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Identification of Chimeric Repressors that Confer Salt and Osmotic Stress Tolerance in Arabidopsis

机译：拟南芥中赋予盐和渗透胁迫耐受性的嵌合阻遏物的鉴定

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We produced transgenic Arabidopsis plants that express chimeric genes for transcription factors converted to dominant repressors, using Chimeric REpressor gene-Silencing Technology (CRES-T), and evaluated the salt tolerance of each line. The seeds of the CRES-T lines for ADA2b, Msantd, DDF1, DREB26, AtGeBP, and ATHB23 exhibited higher germination rates than Wild type (WT) and developed rosette plants under up to 200 mM NaCl or 400 mM mannitol. WT plants did not grow under these conditions. In these CRES-T lines, the expression patterns of stress-related genes such as RD29A, RD22, DREB1A, and P5CS differed from those in WT plants, suggesting the involvement of the six transcription factors identified here in the stress response pathways regulated by the products of these stress-related genes. Our results demonstrate additional proof that CRES-T is a superior tool for revealing the function of transcription factors.

机译：我们使用嵌合阻遏物基因沉默技术（CRES-T）生产了表达将转录因子转化为优势阻遏物的嵌合基因的转基因拟南芥植物，并评估了每个品系的耐盐性。 ADA2b，Msantd，DDF1，DREB26，AtGeBP和ATHB23的CRES-T系种子的发芽率高于野生型（WT），并且在高达200 mM NaCl或400 mM甘露醇的条件下发育出玫瑰花型植物。 WT植物在这些条件下不生长。在这些CRES-T品系中，与胁迫相关的基因（如RD29A，RD22，DREB1A和P5CS）的表达模式与野生型植物不同，这表明此处鉴定的6个转录因子参与了由胁迫调控的胁迫应答途径。这些与压力有关的基因的产物。我们的结果证明了CRES-T是揭示转录因子功能的绝佳工具的其他证据。

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期刊名称 Plants
作者
Daisuke Kazama; Masateru Itakura; Takamitsu Kurusu; Nobutaka Mitsuda; Masaru Ohme-Takagi; Yuichi Tada;
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年(卷),期 2013(2),4
年度 2013
页码 769–785
总页数 17
原文格式 PDF
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关键词
CRES-T osmotic stress repressor salt stress stress tolerance transcription factors;

机译：CRES-T;渗透压;阻遏物;盐胁迫;胁迫耐受性;转录因子;

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专利

1. Identification of Chimeric Repressors that Confer Salt and Osmotic Stress Tolerance in Arabidopsis [J] . Daisuke Kazama, Masaru Ohme-Takagi, Masateru Itakura, Plants . 2013,第4期

机译：拟南芥中赋予盐和渗透胁迫耐受性的嵌合阻遏物的鉴定
2. Involvement of elevated proline accumulation in enhanced osmotic stress tolerance in Arabidopsis conferred by chimeric repressor gene silencing technology. [J] . Kazama D., Kurusu T., Mitsuda N., Plant signaling & behavior . 2014,第Mara期

机译：嵌合阻抑基因沉默技术赋予脯氨酸积累增加参与拟南芥渗透压耐受性的作用。
3. Generation of chimeric repressors that confer salt tolerance in Arabidopsis and rice [J] . Mito Tomomi, Seki Motoaki, Shinozaki Kazuo, Plant Biotechnology Journal . 2011,第7期

机译：在拟南芥和米饭中赋予耐盐性的嵌合压缩机
4. Over-expression of a NAD-Malic Enzyme Gene from Rice in Arabidopsis thaliana Confers Tolerances to Several Abiotic Stresses [C] . Hao Zhou, Shenkui Liu, Chuanping Yang International conference on biotechnology, chemical and materials engineering . 2012

机译：拟南芥中水稻NAD-苹果酶基因的过表达赋予对几种非生物胁迫的耐受性
5. Molecular Mechanisms of Salt and Osmotic Stress Tolerance in Frankia Strains Isolated from Casuarina trees. [D] . Oshone, Rediet Tamire. 2017

机译：木麻黄属植物Frankia菌株耐盐和渗透胁迫的分子机制。
6. Involvement of elevated proline accumulation in enhanced osmotic stress tolerance in Arabidopsis conferred by chimeric repressor gene silencing technology [O] . Daisuke Kazama, Takamitsu Kurusu, Nobutaka Mitsuda, 2014

机译：嵌合阻遏基因沉默技术赋予脯氨酸积累增加参与拟南芥渗透压耐受性的作用
7. Identification of Chimeric Repressors that Confer Salt and Osmotic Stress Tolerance in Arabidopsis [O] . Daisuke Kazama, Masateru Itakura, Takamitsu Kurusu, 2013

机译：鉴定拟南芥中盐和渗透胁迫耐受性的嵌合抑制因子

Identification of Chimeric Repressors that Confer Salt and Osmotic Stress Tolerance in Arabidopsis

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