河南省农业科学院机构知识库

Co-overexpressing a Plasma Membrane and a Vacuolar Membrane Sodium/Proton Antiporter Significantly Improves Salt Tolerance in Transgenic Arabidopsis Plants

收藏
分享
全文链接

文献类型：外文期刊

作者： Pehlivan, Necla ¹ ; Sun, Li ² ; Jarrett, Philip ² ; Yang, Xiaojie ³ ; Mishra, Neelam ² ; Chen, Lin ⁴ ; Kadioglu, Asim; ¹ ;

作者机构： 1.Recep Tayyip Erdogan Univ, Dept Biol, Rize, Turkey

2.Texas Tech Univ, Dept Biol Sci, Lubbock, TX 79409 USA

3.Henan Acad Agr Sci, Zhengzhou, Peoples R China

4.Zhejiang Acad Agr Sci, Hangzhou, Zhejiang, Peoples R China

5.Karadeniz Tech Univ, Dept Biol, Trabzon, Turkey

关键词： Arabidopsis;Combined stresses;Genetic engineering;Heat stress;Salt stress;Sodium;proton antiporter

期刊名称：PLANT AND CELL PHYSIOLOGY （影响因子：4.927；五年影响因子：5.516 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： The Arabidopsis gene AtNHX1 encodes a vacuolar membranebound sodium/proton (Na+/H+) antiporter that transports Na+ into the vacuole and exports H+ into the cytoplasm. The Arabidopsis gene SOS1 encodes a plasma membranebound Na+/H+ antiporter that exports Na + to the extracellular space and imports H + into the plant cell. Plants rely on these enzymes either to keep Na + out of the cell or to sequester Na + into vacuoles to avoid the toxic level of Na + in the cytoplasm. Overexpression of AtNHX1 or SOS1 could improve salt tolerance in transgenic plants, but the improved salt tolerance is limited. NaCl at concentration > 200mM would kill AtNHX1-overexpressing or SOS1-overexpressing plants. Here it is shown that co-overexpressing AtNHX1 and SOS1 could further improve salt tolerance in transgenic Arabidopsis plants, making transgenic Arabidopsis able to tolerate up to 250mM NaCl treatment. Furthermore, co-overexpression of AtNHX1 and SOS1 could significantly reduce yield loss caused by the combined stresses of heat and salt, confirming the hypothesis that stacked overexpression of two genes could substantially improve tolerance against multiple stresses. This research serves as a proof of concept for improving salt tolerance in other plants including crops.

相关文献

[1]Overexpression of the Rice SUMO E3 Ligase Gene OsSIZ1 in Cotton Enhances Drought and Heat Tolerance, and Substantially Improves Fiber Yields in the Field under Reduced Irrigation and Rainfed Conditions. Mishra, Neelam,Sun, Li,Zhu, Xunlu,Smith, Jennifer,Esmaeili, Nardana,Zhang, Hong,Srivastava, Anurag Prakash,Yang, Xiaojie,Pehlivan, Necla,Luo, Hong,Shen, Guoxin,Jones, Don,Auld, Dick,Burke, John,Payton, Paxton.

[2]Molybdenum Affects Photosynthesis and Ionic Homeostasis of Chinese Cabbage under Salinity Stress. Hu, Chengxiao,Sun, Xuecheng,Zhao, Xiaohu,Tan, Qiling,Zhang, Ying,Zhang, Mu,Li, Na.

[3]Expression profiling and functional characterization of a CBL-interacting protein kinase gene from Populus euphratica. Lv, Fuling,Xia, Xinli,Yin, Weilun,Zhang, Hechen.

[4]Arabidopsis LOS5 Gene Enhances Chilling and Salt Stress Tolerance in Cucumber. Liu Li-ying,Duan Liu-sheng,Zhang Jia-chang,Zhang Xiao-lan,Zhang Zhen-xian,Ren Hua-zhong,Mi Guo-quan. 2013

[5]The calcium sensor PeCBL1, interacting with PeCIPK24/25 and PeCIPK26, regulates Na+/K+ homeostasis in Populus euphratica. Zhang, Hechen,Lv, Fuling,Han, Xiao,Xia, Xinli,Yin, Weilun,Zhang, Hechen. 2013

[6]Identification of early salt stress responsive proteins in seedling roots of upland cotton (Gossypium hirsutum L.) employing iTRAQ-based proteomic technique. Li, Wu,Li, Wu,Zhao, Fu'an,Fang, Weiping,Xie, Deyi,Hou, Jianan,Yang, Xiaojie,Zhao, Yuanming,Tang, Zhongjie,Nie, Lihong,Lv, Shuping. 2015

[7]Expression pattern of diacylglycerol acyltransferase-1, an enzyme involved in triacylglycerol biosynthesis, in Arabidopsis thaliana. Lu, CFL,de Noyer, SB,Hobbs, DH,Kang, JL,Wen, YC,Krachtus, D,Hills, MJ.

