Improved Drought and Salt Tolerance in Transgenic Arabidopsis Overexpressing a NAC Transcriptional Factor from Arachis hypogaea

Xu LIU; Lan Hong; Xiao-Yun LI

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Improved Drought and Salt Tolerance in Transgenic Arabidopsis Overexpressing a NAC Transcriptional Factor from Arachis hypogaea

机译：转基因拟南芥过表达NAAC转录因子的转基因拟南芥的耐旱和耐盐性提高

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The NAC (NAM, ATAF, and CUC) proteins share a highly conserved NAC domain and constitute a large family of plant-specific transcriptional factors. We have isolated a drought-induced NAC gene from Arachis hypogaea, named AhNAC2 (Arachis hypogaea NAC2) but its specific role remains unknown. In this study, we found that transgenic Arabidopsis overexpressing AhNAC2 lines were hypersensitive to ABA in root growth, seed germination, and stomatal closure compared to wild type Arabidopsis. The transgenic lines exhibited enhanced tolerance to drought and salinity stress, and the expression levels of 12 stress-related genes in the AhNAC2 transformed plants were higher than in wild type Arabidopsis. These results indicate that AhNAC2 is a major player in the NAC gene family involved in ABA signaling. Its role as a candidate gene for engineering drought and salt tolerance in cultivated plants is discussed.

机译：NAC（NAM，ATAF和CUC）蛋白共享一个高度保守的NAC结构域，并构成了一大类植物特异性转录因子。我们已经从干旱花生中分离出一种干旱诱导的NAC基因，命名为AhNAC2（花生花生NAC2），但其具体作用仍然未知。在这项研究中，我们发现与野生型拟南芥相比，过表达AhNAC2的转基因拟南芥对ABA的根生长，种子发芽和气孔关闭均敏感。转基因株系表现出增强的对干旱和盐胁迫的耐受性，并且在AhNAC2转化的植物中12个胁迫相关基因的表达水平高于野生型拟南芥。这些结果表明，AhNAC2是涉及ABA信号传导的NAC基因家族的主要参与者。讨论了其作为在栽培植物中工程干旱和耐盐性的候选基因的作用。

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《Bioscience, Biotechnology, and Biochemistry》 |2011年第3期|共8页
作者
Xu LIU; Lan Hong; Xiao-Yun LI;
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正文语种 eng
中图分类生物科学;
关键词
transcription factors; drought resistance; salt tolerance; transgenic Arabidopsis; Arachis hypogaea;

机译：转录因子;抗旱性;耐盐性;转基因拟南芥;花生;

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1. Improved Drought and Salt Tolerance in Transgenic Arabidopsis Overexpressing a NAC Transcriptional Factor from Arachis hypogaea [J] . Xu LIU, Lan Hong, Xiao-Yun LI Bioscience, Biotechnology, and Biochemistry . 2011,第3期

机译：转基因拟南芥过表达NAAC转录因子的转基因拟南芥的耐旱和耐盐性提高
2. TaNAC29, a NAC transcription factor from wheat, enhances salt and drought tolerance in transgenic Arabidopsis [J] . Quanjun Huang, Yan Wang, Bin Li, BMC Plant Biology . 2015,第1期

机译：TaNAC29，一种来自小麦的NAC转录因子，可增强转基因拟南芥中的盐分和干旱耐受性
3. A Novel WRKY Transcription Factor, MuWRKY3 ( Macrotyloma uniflorum Lam. Verdc.) Enhances Drought Stress Tolerance in Transgenic Groundnut ( Arachis hypogaea L.) Plants [J] . Kurnool Kiranmai, Gunupuru Lokanadha Rao, Merum Pandurangaiah, Frontiers in Plant Science . 2018,第10期

机译：一种新型的WRKY转录因子 MuWRKY3 （ Macrotyloma uniflorum Lam。Verdc。）增强了转基因花生植物的抗旱性。
4. Overexpression of the Arabidopsis AVP1 gene enhanced the salt‐and drought‐tolerance in transgenic alfalfa (Medicago sativa L .) [C] . Ai-Ke Bao, Suo-Min Wang, Guo-Qiang Wu, 2008世界草地与草原大会论文集 . 2008

机译：拟南芥AVP1基因的过表达增强了转基因苜蓿（Medicago sativa L。）的耐盐和耐旱性
5. Introgression Pathway for Drought Tolerance in Peanut ( Arachis hypogaea L.) [D] . Cason, John Michael 2018

机译：花生耐旱性的渗入途径（花生）
6. A Novel WRKY Transcription Factor MuWRKY3 (Macrotyloma uniflorum Lam. Verdc.) Enhances Drought Stress Tolerance in Transgenic Groundnut (Arachis hypogaea L.) Plants [O] . Kurnool Kiranmai, Gunupuru Lokanadha Rao, Merum Pandurangaiah, -1

机译：一种新型的WRKY转录因子MuWRKY3（Macrotyloma uniflorum Lam。Verdc。）增强了转基因花生（Arachis hypogaea L.）植物的干旱胁迫耐受性。
7. Potato NAC Transcription Factor StNAC053 Enhances Salt and Drought Tolerance in Transgenic Arabidopsis [O] . Qi Wang, Cun Guo, Zhiyuan Li, 2021

机译：马铃薯NAC转录因子STNAC053在转基因拟南芥中增强盐和耐旱性

Improved Drought and Salt Tolerance in Transgenic Arabidopsis Overexpressing a NAC Transcriptional Factor from Arachis hypogaea

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