农科机构知识库联盟

OsARM1, an R2R3 MYB Transcription Factor, Is Involved in Regulation of the Response to Arsenic Stress in Rice

文献类型：外文期刊

第一作者： Wang, Feng-Zhu

作者： Wang, Feng-Zhu;Yu, Lu-Jun;Xie, Li-Juan;Yuan, Li-Bing;Qi, Hua;Xiao, Ming;Guo, Wuxiu;Shu, Wensheng;Xiao, Shi;Chen, Qin-Fang;Chen, Mo-Xian;Zhang, Jianhua;Chen, Zhe;Qiu, Rongliang;Yi, Keke;Zhang, Jianhua;Zhang, Jianhua

作者机构：

关键词： arsenic;As transport;As uptake;MYB transcription factor;OsARM1;Oryza sativa

期刊名称：FRONTIERS IN PLANT SCIENCE （影响因子：5.753；五年影响因子：6.612 ）

ISSN： 1664-462X

年卷期： 2017 年 8 卷

页码：

收录情况： SCI

摘要： Bioaccumulation of arsenic (As) in rice (Oryza sativa) increases human exposure to this toxic, carcinogenic element. Recent studies identified several As transporters, but the regulation of these transporters remains unclear. Here, we show that the rice R2R3 MYB transcription factor OsARM1 (ARSENITE-RESPONSIVE MYB1) regulates As-associated transporters genes. Treatment with As(III) induced OsARM1 transcript accumulation and an OsARM1-GFP fusion localized to the nucleus. Histochemical analysis of OsARM1pro::GUS lines indicated that OsARM1 was expressed in the phloem of vascular bundles in basal and upper nodes. Knockout of OsARM1 (OsARM1-KO CRISPR/Cas9-generated mutants) improved tolerance to As(III) and overexpression of OsARM1 (OsARM1-OE lines) increased sensitivity to As(III). Measurement of As in As(III)-treated plants showed that under low As(III) conditions (2 mu M), more As was transported from the roots to the shoots in OsARM1-KOs. By contrast, more As accumulated in the roots in OsARM1-OEs in response to high As(III) exposure (25 mu M). In particular, the As(III) levels in node I were significantly higher in OsARM1-KOs, but significantly lower in OsARM1-OEs, compared to wild-type plants, implying that OsARM1 is important for the regulation of root-to-shoot translocation of As. Moreover, OsLsi1, OsLsi2, and OsLsi6, which encode key As transporters, were significantly downregulated in OsARM1-OEs and upregulated in OsARM1-KOs compared to wild type. Chromatin immunoprecipitation-quantitative PCR of OsARM1-OEs indicated that OsARM1 binds to the conserved MYB-binding sites in the promoters or genomic regions of OsLsi1, OsLsi2, and OsLsi6 in rice. Our findings suggest that the OsARM1 transcription factor has essential functions in regulating As uptake and root-to-shoot translocation in rice.

分类号：

相关文献

[1]Arsenic accumulation by the aquatic fern Azolla: Comparison of arsenate uptake, speciation and efflux by A. caroliniana and A. filiculoides. Zhang, Xin,Duan, Gui-Lan,Zhu, Yong-Guan,Lin, Ai-Jun,Zhao, Fang-Jie,Xu, Guo-Zhong,Zhu, Yong-Guan.

[2]A R2R3 MYB transcription factor from ash positively regulates salt response in tobacco. Li, Tian,Sun, Jingkuan,Li, Tian,Bi, Yuping. 2017

[3]Identification and Characterization of 40 Isolated Rehmannia glutinosa MYB Family Genes and Their Expression Profiles in Response to Shading and Continuous Cropping. Wang, Fengqing,Suo, Yanfei,Chen, Xinjian,Zhang, Zhongyi,Wei, He,Li, Mingjie,Zhang, Zhongyi,Xie, Caixia,Wang, Lina. 2015

[4]Expression of a wheat MYB gene in transgenic tobacco enhances resistance to Ralstonia solanacearum, and to drought and salt stresses. Liu, Hongxia,Zhou, Xianyao,Dong, Na,Liu, Xin,Zhang, Zengyan,Zhou, Xianyao,Zhang, Huaiyu.

[5]Molecular characterization of 60 isolated wheat MYB genes and analysis of their expression during abiotic stress. Zhang, Lichao,Zhao, Guangyao,Jia, Jizeng,Liu, Xu,Kong, Xiuying.

