农科机构知识库联盟

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

文献类型：外文期刊

第一作者： Mishra, Neelam

作者： 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

作者机构：

关键词： Drought stress;Heat stress;SUMO E3 ligase;Sumoylation;Transgenic cotton

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 SUMO E3 ligase gene AtSIZ1 plays important roles in plant response to abiotic stresses as loss of function in AtSIZ1 leads to increased sensitivity to drought, heat and salt stresses. Overexpression of the AtSIZ1 rice homolog, OsSIZ1, leads to increased heat and drought tolerance in bentgrass, suggesting that the function of the E3 ligase SIZ1 is highly conserved in plants and it plays a critical role in abiotic stress responses. To test the possibility that the SUMO E3 ligase could be used to engineer drought-and heat-tolerant crops, the rice gene OsSIZ1 was overexpressed in cotton. We report here that overexpression of OsSIZ1 in cotton results in higher net photosynthesis and better growth than wild-type cotton under drought and thermal stresses in growth chamber and greenhouse conditions. Additionally, this tolerance to abiotic stresses was correlated with higher fiber yield in both controlled-environment and field trials carried out under reduced irrigation and rainfed conditions. These results suggest that OsSIZ1 is a viable candidate gene to improve crop yields under water-limited and rainfed agricultural production systems.

分类号： Q945

相关文献

[1]Simultaneous Overexpression of the HhERF2 and PeDREB2a Genes Enhanced Tolerances to Salt and Drought in Transgenic Cotton. Li, JinBo,Dong, XueNi,Shao, JiRong,Li, JinBo,Dong, XueNi,Lei, Zhi,Li, YongLiang,Yang, PeiYang,Tao, Fei,Wu, YanMin,Zhao, Liang,Li, Shi-Gang,Du, LinFeng.

[2]Arabidopsis EDT1/HDG11 improves drought and salt tolerance in cotton and poplar and increases cotton yield in the field. Yu, Lin-Hui,Chen, Xi,Zhao, Ping,Xu, Ping,Xiang, Cheng-Bin,Wu, Shen-Jie,Jiao, Gai-Li,Peng, Yi-Shu,Pei, Yan,Liu, Rui-Na,Zhu, Jian-Bo.

[3]A calcium-binding protein, rice annexin OsANN1, enhances heat stress tolerance by modulating the production of H2O2. Qiao, Bei,Zhang, Qian,Liu, Dongliang,Wang, Haiqi,Yin, Jingya,Wang, Rui,He, Mengli,Cui, Meng,Shang, Zhonglin,Zhu, Zhengge,Wang, Dekai.

[4]Drought stress had a predominant effect over heat stress on three tomato cultivars subjected to combined stress. Zhou, Rong,Zhao, Liping,Wang, Yinlei,Yu, Wengui,Zhao, Tongmin,Zhou, Rong,Zhao, Liping,Wang, Yinlei,Yu, Wengui,Zhao, Tongmin,Zhou, Rong,Yu, Xiaqing,Wu, Zhen,Ottosen, Carl-Otto,Rosenqvist, Eva. 2017

[5]SUMO E3 ligase AtMMS21 is required for normal meiosis and gametophyte development in Arabidopsis. Liu, Ming,Shi, Songfeng,Zhang, Shengchun,Xu, Panglian,Lai, Jianbin,Liu, Yiyang,Yuan, Dongke,Wang, Yaqin,Du, Jinju,Yang, Chengwei,Liu, Ming. 2014

[6]NPR1-dependent salicylic acid signaling is not involved in elevated CO2-induced heat stress tolerance in Arabidopsis thaliana. Li, Xin,Ahammed, Golam Jalal,Li, Xin,Yu, Jingquan,Shi, Kai. 2015

[7]Co-expression of AtNHX1 and TsVP improves the salt tolerance of transgenic cotton and increases seed cotton yield in a saline field. Cheng Cheng,Zhang, Kewei,Ying Zhang,Xiugui Chen,Jiuling Song,Zhiqiang Guo,Kunpeng Li,Kewei Zhang. 2018

[8]Measuring gene flow in the cultivation of transgenic cotton (Gossypium hirsutum L.). Bao-Hong Zhang,Xiao-Ping Pan,Teng-Long Guo,Qing-Lian Wang,Todd A. Anderson. 2005

[9]Pollen from Cry1Ac/CpTI-transgenic cotton does not affect the pollinating beetle Haptoncus luteolus. Lizhen Chen,Jinjie Cui,Weihua Ma,Changying Niu,Chaoliang Lei. 2011

[10]Effects of kanamycin on tissue culture and somatic embryogenesis in cotton. Bao-Hong Zhang,Fang Liu,Zhi-Hong Liu,Hong-Mei Wang,Chang-Bing Yao.

[11]Overexpression of ScALDH21 gene in cotton improves drought tolerance and growth in greenhouse and field conditions. Yang, Honglan,Zhang, Daoyuan,Li, Xiaoshuang,Li, Haiyan,Wang, Jiancheng,Yang, Honglan,Lan, Haiyan,Zhang, Daoyuan,Wood, Andrew J..

