A bZIP transcription factor VabZIP12 from blueberry induced by dark septate endocyte improving the salt tolerance of transgenic Arabidopsis
文献类型: 外文期刊
第一作者: Qu, Dehui
作者: Qu, Dehui;Wu, Fanlin;Zhao, Xiaohui;Sun, Yadong;Yang, Jingjing;Tian, Wei;Su, Hongyan;Zhao, Weiwei;Wang, Lei;Zhu, Dongzi;Gu, Liang;Yang, Lina
作者机构:
关键词: Dark septate endophytes; Salt tolerance; VabZIP12; Arabidopsis; Antioxidant ability
期刊名称:PLANT SCIENCE ( 影响因子:4.729; 五年影响因子:5.132 )
ISSN: 0168-9452
年卷期: 2022 年 315 卷
页码:
收录情况: SCI
摘要: Dark septate endophytes (DSEs) have attracted much attention due to their positive roles in plant growth as well as resistance to various abiotic stresses. However, there are no reports on the molecular mechanisms of DSE fungi to improve salt tolerance in plants. In this study, the blueberry seedlings inoculated with T010, a beneficial DSE fungus reported previously, grew more vigorously than the non-inoculated control under salt stress. Physiological indicators showed that T010 inoculation increased antioxidant activities of blueberry roots. To explore its molecular mechanism, we focused on the bZIP TFs VabZIP12, who was highly up-regulated with T010 inoculation under salt stress. Further studies showed that VabZIP12, as a transcription activator, could combine both G-Box 1 and G-Box 2 motifs. Moreover, overexpression of VabZIP12 enhanced salt stress tolerance through increasing the activities of the enzymatic antioxidants in the transgenic Arabidopsis with up-regulation the related genes. These results indicated that the induction of VabZIP12 contribute to improving the tolerance of blueberry to salt stress by T010 inoculation.
分类号:
- 相关文献
作者其他论文 更多>>
-
A slow-release fertilizer containing cyhalofop-butyl reduces N2O emissions by slowly releasing nitrogen and down-regulating the relative abundance of nirK
作者:Zhang, Zewang;Yu, Xiangyang;Liang, Dong;Xu, Cong;Ji, Cheng;Wang, Lei;Ma, Hongbo;Wang, Jidong;Zhang, Zewang;Wang, Jidong;Chen, Gonglei
关键词:Slow-release fertilizer; Cyhalofop-butyl; Nitrous oxide; Bacteria; Nitrogen functional genes
-
Soil degradation regulates the effects of litter decomposition on soil microbial nutrient limitation: Evidence from soil enzymatic activity and stoichiometry
作者:Li, Jianan;Niu, Ximei;Wang, Ping;Yang, Jingjing;Wu, Donghui;Guan, Pingting;Wang, Ping;Guan, Pingting;Liu, Jinwen;Wu, Donghui
关键词:litter decomposition; grassland degradation; soil enzymes; ecological stoichiometry; nutrient cycling
-
Pold4 is dispensable for mouse development, DNA replication and DNA repair
作者:Gu, Xueping;Dai, Qinjin;Du, Peng;Li, Ning;Li, Jiahui;Zeng, Simiao;Peng, Shuyi;Tang, Shengjun;Zhou, Zhongcheng;Wang, Lei
关键词:Pold4; DNA replication; DNA damage; DNA repair; CRISPR
-
Urate oxidase from tea microbe Colletotrichum camelliae is involved in the caffeine metabolism pathway and plays a role in fungal virulence
作者:He, Shengnan;Zhang, Shuhan;Xia, Jinglin;Liu, Shouan;Qiao, Xiaoyan;Wang, Lei;Liu, Shouan
关键词:Colletotrichum camelliae; tea plant; caffeine metabolism; urate oxidase; purine alkaloids
-
Genetic diversity analysis and variety identification using SSR and SNP markers in melon
作者:Zhang, Jian;Yang, Jingjing;Zhang, Xiaofei;Xia, Changxuan;Zhao, Hong;Wen, Changlong;Zhang, Jian;Yang, Jingjing;Zhang, Xiaofei;Xia, Changxuan;Zhao, Hong;Wen, Changlong;Lv, Yanling
关键词:Perfect SSR; Perfect SNP; Genetic diversity; Variety identification; Melon
-
Engineering Cupriavidus necator H16 for heterotrophic and autotrophic production of myo-inositol
作者:Wang, Xiaolu;Wang, Kaikai;Wang, Lei;Luo, Huiying;Wang, Yaru;Wang, Yuan;Tu, Tao;Qin, Xing;Su, Xiaoyun;Bai, Yingguo;Yao, Bin;Huang, Huoqing;Zhang, Jie;Wang, Lei
关键词:Cupriavidus necator; Metabolic engineering; Myo-inositol; Renewable feedstocks; CO2
-
Plow layer management during the fallow season can enhance the wheat productivity and resource utilization in a semi-arid region
作者:Zhao, Gang;Li, Shangzhong;Zhang, Jianjun;Dang, Yi;Wang, Lei;Wang, Shuying;Cheng, Wanli;Fan, Tinglu;Wu, Peng;Wu, Peng;Liu, Fu;Cai, Tie
关键词:Green manure; Precipitation storage efficiency; Soil water; Soil quality; Wheat productivity
