[1]Construction of vector with IMT1 and its gene expression in transgenic tobacco leaf cells associated with salt tolerance. Dong, YZ. 1999

[2]CrMAPK3 regulates the expression of iron-deficiency-responsive genes in Chlamydomonas reinhardtii. Fei, Xiaowen,Yu, Junmei,Li, Yajun,Deng, Xiaodong. 2017

[3]Optimization of the culture conditions of a Chlamydomonas high oil content ultraviolet mutant CC124-M25 and polymorphism analysis by inter-simple sequence repeat (ISSR). Deng, Xiaodong,Zhou, Yujiao,Li, Yajun,Fei, Xiaowen,Fei, Xiaowen. 2012

[4]Effect of the expression and knockdown of citrate synthase gene on carbon flux during triacylglycerol biosynthesis by green algae Chlamydomonas reinhardtii. Cai, Jiajia,Fei, Xiaowen,Deng, Xiaodong. 2013

[5]The Klebsiella pneumoniae nitrogenase Fe protein gene (nifH) functionally substitutes for the chlL gene in Chlamydomonas reinhardtii. Cheng, Q,Day, A,Dowson-Day, M,Shen, GF,Dixon, R. 2005

[6]Foot-and-mouth disease virus VP1 protein fused with cholera toxin B subunit expressed in Chlamydomonas reinhardtii chloroplast. Sun, M,Qian, KX,Su, N,Chang, HY,Liu, JX,Chen, GF.

[7]The mRNA abundance of pepc2 gene is negatively correlated with oil content in Chlamydomonas reinhardtii. Deng, Xiaodong,Li, Yajun,Fei, Xiaowen,Fei, Xiaowen. 2011

[8]Bioinformatics Analysis of Alternative Polyadenylation in Green Alga Chlamydomonas reinhardtii Using Transcriptome Sequences from Three Different Sequencing Platforms. Zhao, Zhixin,Wu, Xiaohui,Kumar, Praveen Kumar Raj,Dong, Min,Li, Qingshun Quinn,Liang, Chun,Wu, Xiaohui,Dong, Min,Ji, Guoli,Li, Qingshun Quinn,Li, Qingshun Quinn,Li, Qingshun Quinn. 2014

[9]Involvement of Chlamydomonas DNA damage tolerence gene UBC2 in lipid accumulation. Li, Xinhan,Li, Ping,Deng, Xiaodong,Fei, Xiaowen. 2017

[10]Involvement of phosphatidate phosphatase in the biosynthesis of triacylglycerols in Chlamydomonas reinhardtii. Deng, Xiao-dong,Cai, Jia-jia,Fei, Xiao-wen. 2013

[11]Overexpression of an S-like ribonuclease gene, OsRNS4, confers enhanced tolerance to high salinity and hyposensitivity to phytochrome-mediated light signals in rice. Zheng, Jun,Wang, Yingying,He, Yanan,Zhou, Jinjun,Li, Yaping,Liu, Qianqian,Xie, Xianzhi,Zheng, Jun,Wang, Yingying,He, Yanan,Zhou, Jinjun,Xie, Xianzhi. 2014

[12]IMPROVED NUTRIENT UPTAKE ENHANCES COTTON GROWTH AND SALINITY TOLERANCE IN SALINE MEDIA. Dai, J. L.,Duan, L. S.,Dong, H. Z.,Dai, J. L.. 2014

[13]Isolation of Arachis hypogaea Na+/H+ antiporter and its expression analysis under salt stress. Wan, Shubo,Meng, Jingjing,Guo, Feng,Li, Xinguo,Wan, Shubo,Meng, Jingjing,Guo, Feng,Li, Xinguo,Xing, Jinyi,Wang, Baozhi,Jia, Kunhang,Wan, Shubo,Meng, Jingjing,Guo, Feng,Li, Xinguo. 2011

[14]Co-expression of AtNHX1 and TsVP improves the salt tolerance of transgenic cotton and increases seed cotton yield in a saline field. Cheng Cheng,Zhang, Kewei,Ying Zhang,Xiugui Chen,Jiuling Song,Zhiqiang Guo,Kunpeng Li,Kewei Zhang. 2018

[15]Expression of a rice gene OsNOA1 re-establishes nitric oxide synthesis and stress-related gene expression for salt tolerance in Arabidopsis nitric oxide-associated 1 mutant Atnoa1. Qiao, Weihua,Yu, Liang,Fan, Liu-Min,Xiao, Shouhua.

[16]Cloning and Expression Analysis of Eight Upland Cotton Pentatricopeptide Repeat Family Genes. Han, Zongfu,Kong, Fanjin,Deng, Yongsheng,Wang, Zongwen,Shen, Guifang,Wang, Jinghui,Duan, Bing,Li, Ruzhong,Qin, Yuxiang.

[17]Genotypic variations in ion homeostasis, photochemical efficiency and antioxidant capacity adjustment to salinity in cotton (Gossypium hirsutum L.). Ning Wang,Haikun Qi,Guilan Su,Jie Yang,Hong Zhou,Qinghua Xu,Qun Huang,Gentu Yan.

[18]iTRAQ-Based Comparative Proteomic Analysis of Seedling Leaves of Two Upland Cotton Genotypes Differing in Salt Tolerance. Wenfang Gong,Feifei Xu,Du, Xiongming,Junling Sun,Zhen Peng,Shoupu He,Zhaoe Pan,Xiongming Du. 2017

[19]Characterization of a Type 1 Metallothionein Gene from the Stresses-Tolerant Plant Ziziphus jujuba. Yang, Mingxia,Cao, Qiufen,Chen, Mingchang,Yang, Mingxia,Dong, Zhigang,Zhang, Fan,Wang, Fan,Cao, Qiufen,Chen, Mingchang. 2015

[20]Optimal Concentration of Zinc Sulfate in Foliar Spray to Alleviate Salinity Stress in Glycine soja. Jiang, W.,Xu, H. L.,Lu, H. F.,Jiang, W.,Sun, X. H.,Mantri, N.. 2014