甘薯BTB-TAZ蛋白基因增强转基因植物的耐旱性。（注：原文中“Enhances Drought Tolerance in Transgenic.”后面似乎缺失了具体内容，这里是按照现有内容尽量准确翻译）

The Sweetpotato BTB-TAZ Protein Gene, , Enhances Drought Tolerance in Transgenic .

作者信息

Zhou Yuanyuan, Zhai Hong, He Shaozhen, Zhu Hong, Gao Shaopei, Xing Shihan, Wei Zihao, Zhao Ning, Liu Qingchang

机构信息

Key Laboratory of Sweetpotato Biology and Biotechnology, Ministry of Agriculture and Rural Affairs/Beijing Key Laboratory of Crop Genetic Improvement/Laboratory of Crop Heterosis and Utilization, Ministry of Education, College of Agronomy & Biotechnology, China Agricultural University, Beijing, China.

College of Agronomy, Qingdao Agricultural University, Qingdao, China.

出版信息

Front Plant Sci. 2020 Jun 23;11:877. doi: 10.3389/fpls.2020.00877. eCollection 2020.

DOI:10.3389/fpls.2020.00877

PMID:32655604

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7324939/

Abstract

BTB-TAZ (BT)-domain proteins regulate plant development and pathogen defense. However, their roles in resistance to abiotic stresses remain largely unknown. In this study, we found that the sweetpotato BT protein-encoding gene significantly enhanced the drought tolerance of . expression was induced by PEG6000, HO and brassinosteroids (BRs). The -overexpressing seeds presented higher germination rates and longer roots in comparison with those of WT under 200 mM mannitol stress. Under drought stress the transgenic plants exhibited significantly increased survival rates and BR and proline contents and decreased water loss rates, MDA content and reactive oxygen species (ROS) levels. overexpression upregulated the BR signaling pathway and proline biosynthesis genes and activated the ROS-scavenging system under drought stress. Yeast two-hybrid (Y2H) and bimolecular fluorescence complementation (BiFC) assays revealed that the IbBT4 protein interacts with BR-ENHANCED EXPRESSION 2 (BEE2). Taken together, these results indicate that the gene provides drought tolerance by enhancing both the BR signaling pathway and proline biosynthesis and further activating the ROS-scavenging system in transgenic .

摘要

BTB-TAZ（BT）结构域蛋白调控植物发育和病原体防御。然而，它们在抗非生物胁迫中的作用仍 largely 未知。在本研究中，我们发现甘薯BT蛋白编码基因显著增强了[具体植物名称]的耐旱性。[具体植物名称]的表达受PEG6000、HO和油菜素内酯（BRs）诱导。与野生型相比，在200 mM甘露醇胁迫下，过表达[具体植物名称]的种子具有更高的发芽率和更长的根。在干旱胁迫下，转基因[具体植物名称]植株的存活率、BR和脯氨酸含量显著增加，水分流失率、丙二醛含量和活性氧（ROS）水平降低。[具体植物名称]的过表达上调了BR信号通路和脯氨酸生物合成基因，并在干旱胁迫下激活了ROS清除系统。酵母双杂交（Y2H）和双分子荧光互补（BiFC）分析表明，IbBT4蛋白与BR增强表达2（BEE2）相互作用。综上所述，这些结果表明，[具体植物名称]基因通过增强BR信号通路和脯氨酸生物合成，并进一步激活转基因[具体植物名称]中的ROS清除系统来提供耐旱性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4faf/7324939/9581defa2de2/fpls-11-00877-g001.jpg

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甘薯BTB-TAZ蛋白基因增强转基因植物的耐旱性 。 （注：原文中“Enhances Drought Tolerance in Transgenic.”后面似乎缺失了具体内容，这里是按照现有内容尽量准确翻译）

The Sweetpotato BTB-TAZ Protein Gene, , Enhances Drought Tolerance in Transgenic .

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甘薯BTB-TAZ蛋白基因增强转基因植物的耐旱性。（注：原文中“Enhances Drought Tolerance in Transgenic.”后面似乎缺失了具体内容，这里是按照现有内容尽量准确翻译）