Arabidopsis EDT1/HDG11 improves drought and salt tolerance in cotton and poplar and increases cotton yield in the field

文献类型: 外文期刊

第一作者: Yu, Lin-Hui

作者: 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

作者机构:

关键词: AtHDG11;drought stress;salt stress;transgenic cotton;transgenic poplar;cotton yield

期刊名称:PLANT BIOTECHNOLOGY JOURNAL ( 影响因子:9.803; 五年影响因子:9.555 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Drought and salinity are two major environmental factors limiting crop production worldwide. Improvement of drought and salt tolerance of crops with transgenic approach is an effective strategy to meet the demand of the ever-growing world population. Arabidopsis ENHANCED DROUGHT TOLERANCE1/HOMEODOMAIN GLABROUS11 (AtEDT1/HDG11), a homeodomain-START transcription factor, has been demonstrated to significantly improve drought tolerance in Arabidopsis, tobacco, tall fescue and rice. Here we report that AtHDG11 also confers drought and salt tolerance in upland cotton (Gossypium hirsutum) and woody plant poplar (Populus tomentosa Carr.). Our results showed that both the transgenic cotton and poplar exhibited significantly enhanced tolerance to drought and salt stress with well-developed root system. In the leaves of the transgenic cotton plants, proline content, soluble sugar content and activities of reactive oxygen species-scavenging enzymes were significantly increased after drought and salt stress compared with wild type. Leaf stomatal density was significantly reduced, whereas stomatal and leaf epidermal cell size were significantly increased in both the transgenic cotton and poplar plants. More importantly, the transgenic cotton showed significantly improved drought tolerance and better agronomic performance with higher cotton yield in the field both under normal and drought conditions. These results demonstrate that AtHDG11 is not only a promising candidate for crops improvement but also for woody plants.

分类号: Q7

  • 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]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..

[3]Changes of antioxidative enzymes and cell membrane osmosis in tomato colonized by arbuscular mycorrhizae under NaCl stress. ZhongQun, He,ChaoXing, He,ZhiBin, Zhang,ZhiRong, Zou,HuaiSong, Wang.

[4]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.

[5]An ethylene response factor (ERF5) promoting adaptation to drought and salt tolerance in tomato. Pan, Yu,Hu, Zongli,Chen, Guoping,Pan, Yu,Seymour, Graham B.,Lu, Chungui,Chen, Xuqing. 2012

[6]Arabidopsis C3HC4-RING finger E3 ubiquitin ligase AtAIRP4 positively regulates stress-responsive abscisic acid signaling. Liu, Qiaohong,Liu, Zhibin,Yang, Hao,Wang, Jianmei,Li, Xufeng,Yang, Yi,Yang, Liang. 2016

[7]Isolation and characterization of induced genes under drought stress at the flowering stage in maize (Zea mays). Li, Hui-Yong,Wang, Tian-Yu,Shi, Yun-Su,Fu, Jun-Jie,Song, Yan-Chun,Wang, Guo-Ying,Li, Yu.

[8]Comparative proteomic analysis of alfalfa revealed new salt and drought stress-related factors involved in seed germination. Ma, Qiaoli,Kang, Junmei,Zhang, Kun,Wang, Tenghua,Sun, Yan,Kang, Junmei,Long, Ruicai,Zhang, Tiejun,Yang, Qingchuan,Ma, Qiaoli,Xiong, Junbo.

[9]Inducible and constitutive expression of an elicitor gene Hrip1 from Alternaria tenuissima enhances stress tolerance in Arabidopsis. Qiu, De-Wen,Zeng, Hong-Mei,Guo, Li-Hua,Yang, Xiu-Fen,Liu, Zheng.

[10]A banana aquaporin gene, MaPIP1;1, is involved in tolerance to drought and salt stresses. Xu, Yi,Jin, Zhiqiang,Hu, Wei,Liu, Juhua,Zhang, Jianbin,Jia, Caihong,Miao, Hongxia,Xu, Biyu,Jin, Zhiqiang. 2014

[11]Expression of a SK2-type dehydrin gene from Populus euphratica in a Populus tremula x Populus alba hybrid increased drought tolerance. Ma, Yan,Wang, Yanzhen,Wang, Hongzhi,Li, Ruifen,Wei, Jianhua. 2011

[12]EFFECTS OF TRANSGENIC POPLAR LEAVES WITH BINARY INSECT-RESISTANCE GENES USED AS FEED FOR RABBITS. Yang, L. Y.,Sun, Y.,Hao, Y. S.,Wang, Y. X.,Sun, Y.,Hao, Y. S.,Wang, Y. X.. 2013

[13]Effects of dietary transgenic poplar leaf pellets on performance and tissues in rabbits. Yang, Liyan,Sun, Yi,Wang, Yixue,Hao, Yaoshan,Sun, Yi,Wang, Yixue,Hao, Yaoshan.

[14]A comparative transcriptome analysis of two sets of backcross inbred lines differing in lint-yield derived from a Gossypium hirsutum x Gossypium barbadense population. Wu Man,Liyuan Zhang,Xihua Li,Xiaobing Xie,Wenfeng Pei,Jiwen Yu,Shuxun Yu,Jinfa Zhang. 2016

[15]Rational Water and Nitrogen Management Improves Root Growth, Increases Yield and Maintains Water Use Efficiency of Cotton under Mulch Drip Irrigation. Zhang, Hongzhi,Khan, Aziz,Luo, Honghai,Zhang, Hongzhi,Tan, Daniel K. Y.. 2017

[16]Lint Yield Compensatory Response to Main Stem Node Removal in Upland Cotton (Gossypium hirsutum). Yang, S.,Wang, G.,Kaggwa, R. J.,Andrade-Sanchez, P.,Zarnstorff, M..

[17]Goosegrass (Eleusine indica) density effects on cotton (Gossypium hirsutum). Ma Xiao-yan,WU Han-wen,JIANG Wei-li,MA Ya-jie,MA Yan. 2015

[18]Effects of partial replacement of potassium by sodium on cotton seedling development and yield. Zhang, Yancai,Li, Qiaoyun,Zhou, Xiaofen,Zhai, Caixia,Li, Ruonan. 2006

[19]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

[20]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

作者其他论文 更多>>

微信小程序