuquan,Chen, Qiang,Peng, Ming,Zhang, Jiaming. 2016

[6]Highly efficient mesophyll protoplast isolation and PEG-mediated transient gene expression for rapid and large-scale gene characterization in cassava (Manihot esculenta Crantz). Wu, Jun-Zheng,Liu, Qin,Geng, Xiao-Shan,Luo, Li-Juan,Liu, Jin-Ping,Li, Kai-Mian. 2017

[7]Cassava (Manihot esculenta Krantz) genome harbors KNOX genes differentially expressed during storage root development. Guo, D.,Li, H. L.,Tang, X.,Peng, S. Q.,Tang, X.. 2014

[8]Expression of sucrose metabolism and transport genes in cassava petiole abscission zones in response to water stress. Liao, W. B.,Li, Y. Y.,Lu, C.,Peng, M.. 2017

[9]Antioxidant Phenolic Compounds of Cassava (Manihot esculenta) from Hainan. Yi, Bo,Wei, Xiaoyi,Hu, Lifei,Mei, Wenli,Zhou, Kaibing,Wang, Hui,Luo, Ying,Dai, Haofu,Yi, Bo,Yi, Bo. 2011

[10]Effects of tillage options on soil physical properties and cassava-dry-matter partitioning. Figueiredo, Priscila Gonzales,Bicudo, Silvio Jose,Tanamati, Fabio Yomei,Figueiredo, Priscila Gonzales,Bicudo, Silvio Jose,Tanamati, Fabio Yomei,Chen, Songbi,Fernandes, Adalton Mazetti,Djabou-Fondjo, Astride Stephanie Mouafi.

[11]Allelopathic potential and volatile compounds of Manihot esculenta Crantz against weeds. Li, J.,He, S. Y.,Qin, X. D..

[12]Potential geographic distribution of two invasive cassava green mites. Parsa, Soroush,Herrera Campo, Beatriz Vanessa,Andres Vasquez-Ordonez, Aymer,Hazzi, Nicolas A.,Chen, Qing,Lu, Fuping,Yaninek, John Stephen.

[13]Genome-wide identification and expression analysis of the metacaspase gene family in Hevea brasiliensis. Liu, Hui,Deng, Zhi,Li, Dejun,Chen, Jiangshu,Wang, Sen,Hao, Lili.

[14]Identification and analysis of the metacaspase gene family in tomato. Liu, Hui,Liu, Jian,Wei, Yongxuan.

[15]HbMT2, an ethephon-induced metallothionein gene from Hevea brasiliensis responds to H2O2 stress. Zhu, Jiahong,Zhang, Quanqi,Wu, Rui,Zhang, Zhili,Zhang, Zhili. 2010

[16]NIa-pro of Papaya ringspot virus interacts with papaya methionine sulfoxide reductase B1. Gao, Le,Shen, Wentao,Yan, Pu,Tuo, Decai,Li, Xiaoying,Zhou, Peng,Gao, Le,Shen, Wentao,Yan, Pu,Tuo, Decai,Li, Xiaoying,Zhou, Peng,Gao, Le.