An Na+/H+ antiporter gene from wheat plays an important role in stress tolerance

Jia Ning Yu; Jian Huang; Jin Song Zhang; Shou Yi Chen

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An Na+/H+ antiporter gene from wheat plays an important role in stress tolerance

机译：小麦的Na + / H + 反转运蛋白基因在逆境耐性中起重要作用

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A vacuole Na+/H+ antiporter gene TaNHX2 was obtained by screening the wheat cDNA library and by the 5′-RACE method. The expression of TaNHX2 was induced in roots and leaves by treatment with NaCl, polyethylene glycol (PEG), cold and abscisic acid (ABA). When expressed in a yeast mutant (Δnhx1), TaNHX2 suppressed the salt sensitivity of the mutant, which was deficient in vacuolar Na+/H+ antiporter, and caused partial recovery of growth of Δnhx1 in NaCl and LiC1 media. The survival rate of yeast cells was improved by overexpressing the TaNHX2 gene under NaCl, KCl, sorbitol and freezing stresses when compared with the control. The results imply that TaNHX2 might play an important role in salt and osmotic stress tolerance in plant cells.

机译：通过筛选小麦cDNA文库并通过5'-RACE法获得了液泡Na + / H + 转运蛋白基因TaNHX2。通过用NaCl，聚乙二醇（PEG），冷和脱落酸（ABA）处理，在根和叶中诱导TaNHX2的表达。当在酵母突变体（Δnhx1）中表达时，TaNHX2抑制了该突变体的盐敏感性，该盐敏感性缺乏液泡型Na + / H + 反向转运蛋白，并导致Δnhx1在NaCl和LiC1培养基中的生长部分恢复。。与对照组相比，在NaCl，KCl，山梨糖醇和冷冻胁迫下过表达TaNHX2基因可以提高酵母细胞的存活率。结果暗示TaNHX2可能在植物细胞的盐和渗透胁迫耐受性中起重要作用。

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来源
《Journal of Biosciences》 |2007年第s2期|1153-1161|共9页
作者
Jia Ning Yu; Jian Huang; Jin Song Zhang; Shou Yi Chen;
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作者单位

National Key Lab of Plant Genomics Institute of Genetics and Developmental Biology Chinese Academy of Sciences Beijing 100101 China;

National Key Lab of Plant Genomics Institute of Genetics and Developmental Biology Chinese Academy of Sciences Beijing 100101 China;

National Key Lab of Plant Genomics Institute of Genetics and Developmental Biology Chinese Academy of Sciences Beijing 100101 China;

National Key Lab of Plant Genomics Institute of Genetics and Developmental Biology Chinese Academy of Sciences Beijing 100101 China;

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正文语种 eng
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关键词
Na+/H+ antiporter; stress tolerance; transcription accumulation; yeast cells; wheat;

机译：Na + / H +反向转运蛋白;胁迫耐受性;转录积累;酵母细胞;小麦;

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专利

1. An Na+/H+ antiporter gene from wheat plays an important role in stress tolerance [J] . Jia Ning Yu, Jian Huang, Jin Song Zhang1, Journal of biosciences . 2007,第6期

机译：小麦的Na + / H +反转运蛋白基因在逆境耐性中起重要作用
2. Overexpression of a wheat Na+/H+ antiporter gene (TaNHX2) enhances tolerance to salt stress in transgenic tomato plants (Solanum lycopersicum L.) [J] . Yarra Rajesh, He Si-Jie, Abbagani Sadanandam, Plant Cell, Tissue and Organ Culture: An International Journal on in Vitro Culture of Higher Plants . 2012,第1期

机译：小麦Na + / H +反转运蛋白基因（TaNHX2）的过表达增强了转基因番茄植物（Solanum lycopersicum L.）对盐胁迫的耐受性
3. Enhanced salt tolerance of transgenic wheat (Tritivum aestivum L.) expressing a vacuolar Na+/H+ antiporter gene with improved grain yields in saline soils in the field and a reduced level of leaf Na+ [J] . Xue ZY, Zhi DY, Xue GP, Plant Science: An International Journal of Experimental Plant Biology . 2004,第4期

机译：表达液泡型Na + / H +反转运蛋白基因的转基因小麦（Tritivum aestivum L.）的耐盐性增强，田间盐渍土壤的谷物产量提高，叶片Na +含量降低
4. The ZxNHX Gene Encoding Vacuolar Na+/H + Antiporter from the Xerophyte Zygophyllum xanthoxylum Plays Important Roles in Response to Drought [C] . S.-M.Wang, G.-Q.Wu, A.-K.Bao Proceedings of 2010' International Symposium on forage, turf-grass and biofuel germplasm research. . 2010

机译：旱生植物Zygophyllum xanthoxylum编码液泡Na + / H +反转运蛋白的ZxNHX基因在干旱响应中起重要作用
5. Abiotic stress tolerance from the tertiary gene pool of common wheat. [D] . Green, Andrew Justin. 2016

机译：来自普通小麦第三级基因库的非生物胁迫耐受性。
6. Note: Residue Aspartate-147 from the Third Transmembrane Region of Na+/H+ Antiporter NhaB of Vibrio alginolyticus Plays a Role in Its Activity [O] . Tatsunosuke Nakamura, Yumiko Fujisaki, Hiromi Enomoto, 2001

机译：注意：溶藻弧菌Na + / H +反向转运蛋白NhaB第三跨膜区的天冬氨酸147残基在其活性中起作用
7. Expression of wheat Na+/H+ antiporter TNHXS1 and H+- pyrophosphatase TVP1 genes in tobacco from a bicistronic transcriptional unit improves salt tolerance [O] . Gouiaa, Sandra, Khoudi, Habib, Leidi, Eduardo O., 2012

机译：在双顺反子转录单位中表达小麦Na + / H +反向转运蛋白TNHXS1和H +-焦磷酸酶TVP1基因可提高耐盐性

An Na+/H+ antiporter gene from wheat plays an important role in stress tolerance

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