[1]Rearrangement of nitrogen metabolism in rice (Oryza sativa L.) under salt stress. Xu, Jianwen,Huang, Xi,Lan, Hongxia,Zhang, Hongsheng,Huang, Ji,Xu, Jianwen.
[2]Proteomic analysis of responsive root proteins of Fusarium oxysporum-infected watermelon seedlings. Zhang, Man,Xu, Jinhua,Liu, Guang,Yao, Xiefeng,Ren, Runsheng,Yang, Xingping. 2018
[3]Exploiting Illumina sequencing for the development of InDel markers in watermelon (Citrullus lanatus). Liu, G.,Xu, J. H.,Zhang, M.,Li, P. F.,Yao, X. F.,Hou, Q.,Zhu, L. L.,Ren, R. S.,Yang, X. P..
[4]Characterization of the watermelon seedling infection process by Fusarium oxysporum f. sp niveum. Zhang, M.,Xu, J. H.,Liu, G.,Yao, X. F.,Li, P. F.,Yang, X. P..
[5]Calcium involved in the poly(gamma-glutamic acid)-mediated promotion of Chinese cabbage nitrogen metabolism. Xu, Zongqi,Lei, Peng,Feng, Xiaohai,Liang, Jinfeng,Chi, Bo,Xu, Hong,Xu, Zongqi,Lei, Peng,Feng, Xiaohai,Liang, Jinfeng,Chi, Bo,Xu, Hong,Xu, Xianju,Feng, Xiaohai,Liang, Jinfeng,Chi, Bo,Xu, Hong. 2014
[6]Improvement of nitrogen accumulation and metabolism in rice (Oryza sativa L.) by the endophyte Phomopsis liquidambari. Yang, Bo,Ma, Hai-Yan,Wang, Xiao-Mi,Jia, Yong,Hu, Jing,Dai, Chuan-Chao,Li, Xia.
[7]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..
[8]Effects of the fungal endophyte Phomopsis liquidambari on nitrogen uptake and metabolism in rice. Yang, Bo,Wang, Xiao-Mi,Ma, Hai-Yan,Jia, Yong,Dai, Chuan-Chao,Li, Xia.
[9]Exogenous Nitric Oxide Pretreatment Enhances Chilling Tolerance of Anthurium. Liang, Lijian,Deng, Yanming,Sun, Xiaobo,Jia, Xinping,Su, Jiale. 2018
[10]Salinity Tolerance Mechanism of Osmotin and Osmotin-like Proteins: A Promising Candidate for Enhancing Plant Salt Tolerance. Qun Wan,Shao Hongbo,Xu Zhaolong,Liu Jia,Zhang Dayong,Huang Yihong,Shao Hongbo.
[11]Proline accumulation and metabolism-related genes expression profiles in Kosteletzkya virginica seedlings under salt stress. Wang, Hongyan,Tang, Xiaoli,Shao, Hong-Bo,Wang, Hongyan,Wang, Honglei,Wang, Hongyan,Tang, Xiaoli,Shao, Hong-Bo. 2015
[12]Unraveling the Root Proteome Changes and Its Relationship to Molecular Mechanism Underlying Salt Stress Response in Radish (Raphanus sativus L.). Sun, Xiaochuan,Wang, Yan,Xu, Liang,Li, Chao,Zhang, Wei,Luo, Xiaobo,Jiang, Haiyan,Liu, Liwang,Sun, Xiaochuan,Sun, Xiaochuan,Wang, Yan,Xu, Liang,Luo, Xiaobo,Liu, Liwang. 2017
[13]Transcriptome sequencing and analysis of major genes involved in calcium signaling pathways in pear plants (Pyrus calleryana Decne.). Lin, Jing. 2015
[14]Soil salinity increases the tolerance of excessive sulfur fumigation stress in tomato plants. Ding, Xiaotao,Ding, Xiaotao,Deng, Qi,Yu, Chih-Li,Hu, Dafeng, I,Zhang, Dong,Jiang, Yuping,Zhou, Suping.
[15]Identification of novel and salt-responsive miRNAs to explore miRNA-mediated regulatory network of salt stress response in radish (Raphanus sativus L.). Sun, Xiaochuan,Xu, Liang,Wang, Yan,Yu, Rugang,Luo, Xiaobo,Gong, Yiqin,Wang, Ronghua,Limera, Cecilia,Liu, Liwang,Sun, Xiaochuan,Xu, Liang,Luo, Xiaobo,Zhu, Xianwen,Zhang, Keyun. 2015
[16]Genome-wide characterization of the ankyrin repeats gene family under salt stress in soybean. Zhang, Dayong,Wan, Qun,He, Xiaolan,Ning, Lihua,Huang, Yihong,Xu, Zhaolong,Liu, Jia,Shao, Hongbo,Shao, Hongbo.
[17]Characterization of CIPK Family in Asian Pear (Pyrus bretschneideri Behd) and Co-expressin Analysis Related to Salt and Osmotic Stress Responses. Tang, Jun,Lin, Jing,Chang, Youhong,Tang, Jun,Cheng, Zong-Ming. 2016
[18]SUB-CELLULAR DISTRIBUTION OF NUTRIENT ELEMENTS AND PHOTOSYNTHESIS PERFORMANCE IN ORYZA SATIVA L. SEEDLINGS UNDER SALT STRESS. Ma, Jing,Lv, Chunfang,Hao, Peifei,Yuan, Ze,Wang, Yuwen,Shen, Weijun,Xu, Chao,Chen, Guoxiang,Gao, Zhiping,Lv, Chuangen. 2017
[19]Conserved miRNAs and Their Response to Salt Stress in Wild Eggplant Solanum linnaeanum Roots. Zhuang, Yong,Zhou, Xiao-Hui,Liu, Jun. 2014
[20]De novo transcriptome sequencing of Acer palmatum and comprehensive analysis of differentially expressed genes under salt stress in two contrasting genotypes. Rong, Liping,Li, Qianzhong,Li, Shushun,Tang, Ling,Wen, Jing.
