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Overexpression of TaNHX2 enhances salt tolerance of 'composite' and whole transgenic soybean plants

文献类型：外文期刊

第一作者： Cao, Dong

作者： Cao, Dong;Liu, Xiaobing;Cao, Dong;Hou, Wensheng;Liu, Wei;Yao, Weiwei;Wu, Cunxiang;Han, Tianfu;Cao, Dong

作者机构：

关键词： TaNHX2;Soybean;Salt tolerance;Transformation;Agrobacterium rhizogenes;Agrobacterium tumefaciens

期刊名称：PLANT CELL TISSUE AND ORGAN CULTURE （影响因子：2.711；五年影响因子：2.73 ）

ISSN： 0167-6857

年卷期： 2011 年 107 卷 3 期

页码：

收录情况： SCI

摘要： Salinity is a major factor resulting in extensive loss of agricultural production. Genetic transformation has become a powerful tool for studying gene function and for improving crop salt tolerance. In this study, a TaNHX2 gene was transformed into a plant cloning vector under the control of cauliflower mosaic virus 35S promoter, and then introduced into Agrobacterium rhizogenes strain K599. Explants of soybean were transformed with A. rhizogenes and 'composite' plants consisting of wild-type shoots and transgenic hairy roots overexpressing TaNHX2 were produced. When exposed to salt stress, 'composite' plants displayed high salinity tolerance at 171 mM NaCl in vermiculite and in solid medium supplemented with up to 200 mM NaCl, whereas control plants displayed chlorosis and died within 15 days under above treatment conditions. We subsequently obtained soybean plants overexpressing TaNHX2 through A. tumefaciens-mediated transformation and studied four homozygous lines of TaNHX2. Transgenic lines displayed an enhanced salt tolerance in plant biomass and flower number per plant, compared with wild type plants grown on sand culture containing 150 mM NaCl. Furthermore, transgenic plants of line C12-11 showed longer survival, less growth inhibition and greater number of flowers than wild type plants. Taken together, these results indicated that TaNHX2 gene could enhance salt tolerance of soybean, and A. rhizogenes-mediated transformation system could be used as a complementary tool of A. tumerfaciens-mediated transformation to rapidly investigate candidate gene function in soybean.

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