农科机构知识库联盟

Expression of TERF1 in rice regulates expression of stress-responsive genes and enhances tolerance to drought and high-salinity

文献类型：外文期刊

第一作者： Gao, Shumei

作者： Gao, Shumei;Zhang, Haiwen;Tian, Yun;Li, Fang;Zhang, Zhijin;Chen, Xiaoliang;Huang, Rongfeng;Gao, Shumei;Zhang, Haiwen;Zhang, Zhijin;Huang, Rongfeng;Tian, Yun;Li, Fang;Lu, Xiangyang

作者机构：

关键词： ERF protein;Drought;Oryza sativa;Salinity;Transcriptional regulation

期刊名称：PLANT CELL REPORTS （影响因子：4.57；五年影响因子：4.463 ）

ISSN： 0721-7714

年卷期： 2008 年 27 卷 11 期

页码：

收录情况： SCI

摘要： Drought and high-salinity are the important constraints that severely affect plant development and crop yield worldwide. It has been established that ethylene response factor (ERF) proteins play important regulatory roles in plant response to abiotic and biotic stresses. Our previous researches have revealed that transgenic tobacco over-expressing TERF1 (encoding a tomato ERF protein) showed enhanced tolerance to abiotic stress. Here, we further investigate the function of TERF1 in transgenic rice. Compared with the wild-type plants, overexpression of TERF1 resulted in an increased tolerance to drought and high-salt in transgenic rice. And the enhanced tolerance may be associated with the accumulation of proline and the decrease of water loss. Furthermore, TERF1 can effectively regulate the expression of stress-related functional genes Lip5, Wcor413-l, OsPrx and OsABA2, as well as regulatory genes OsCDPK7, OsCDPK13 and OsCDPK19 under normal growth conditions. Our analyses of cis-acting elements show that there exist DRE/CRT and/or GCC-box existing in TERF1 targeted gene promoters. Our results revealed that ectopic expression of TERF1 in rice caused a series of molecular and physiological alterations and resulted in the transgenic rice with enhanced tolerance to abiotic stress, indicating that TERF1 might have similar regulatory roles in response to abiotic stress in tobacco and rice.

分类号：

相关文献

[1]Expression of ethylene response factor JERF1 in rice improves tolerance to drought. Zhang, Zhijin,Li, Fang,Zhang, Haiwen,Huang, Rongfeng,Li, Fang,Li, Dingjun,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng,Zhang, Zhijin,Zhang, Haiwen,Huang, Rongfeng.

[2]Functional analyses of ethylene response factor JERF3 with the aim of improving tolerance to drought and osmotic stress in transgenic rice. Zhang, Haiwen,Liu, Wu,Wan, Liyun,Li, Fang,Zhang, Zhijin,Huang, Rongfeng,Liu, Wu,Li, Fang,Dai, Liangying,Li, Dingjun,Zhang, Haiwen,Zhang, Zhijin,Huang, Rongfeng,Zhang, Haiwen,Zhang, Zhijin,Huang, Rongfeng. 2010

[3]Effect of soil salinity, soil drought, and their combined action on the biochemical characteristics of cotton roots. Zhang, Lei,Chen, Binglin,Zhang, Guowei,Li, Jianliang,Wang, Youhua,Meng, Yali,Zhou, Zhiguo,Zhang, Lei. 2013

[4]Identification and characterization of hemp WRKY transcription factors in response to abiotic stresses. Zhao, L. -N.,Zang, G. -G..

[5]An intronless sucrose:fructan-6-fructosyltransferase (6-SFT) gene from Dasypyrum villosum enhances abiotic tolerance in tobacco. He, X. L.,Chen, Z. Z.,Wu, J.,Zhao, J. X.,Su, J. N.,Wang, Z. H.,Chen, X. H.,He, X. L.,Chen, X. H.,He, X. L.,Wang, J. W.,Li, W. X.. 2017

[6]Recent progress in drought and salt tolerance studies in Brassica crops. Zhang, Xuekun,Lu, Guangyuan,Long, Weihua,Zou, Xiling,Li, Feng,Long, Weihua,Nishio, Takeshi.

[7]Recurrent selection breeding by dominant male sterility for multiple abiotic stresses tolerant rice cultivars. Pang, Yunlong,Wang, Xiaoqian,Xu, Jianlong,Li, Zhikang,Pang, Yunlong,Wang, Xiaoqian,Ali, Jauhar,Pang, Yunlong,Chen, Kai,Xu, Jianlong,Xu, Jianlong,Li, Zhikang.