[6]Transgenic wheat expressing Thinopyrum intermedium MYB transcription factor TiMYB2R-1 shows enhanced resistance to the take-all disease. Liu, Xin,Yang, Lihua,Zhou, Xianyao,Lu, Yan,Zhang, Zengyan,Yang, Lihua,Ma, Lingjian,Zhou, Miaoping,Ma, Hongxiang.

[7]Overexpression of an MYB-Related Gene FvMYB1 from Fraxinus velutina Increases Tolerance to Salt Stress in Transgenic Tobacco. Li, Tian,Sun, Jingkuan,Bi, Yuping,Peng, Zhenying.

[8]GaMYB85, an R2R3 MYB gene, in transgenic Arabidopsis plays an important role in drought tolerance. Butt, Hamama Islam,Li, Fuguang,Zhang, Xueyan,Yang, Zhaoen,Gong, Qian,Chen, Eryong,Wang, Xioaqian,Zhao, Ge,Ge, Xiaoyang,Zhang, Xueyan,Li, Fuguang. 2017

[9]FtSAD2 and FtJAZ1 regulate activity of the FtMYB11 transcription repressor of the phenylpropanoid pathway in Fagopyrum tataricum. Zhou, Meiliang,Sun, Zhanmin,Ding, Mengqi,Wang, Dan,Tang, Yixiong,Wu, Yanmin,Zhou, Meiliang,Zhu, Xuemei,Logacheva, Maria D.,Kreft, Ivan,Yan, Mingli,Shao, Jirong. 2017

[10]Soybean transcription factor GmMYBZ2 represses catharanthine biosynthesis in hairy roots of Catharanthus roseus. Zhou, Mei-Liang,Shao, Ji-Rong,Zhou, Mei-Liang,Wu, Yan-Min,Tang, Yi-Xiong,Hou, Hong-Li,Zhu, Xue-Mei.

[11]Changing a conserved amino acid in R2R3-MYB transcription repressors results in cytoplasmic accumulation and abolishes their repressive activity in Arabidopsis. Zhou, Meiliang,Sun, Zhanmin,Wang, Chenglong,Tang, Yixiong,Wu, Yanmin,Wang, Chenglong,Shao, Jirong,Zhang, Xinquan,Zhu, Xuemei.

[12]BjMYB1, a transcription factor implicated in plant defence through activating BjCHI1 chitinase expression by binding to a W-box-like element. Gao, Ying,Jia, Shuangwei,Wang, Chunlian,Wang, Fujun,Wang, Fajun,Zhao, Kaijun.

[13]An R2R3 MYB transcription factor in wheat, TaPIMP1, mediates host resistance to Bipolaris sorokiniana and drought stresses through regulation of defense- and stress-related genes. Liu, Xin,Wang, Xindong,Zhou, Xianyao,Ye, Xingguo,Wei, Xuening,Zhou, Miaoping. 2012

[14]Molecular cloning and expression of a novel MYB transcription factor gene in rubber tree. Qin, Bi,Zhang, Yu,Wang, Meng.

[15]Association of decreased expression of a Myb transcription factor with the TPD (tapping panel dryness) syndrome in Hevea brasiliensis. Chen, SC,Peng, SQ,Huang, GX,Wu, KX,Fu, XH,Chen, ZQ.

[16]HbMyb1, a Myb transcription factor from Hevea brasiliensis, suppresses stress induced cell death in transgenic tobacco. Peng, Shi-Qing,Wu, Kun-Xin,Chen, Shou-Cai,Chen, Shou-Cai,Huang, Gui-Xiu.

[17]Overexpression of AtHsp90.3 in Arabidopsis thaliana impairs plant tolerance to heavy metal stress. Song, H. M.,Wang, H. Z.,Xu, X. B.,Song, H. M.. 2012

[18]APPLICATION OF SYNCHROTRON RADIATION X-RAY FLUORESCENCE TO INVESTIGATE THE DISTRIBUTION OF ARSENIC IN DIFFERENT ORGANS OF PANAX NOTOGINSENG. Chen, L.,Mi, Y.,Yin, B.,He, L.,Li, Q.,Wan, X.,Yuan, Z.. 2017

[19]Demethylation of arsenic limits its volatilization in fungi. Su, Shiming,Zeng, Xibai,Bai, Lingyu,Duan, Ran,Wang, Xiurong,Wu, Cuixia,Wang, Yanan,Feng, Qiufen,Zhang, Lili,Jiang, Sheng,Li, Aiguo.