[8]Cysteine Protease 51 (CP51), an anther-specific cysteine protease gene, is essential for pollen exine formation in Arabidopsis. Yang, Yongxue,Dong, Caihua,Yu, Jingyin,Tong, Chaobo,Huang, Junyan,Liu, Shengyi,Yang, Yongxue,Shi, Lei,Li, Zhenbo.

作者其他论文更多>>

Saprotrophic fungal communities in arable soils are strongly associated with soil fertility and stoichiometry

作者：Ning, Qi;Chen, Lin;Zhang, Congzhi;Ma, Donghao;Zhang, Jiabao;Ning, Qi;Zhang, Jiabao;Li, Daming;Han, Xiaori;Cai, Zejiang;Huang, Shaomin

关键词：Fertilization; Saprotrophic fungi; Soil fertility; Soil stoichiometry
Rare fungus, Mortierella capitata, promotes crop growth by stimulating primary metabolisms related genes and reshaping rhizosphere bacterial community

作者：Li, Fang;Wang, Yi;Li, Yue;Li, Peipei;Jie, Xiaolei;Hu, Desheng;Feng, Biao;Han, Yanlai;Zhang, Shuiqing;Yue, Ke;Chen, Lin;Wang, Yi;Han, Yanlai

关键词：Mortierella; Co-occurrence network; Maize root transcriptome; Root-soil-microbe interactions; RNA-Seq
Multiple long-term observations reveal a strategy for soil pH-dependent fertilization and fungal communities in support of agricultural production

作者：Ning, Qi;Chen, Lin;Jia, Zhongjun;Zhang, Congzhi;Ma, Donghao;Zhang, Jiabao;Ning, Qi;Jia, Zhongjun;Zhang, Jiabao;Li, Fang;Li, Daming;Han, Xiaori;Cai, Zejiang;Huang, Shaomin;Liu, Wenzhao;Zhu, Bo;Li, Yan

关键词：Crop yield; Fungal community; Long-term fertilization; Manure; Soil pH
Co-Regulation of Long Non-Coding RNAs with Allele-Specific Genes in Wheat Responding to Powdery Mildew Infection

作者：Hu, Weiguo;Wang, Guanghao;Wang, Siwen;Nie, Xiaojun;Wang, Changyou;Wang, Yajuan;Zhang, Hong;Ji, Wanquan;Hu, Weiguo;Wang, Yajuan;Zhang, Hong;Ji, Wanquan;Zhang, Hong

关键词：wheat; powdery mildew; lncRNAs; allele-specific functional genes; miRNA; co-regulation
Gene co-expression network analysis provides a novel insight into the dynamic response of wheat to powdery mildew stress

作者：Hu, Weiguo;Wang, Qiaohui;Wang, Siwen;Wang, Mengmeng;Wang, Changyou;Tian, Zengrong;Liu, Xinlun;Ji, Wanquan;Zhang, Hong;Wang, Changyou;Ji, Wanquan;Zhang, Hong;Hu, Weiguo

关键词：wheat; powdery mildew; weighted gene correlation network analysis; protein-protein interaction network; candidate genes; Blumeria graminis
Co-overexpression of AVP1 and OsSIZ1 in Arabidopsis substantially enhances plant tolerance to drought, salt, and heat stresses

作者：Esmaeili, Nardana;Cai, Yifan;Sun, Li;Zhu, Xunlu;Zhang, Hong;Yang, Xiaojie;Fang, Weiping;Shen, Guoxin;Payton, Paxton

关键词：
Co-overexpression of AVP1 and PP2A-C5 in Arabidopsis makes plants tolerant to multiple abiotic stresses

作者：Sun, Li;Esmaeili, Nardana;Jarrett, Philip;Mishra, Neelam;Zhu, Xunlu;Herath, Maheshika;Zhang, Hong;Pehlivan, Necla;Yang, Xiaojie;Jiang, Weijia;Cai, Yifan;Shen, Guoxin

关键词：Arabidopsis; Chloride channel protein; Protein phosphatase 2A; Salt tolerance; Vacuolar pyrophosphatase

Co-overexpressing a Plasma Membrane and a Vacuolar Membrane Sodium/Proton Antiporter Significantly Improves Salt Tolerance in Transgenic Arabidopsis Plants

作者其他论文 更多>>

Saprotrophic fungal communities in arable soils are strongly associated with soil fertility and stoichiometry

Rare fungus, Mortierella capitata, promotes crop growth by stimulating primary metabolisms related genes and reshaping rhizosphere bacterial community

Multiple long-term observations reveal a strategy for soil pH-dependent fertilization and fungal communities in support of agricultural production

Co-Regulation of Long Non-Coding RNAs with Allele-Specific Genes in Wheat Responding to Powdery Mildew Infection

Gene co-expression network analysis provides a novel insight into the dynamic response of wheat to powdery mildew stress

Co-overexpression of AVP1 and OsSIZ1 in Arabidopsis substantially enhances plant tolerance to drought, salt, and heat stresses

Co-overexpression of AVP1 and PP2A-C5 in Arabidopsis makes plants tolerant to multiple abiotic stresses

意 见 箱

作者其他论文更多>>

意见箱