[8]A sucrose:fructan-6-fructosyltransferase (6-SFT) gene from Psathyrostachys huashanica confers abiotic stress tolerance in tobacco. He, Xiaolan,Chen, Zhenzhen,Zhao, Jixin,Wu, Jun,Wang, Zhonghua,Chen, Xinhong,Wang, Jianwei,Li, Wenxu.

[9]Identification of a group of XTHs genes responding to heavy metal mercury, salinity and drought stresses in Medicago truncatula. Xuan, Yun,Li, Hai Bo,Yang, Zhi Min,Zhou, Zhao Sheng,Xuan, Yun.

[10]Molecular analysis of the annexin gene family in soybean. Wei, X. K.,Liao, W. X.,Zhang, H.,Liang, S. C.,Peng, H.,Huang, L. H.,Peng, H..

[11]Overexpression of ethylene response factor TERF2 confers cold tolerance in rice seedlings. Tian, Yun,Zhang, Haiwen,Pan, Xiaowu,Chen, Xiaoliang,Zhang, Zhijin,Huang, Rongfeng,Tian, Yun,Lu, Xiangyang,Zhang, Haiwen,Zhang, Zhijin,Huang, Rongfeng,Tian, Yun,Lu, Xiangyang.

[12]Improvement of rice drought tolerance through backcross breeding: Evaluation of donors and selection in drought nurseries. Lafitte, HR,Li, ZK,Vijayakumar, CHM,Gao, YM,Shi, Y,Xu, JL,Fu, BY,Ali, AJ,Domingo, J,Maghirang, R,Torres, R,Mackill, D. 2006

[13]Differential responses of lipid peroxidation and antioxidants in Alternanthera philoxeroides and Oryza sativa subjected to drought stress. Gao, Jianming,Xiao, Qiang,Ding, Liping,Chen, Mingjie,Yin, Liang,Li, Jinzhi,Zhou, Shiyi,He, Guangyuan,Gao, Jianming.

[14]The ethylene response factor OsERF109 negatively affects ethylene biosynthesis and drought tolerance in rice. Yu, Yanwen,Gu, Juntao,Wang, Fengru,Dong, Jingao,Yu, Yanwen,Yang, Dexin,Zhou, Shirong,Huang, Rongfeng,Huang, Rongfeng.

[15]EAR motif mutation of rice OsERF3 alters the regulation of ethylene biosynthesis and drought tolerance. Zhang, Jianfei,Quan, Ruidang,Pan, Xiaowu,Wan, Liyun,Huang, Rongfeng,Zhang, Haiwen,Quan, Ruidang,Huang, Rongfeng,Pan, Xiaowu.

[16]The ethylene response factor AtERF98 enhances tolerance to salt through the transcriptional activation of ascorbic acid synthesis in Arabidopsis. Zhang, Zhijin,Wang, Juan,Zhang, Rongxue,Huang, Rongfeng,Zhang, Zhijin,Wang, Juan,Zhang, Rongxue,Huang, Rongfeng. 2012

[17]Arabidopsis enhanced drought tolerance1/HOMEODOMAIN GLABROUS11 confers drought tolerance in transgenic rice without yield penalty. Yu, Linhui,Chen, Xi,Wang, Zhen,Xiang, Chengbin,Wang, Shimei,Zhu, Qisheng,Wang, Yuping,Li, Shigui,Wang, Shimei,Zhu, Qisheng.

[18]The miR-302/367 cluster: a comprehensive update on its evolution and functions. Gao, Zeqian,Zhu, Xueliang,Dou, Yongxi. 2015

[19]SUV39H1 mediated SIRT1 trans-repression contributes to cardiac ischemia-reperfusion injury. Yang, Guang,Zhang, Xinjian,Liang, Peng,Dai, Xin,Zeng, Sheng,Xu, Huihui,Fang, Mingming,Li, Yuehua,Xu, Dachun,Xu, Yong,Weng, Xinyu,Huan, Hailin,Xu, Dachun. 2017

[20]Transcriptional and post-transcriptional regulation of the jasmonate signalling pathway in response to abiotic and harvesting stress in Hevea brasiliensis. Pirrello, Julien,Leclercq, Julie,Dessailly, Florence,Rio, Maryannick,Piyatrakul, Piyanuch,Montoro, Pascal,Piyatrakul, Piyanuch,Kuswanhadi, Kuswanhadi,Tang, Chaorong. 2014