[12]Cross-resistance studies of Cry1Ac-resistant strains of Helicoverpa armigera (Lepidoptera : Noctuidae) to Cry2Ab. Luo, Shudong,Wu, Kongming,Tian, Yan,Liang, Gemei,Feng, Xue,Zhang, Jie,Guo, Yuyuan.

[13]Transgenic cotton coexpressing Vip3A and Cry1Ac has a broad insecticidal spectrum against lepidopteran pests. Chen, Wen-bo,Liu, Chen-xi,Xiao, Yu-tao,Wu, Kong-ming,Lu, Guo-qing,Cheng, Hong-mei,Xu, Chao,Shen, Zhi-cheng.

[14]ABP9, a maize bZIP transcription factor, enhances tolerance to salt and drought in transgenic cotton. Wang, Chunling,Lu, Guoqing,Hao, Yuqiong,Guo, Huiming,Zhao, Jun,Cheng, Hongmei,Wang, Chunling,Guo, Yan.

[15]Transgenic cotton co-expressing chimeric Vip3AcAa and Cry1Ac confers effective protection against Cry1Ac-resistant cotton bollworm. Chen, Wen-bo,Liu, Chen-xi,Xiao, Yu-tao,Wu, Kong-ming,Lu, Guo-qing,Cheng, Hong-mei,Xu, Chao,Shen, Zhi-cheng,Soberon, Mario,Bravo, Alejandra.

[16]Effects of root exudates of bivalent transgenic cotton (Bt plus CpTI) plants on antioxidant proteins and growth of conventional cotton (Xinluhan 33). Wu, Hong-sheng,Shi, Xue,Li, Ji,Ren, Qian-qi,Wang, Ming-yan,Shang, Xiao-xia,Zhang, Zhen-hua,Liu, Yan,Wu, Tian-yu,Xiao, Song-hua.

[17]Degradation Characteristics of Transgenic Cotton Residues in Soil by Fourier Transform Infrared Spectroscopy. Chen Zhen-hua,Zhang Yu-lan,JIA Yin-hua,CHEN Li-jun,LIU Xing-bin,WU Zhi-jie. 2011

[18]Inheritance and segregation of exogenous genes in transgenic cotton. BAO-HONG ZHANG,TENG-LONG GUO,QING-LIAN WANG. 2000

[19]Impacts of transgenic Bt cotton on a non-target pest, Apolygus lucorum (Meyer-Dur) (Hemiptera: Miridae), in northern China. Li, Guoping,Feng, Hongqiang,Liu, Bing,Chen, Peiyu,Qiu, Feng,McNeil, Jeremy N.. 2011

[20]Field Evaluation of Selective Systemic Formulations against Sucking Insect Pest Complex and their Natural Enemies on a Transgenic Bt Cotton. Majeed, Muhammad Zeeshan,Nazir, Talha,Gogi, Muhammad Dildar,ul Hassan, Waheed,Hanan, Abdul,Arif, Muhammad Jalal. 2017

作者其他论文更多>>

Ancient bayberry increased stress resistance by enriching tissue-specific microbiome and metabolites

作者：Li, Gang;Ren, Haiying;Qi, Xingjiang;Han, Hao;Ding, Xiangyang;Sun, Li;Wang, Zhenshuo;Wang, Qi;Hafeez, Rahila;Li, Bin

关键词：
Genomic analyses reveal the stepwise domestication and genetic mechanism of curd biogenesis in cauliflower

作者：Chen, Rui;Yao, Xingwei;Zhang, Xiaoli;Yang, Yingxia;Lyu, Mingjie;Wang, Qian;Zhang, Guan;Wang, Mengmeng;Li, Yanhao;Duan, Lijin;Xie, Tianyu;Li, Haichao;Yang, Yuyao;Zhang, Hong;Guo, Yutong;Jia, Guiying;Sun, Deling;Chen, Ke;Su, Xiao;Lin, Tao;Chen, Ke;Li, Haichao;Yang, Yuyao;Zhang, Hong;Guo, Yutong;Jia, Guiying;Ge, Xianhong;Sarris, Panagiotis F.;Sarris, Panagiotis F.

关键词：
Exploring the Regulatory Effect of Tegillarca granosa Polysaccharide on High-Fat Diet-Induced Non-Alcoholic Fatty Liver Disease in Mice Based on Intestinal Flora

作者：Yang, Xingwen;Yao, Shiwei;Jiang, Qihong;Chen, Hui;Liu, Shulai;Xiang, Xingwei;Yang, Xingwen;Yao, Shiwei;Jiang, Qihong;Chen, Hui;Liu, Shulai;Xiang, Xingwei;Yang, Xingwen;Yao, Shiwei;Jiang, Qihong;Chen, Hui;Liu, Shulai;Xiang, Xingwei;Shen, Guoxin;Chen, Lin

关键词：AMPK signaling; high-fat diet; intestinal flora; lipid metabolism; non-alcoholic fatty liver; Tegillarca granosa polysaccharide
NGS-Based Multi-Allelic InDel Genotyping and Fingerprinting Facilitate Genetic Discrimination in Grapevine (Vitis vinifera L.)

