共 42 条
- [1] A GSHS-like gene from Lycium chinense maybe regulated by cadmium-induced endogenous salicylic acid and overexpression of this gene enhances tolerance to cadmium stress in ArabidopsisPLANT CELL REPORTS, 2015, 34 (05) : 871 - 884Guan, ChunfengJi, JingJia, CuicuiGuan, WenzhuLi, XiaozhouJin, ChaoWang, Gang
- [2] The glutathione synthesis may be regulated by cadmium-induced endogenous ethylene in Lycium chinense, and overexpression of an ethylene responsive transcription factor gene enhances tolerance to cadmium stress in tobaccoMOLECULAR BREEDING, 2015, 35 (05) : 1 - 13Guan, ChunfengJi, JingWu, DianyunLi, XiaozhouJin, ChaoGuan, WenzhuWang, Gang
- [3] The glutathione synthesis may be regulated by cadmium-induced endogenous ethylene in Lycium chinense, and overexpression of an ethylene responsive transcription factor gene enhances tolerance to cadmium stress in tobaccoMolecular Breeding, 2015, 35Chunfeng GuanJing JiDianyun WuXiaozhou LiChao JinWenzhu GuanGang Wang
- [4] GR1-like gene expression in Lycium chinense was regulated by cadmium-induced endogenous jasmonic acids accumulationPLANT CELL REPORTS, 2017, 36 (09) : 1457 - 1476Ma, ZhigangAn, TingZhu, XueruiJi, JingWang, GangGuan, ChunfengJin, ChaoYi, Lingling
- [5] GR1-like gene expression in Lycium chinense was regulated by cadmium-induced endogenous jasmonic acids accumulationPlant Cell Reports, 2017, 36 : 1457 - 1476Zhigang MaTing AnXuerui ZhuJing JiGang WangChunfeng GuanChao JinLingling Yi
- [6] A Lycium chinense-derived P5CS-like gene is regulated by water deficit-induced endogenous abscisic acid and overexpression of this gene enhances tolerance to water deficit stress in ArabidopsisMolecular Breeding, 2014, 34 : 1109 - 1124Chunfeng GuanJing JiWenzhu GuanYuanhang FengXiaozhou LiChao JinJing LiYurong WangGang Wang
- [7] A Lycium chinense-derived P5CS-like gene is regulated by water deficit-induced endogenous abscisic acid and overexpression of this gene enhances tolerance to water deficit stress in ArabidopsisMOLECULAR BREEDING, 2014, 34 (03) : 1109 - 1124Guan, ChunfengJi, JingGuan, WenzhuFeng, YuanhangLi, XiaozhouJin, ChaoLi, JingWang, YurongWang, Gang
- [8] Endogenous salicylic acid potentiates cadmium-induced oxidative stress in Arabidopsis thalianaPLANT SCIENCE, 2007, 173 (02) : 190 - 197Zawoznik, Myriam S.Groppa, Maria D.Tomaro, Maria L.Benavides, Maria P.
- [9] Overexpression of lycopene ε-cyclase gene from lycium chinense confers tolerance to chilling stress in Arabidopsis thalianaGENE, 2016, 576 (01) : 395 - 403Song, XinyuDiao, JinjinJi, JingWang, GangLi, ZhaodiWu, JiangJosine, Tchouopou LontchiWang, Yurong
- [10] LcBiP, a Endoplasmic Reticulum Chaperone Binding Protein Gene from Lycium chinense, Confers Cadmium Tolerance in Transgenic TobaccoBIOTECHNOLOGY PROGRESS, 2015, 31 (02) : 358 - 368Guan, ChunfengJin, ChaoJi, JingWang, GangLi, Xiaozhou