作者其他论文更多>>

Long-term warming and acidification interaction drives plastic acclimation in the diatom Pseudo-nitzschia multiseries

作者：Sun, Yanmin;Zhang, Yanan;Liang, Chengwei;Ye, Naihao;Li, Fang;Sun, Yanmin;Yang, Fan;Xu, Dong;Zhang, Yanan;Liang, Chengwei;Huang, Xintong;Wang, Bingkun;Wang, Yapeng;Sun, Haoming;Ye, Naihao;Duan, Ran;Fu, Fei-Xue;Wang, Zhuonan

关键词：
Haplotype-resolved genome assembly and genome-wide association study identifies the candidate gene closely related to sugar content and tuber yield in Solanum tuberosum

作者：Gong, Lei;Zhang, Guohui;Guo, Zhiqian;Zhang, Li;Zhang, Haiwen;Nie, Fengjie;Liu, Xuan;Yang, Wenjing;Zhang, Yu;Liu, Zhenning;Zhang, Hongxia;Fang, Miaoquan

关键词：
Integration of digital phenotyping, GWAS, and transcriptomic analysis revealed a key gene for bud size in tea plant (Camellia sinensis)

作者：Zhang, Shuran;Chen, Si;Fu, Zhilu;Li, Fang;Chen, Qiyu;Ma, Jianqiang;Chen, Liang;Chen, Jiedan;Chen, Yuanquan

关键词：
Genetic dissection of yield and yield-related traits in mungbean based on QTL meta-analysis

作者：Du, Binbin;Wu, Jia;Zhang, Xingen;Li, Fang;Lu, Baowei;An, Fengxia;Wang, Qifei;Gao, Song;Yang, Fan;Zhang, Lei;Zhang, Xiao;Huo, Dongao

关键词：mungbean; yield; QTL meta-analysis; meta-QTL; candidate gene
Pathogen-activated Chaetomium globosum G3 enhances iron competition and other antagonistic mechanisms to suppress maize seedling blight causal agent Fusarium verticillioides

作者：Ren, Chunlin;Li, Shiying;Li, Peipei;Wang, Yi;Li, Hui;Li, Fang;Han, Yanlai;Wang, Yi;Han, Yanlai;Yuan, Hongxia;Zhao, Qingyun

关键词：Chaetomium globosum; Biocontrol; Fusarium verticillioides; Iron competition; Fumonisin
Polyphenol oxidase gene editing changed the flavonoid composition and browning process of litchi ( Litchi chinensis Sonn.) callus

作者：Wang, Shujun;Li, Fang;Wang, Guo;Li, Huanling;Li, Xiaoxu;Cao, Xueren;Wang, Jiabao

关键词：Callus; Polyphenol oxidase; Flavonoids; Browning; Gene editing
Age-Related Water Use Pattern of the Introduced Species Atriplex canescens Was Influenced by Root Distribution in Desert

作者：Zhou, Hai;He, Zhibin;Liu, Bing;Ren, Heng;Yang, Qiyue;Kang, Jianjun;Wang, Shuai;Zhao, Wenzhi;Feng, Xiangyan;Li, Fang

关键词：

Expression of TERF1 in rice regulates expression of stress-responsive genes and enhances tolerance to drought and high-salinity

作者其他论文 更多>>

Long-term warming and acidification interaction drives plastic acclimation in the diatom Pseudo-nitzschia multiseries

Haplotype-resolved genome assembly and genome-wide association study identifies the candidate gene closely related to sugar content and tuber yield in Solanum tuberosum

Integration of digital phenotyping, GWAS, and transcriptomic analysis revealed a key gene for bud size in tea plant (Camellia sinensis)

Genetic dissection of yield and yield-related traits in mungbean based on QTL meta-analysis

Pathogen-activated Chaetomium globosum G3 enhances iron competition and other antagonistic mechanisms to suppress maize seedling blight causal agent Fusarium verticillioides

Polyphenol oxidase gene editing changed the flavonoid composition and browning process of litchi ( Litchi chinensis Sonn.) callus

Age-Related Water Use Pattern of the Introduced Species Atriplex canescens Was Influenced by Root Distribution in Desert

作者其他论文更多>>