作者：Jia, Guiying;Zhang, Na;Yang, Yingxia;Zhang, Hong;Guo, Yutong;Wang, Qian;Zhang, He;Chen, Rui;Huang, Jianquan;Lyu, Mingjie;Jia, Guiying;Zhang, Hong;Guo, Yutong;Yang, Yingxia;Jin, Qingdong;Jiang, Jianfu;Wu, Jianjin

关键词：grapevine; multi-allelic InDels; next-generation sequencing; fingerprinting; population structure
Toxicologic effect and transcriptome analysis for sub-chronic exposure to carbendazim, prochloraz, and their combination on the liver of mice

作者：Zhang, Shuwen;Sun, Li;Yu, Zheping;Liang, Senmiao;Ren, Haiying;Zheng, Xiliang;Qi, Xingjiang;Zhang, Shuwen;Luo, Ting;Wang, Dou;Zhao, Yao;Luo, Ting;Wang, Dou;Zhao, Yao;Weng, You;Jin, Yuanxiang;Qi, Xingjiang

关键词：Transcriptome; Carbendazim; Prochloraz; Hepatotoxicity; Mice
The MRE11-ATM-SOG1 DNA damage signaling pathway confers rice immunity to Xanthomonas oryzae

作者：Xu, Zhan;Xu, Zhan;Shi, Chuanlin;Zhang, Hong;Chen, Wu;Qian, Hongge;Zhang, Zhipeng;Qian, Qian;Shang, Lianguang;Qu, Mingnan;Qiu, Jiehua;Qian, Qian;Qian, Qian;Shang, Lianguang

关键词：Oryza sativa; Xanthomonas oryzae pv. oryzae; DSBs; phytoalexins; MRE11-ATM-SOG1; TOP6; complex,
A pan-TE map highlights transposable elements underlying domestication and agronomic traits in Asian rice

作者：Li, Xiaoxia;Dai, Xiaofan;He, Huiying;Lv, Yang;Yang, Longbo;He, Wenchuang;Liu, Congcong;Wei, Hua;Liu, Xiangpei;Yuan, Qiaoling;Wang, Xianmeng;Wang, Tianyi;Zhang, Bintao;Zhang, Hong;Chen, Wu;Leng, Yue;Yu, Xiaoman;Qian, Hongge;Zhang, Bin;Guo, Mingliang;Zhang, Zhipeng;Shi, Chuanlin;Zhang, Qianqian;Cui, Yan;Xu, Qiang;Cao, Xinglan;Chen, Dandan;Zhou, Yongfeng;Qian, Qian;Shang, Lianguang;Li, Xiaoxia;Dai, Xiaofan;Lv, Yang;Liu, Congcong;Zhang, Bin;Qian, Qian;Shang, Lianguang;Yu, Xiaoman;Qian, Qian;Zhou, Yongfeng

关键词：transposable element; super pan-genome; pan-TE; rice

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

作者其他论文更多>>

Ancient bayberry increased stress resistance by enriching tissue-specific microbiome and metabolites

Genomic analyses reveal the stepwise domestication and genetic mechanism of curd biogenesis in cauliflower

Exploring the Regulatory Effect of Tegillarca granosa Polysaccharide on High-Fat Diet-Induced Non-Alcoholic Fatty Liver Disease in Mice Based on Intestinal Flora

NGS-Based Multi-Allelic InDel Genotyping and Fingerprinting Facilitate Genetic Discrimination in Grapevine (Vitis vinifera L.)

Toxicologic effect and transcriptome analysis for sub-chronic exposure to carbendazim, prochloraz, and their combination on the liver of mice

The MRE11-ATM-SOG1 DNA damage signaling pathway confers rice immunity to Xanthomonas oryzae

A pan-TE map highlights transposable elements underlying domestication and agronomic traits in Asian rice

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

作者其他论文 更多>>

Ancient bayberry increased stress resistance by enriching tissue-specific microbiome and metabolites

Genomic analyses reveal the stepwise domestication and genetic mechanism of curd biogenesis in cauliflower

Exploring the Regulatory Effect of Tegillarca granosa Polysaccharide on High-Fat Diet-Induced Non-Alcoholic Fatty Liver Disease in Mice Based on Intestinal Flora

NGS-Based Multi-Allelic InDel Genotyping and Fingerprinting Facilitate Genetic Discrimination in Grapevine (Vitis vinifera L.)

Toxicologic effect and transcriptome analysis for sub-chronic exposure to carbendazim, prochloraz, and their combination on the liver of mice

The MRE11-ATM-SOG1 DNA damage signaling pathway confers rice immunity to Xanthomonas oryzae

A pan-TE map highlights transposable elements underlying domestication and agronomic traits in Asian rice

作者其他论文更多>>