[20]Arsenic biotransformation by arsenic-resistant fungi Trichoderma asperellum SM-12F1, Penicillium janthinellum SM-12F4, and Fusarium oxysporum CZ-8F1. Su, Shiming,Zeng, Xibai,Bai, Lingyu,Li, Lianfang,Duan, Ran.

作者其他论文更多>>

Rhizosphere and phyllosphere microbial communities of male and female plants of Morus macroura

作者：Liu, Quanwei;Xu, Danping;Chen, Guantao;Zhang, Jianhua;Wang, Xie;Ali, Habib

关键词：Morus macroura; Dioecious plants; Phyllosphere; Rhizosphere; Microbial communities
Fluid streaming and microparticles manipulating based on piezoelectric arrays excitation with various switching frequencies and duty cycles

作者：Zhang, Fan;Wei, Bin;Zhang, Fan;Wei, Bin;Zhang, Bing;Ma, Cong;Zhang, Jianhua;Wei, Bin

关键词：Acoustic; streaming; duty cycle; piezoelectrics; tweezers
Identification of new salicylic acid signaling regulators for root development and microbiota composition in plants

作者：Jia, Xianqing;Xu, Zhuang;Xu, Lei;Wang, Long;Yu, Jiahong;Yi, Keke;Frene, Juan P.;Gonin, Mathieu;Castrillo, Gabriel

关键词：gene regulatory network; microbiota colonization; root growth; ROS; salicylic acid
Analysis of the genetic basis of fiber-related traits and flowering time in upland cotton using machine learning

作者：Li, Weinan;Peng, Jun;Zhang, Jianhua;Zhang, Mingjun;Yang, Zhaoen;Peng, Jun;Chai, Mao;Fan, Jingchao;Zhang, Jianhua;Li, Weinan;Lan, Yubin

关键词：
Size-dependent uptake of chromium colloids in rice (Oryza sativa L.)

作者：Li, Jingjing;Guo, Weichao;Xu, Kai;Mo, Yijun;Jin, Chao;Tang, Yetao;Qiu, Rongliang;Xie, Weipeng;Liu, Ting;Qiu, Rongliang;Ao, Ming;Sun, Shengsheng;Deng, Tenghaobo

关键词：Chromium uptake; Rice; Colloidal particles; Endocytosis
A PHR-dependent reciprocal antagonistic interplay between UV response and P-deficiency adaptation in plants

作者：Ren, Jianhao;Li, Tianjie;Zhang, Qianqian;Ren, Suna;Wang, Long;Wu, Qingyu;Yi, Keke;Ruan, Wenyuan;Guo, Meina;Niu, Shihui

关键词：ultraviolet; UV; phosphorus; P; plants; PHRs; PSR; UV radiation response
Auxin-Producing Pseudomonas Recruited by Root Flavonoids Increases Rice Rhizosheath Formation through the Bacterial Histidine Kinase Under Soil Drying

作者：Xu, Feiyun;Wang, Yongsen;Yang, Jinyong;Zhang, Xue;Tong, Lu;Bai, Chuqi;Chen, Shu;Sun, Leyun;Du, Chongxuan;Fang, Ju;Gengli, Jiahong;Liu, Jianping;Xu, Weifeng;Zhang, Xue;Wang, Ke;Ding, Fan;Xu, Mengqiang;Li, Liang;Zhang, Qian;Wang, Zhengrui;Pang, Jiayin;Yu, Xin;Zhu, Yiyong;Zhang-Zheng, Huanyuan;Zhang-Zheng, Huanyuan;Zhang, Jianhua

关键词：polyploidy; pseudomonas; rhizosheath formation; rice; soil drying

OsARM1, an R2R3 MYB Transcription Factor, Is Involved in Regulation of the Response to Arsenic Stress in Rice

作者其他论文 更多>>

Rhizosphere and phyllosphere microbial communities of male and female plants of Morus macroura

Fluid streaming and microparticles manipulating based on piezoelectric arrays excitation with various switching frequencies and duty cycles

Identification of new salicylic acid signaling regulators for root development and microbiota composition in plants

Analysis of the genetic basis of fiber-related traits and flowering time in upland cotton using machine learning

Size-dependent uptake of chromium colloids in rice (Oryza sativa L.)

A PHR-dependent reciprocal antagonistic interplay between UV response and P-deficiency adaptation in plants

Auxin-Producing Pseudomonas Recruited by Root Flavonoids Increases Rice Rhizosheath Formation through the Bacterial Histidine Kinase Under Soil Drying

作者其他论文更多>>