Over-expressing GsGST14 from Glycine soja enhances alkaline tolerance of transgenic Medicago sativa

Z. -Y. Wang; F. -B. Song; H. Cai; Y. -M. Zhu; X. Bai; W. Ji; Y. Li; Y. Hua

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Over-expressing GsGST14 from Glycine soja enhances alkaline tolerance of transgenic Medicago sativa

机译：大豆大豆中过表达的GsGST14增强了转基因苜蓿的耐碱性

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Glutathione-S-transferases (GSTs) are ubiquitous enzymes that play a key role in stress tolerance and cellular detoxification. The GST gene GsGST14 selected from the gene expression profiles of Glycine soja under alkaline stress was transformed into alfalfa (Medicago sativa L.). Transgenic alfalfa plants showed 1.73–1.99 times higher GST activity than wild-type plants. Transgenic alfalfa grew well in the presence of 100 mM NaHCO₃, while wild-type plants exhibited chlorosis and stunted growth, even death. There were marked changes in malondialdehyde content and relative membrane permeability caused by alkaline stress in non-transgenic lines compared to transgenic lines. The results indicate that the gene GsGST14 could enhance alkaline resistance in transgenic alfalfa.

机译：谷胱甘肽-S-转移酶（GSTs）是普遍存在的酶，在应激耐受性和细胞排毒中起关键作用。从碱性胁迫下大豆大豆基因表达谱中选择的GST基因GsGST14被转化为苜蓿（苜蓿（Medicago sativa L.））。转基因苜蓿植物的GST活性是野生型植物的1.73-1.99倍。转基因苜蓿在100 mM NaHCO _{3 存在下生长良好，而野生型植物则表现出萎黄病和生长迟缓，甚至死亡。与转基因品系相比，非转基因品系中的碱性胁迫导致丙二醛含量和相对膜通透性发生了显着变化。结果表明，基因GsGST14可以增强转基因苜蓿的抗碱性。}

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《Biologia Plantarum》 |2012年第3期|p.516-520|共5页
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Z. -Y. Wang; F. -B. Song; H. Cai; Y. -M. Zhu; X. Bai; W. Ji; Y. Li; Y. Hua;
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1. Overexpression of Glycine soja WRKY20 enhances both drought and salt tolerance in transgenic alfalfa (Medicago sativa L.) [J] . Tang Lili, Cai Hua, Zhai Hong, Plant Cell, Tissue and Organ Culture: An International Journal on in Vitro Culture of Higher Plants . 2014,第1期

机译：大豆大豆WRKY20的过表达增强了转基因苜蓿的抗旱性和耐盐性
2. Overexpression of GsCBRLK from Glycine soja enhances tolerance to salt stress in transgenic alfalfa (Medicago sativa) [J] . Bai Xi, Liu Jing, Tang Lili, Functional Plant Biology . 2013,第10期

机译：大豆大豆中GsCBRLK的过表达增强了转基因苜蓿（Medicago sativa）对盐胁迫的耐受性
3. A Glycine soja group S2 bZIP transcription factor GsbZIP67 conferred bicarbonate alkaline tolerance in Medicago sativa [J] . Shengyang Wu, Pinhui Zhu, Bowei Jia, BMC Plant Biology . 2018,第1期

机译：大豆大豆S2 bZIP转录因子GsbZIP67在紫花苜蓿中赋予了碳酸氢盐碱性
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. Growth, morphology and flooding tolerance of transgenic alfalfa (Medicago sativa L.) expressing varying levels of a class 1 barley (Hordeum vulgare) hemoglobin. [D] . Baron, Kevin. 2005

机译：表达不同水平的1类大麦（Hordeum vulgare）血红蛋白的转基因苜蓿（Medicago sativa L.）的生长，形态和水淹耐受性。
6. Correction to: A Glycine soja group S2 bZIP transcription factor GsbZIP67 conferred bicarbonate alkaline tolerance in Medicago sativa [O] . Shengyang Wu, Pinghui Zhu, Bowei Jia, 2019

机译：更正为：大豆大豆S2 bZIP转录因子GsbZIP67在紫花苜蓿中赋予了碳酸氢盐碱性
7. A Glycine soja group S2 bZIP transcription factor GsbZIP67 conferred bicarbonate alkaline tolerance in Medicago sativa [O] . Shengyang Wu, Pinghui Zhu, Bowei Jia, 2018

机译：甘氨酸SOJA组S2 BZIP转录因子GSBZIP67在Medicago Sativa赋予碳酸氢盐碱性耐受性

Over-expressing GsGST14 from Glycine soja enhances alkaline tolerance of transgenic Medicago sativa

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