M. Saxena, S. Roy, S. Singla-Pareek, S. Sopory, N. Bhalla-Sarin
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引用次数: 53
摘要
在农艺学上重要的作物植物中,需要进行耐盐工程,以提高它们的生产力,使它们能够在盐碱地中生长,否则这些土壤就会被闲置。由于乙二醛酶系统中酶的增加已被证明能提高模式植物烟草的耐盐性,我们使用乙二醛酶II基因来改造一种重要的油料作物芥菜的耐盐性。过表达乙二醛酶II基因的芥菜转基因植株T1代叶片在400 mM和800 mM NaCl条件下的衰老延迟,表现出比未转化对照植株更高的耐盐性。T2转基因种子在150 mM和200 mM NaCl处理下的发芽率高于未转化植株的种子。这首次证明了利用乙二醛酶II基因增强油料作物芥菜耐盐性的适用性。
Overexpression of the Glyoxalase II Gene Leads to Enhanced Salinity Tolerance in Brassica Juncea
Engineering of salinity tolerance in agronomically important crop plants is required to increase their productivity by enabling them to grow in saline soils, which are otherwise left uncultivated. Since an increase in the enzymes of glyoxalase system has been shown to impart salinity tolerance in the model plant tobacco, we used the glyoxalase II gene for engineering salinity tolerance in an important oil yielding crop, Brassica juncea. The transgenic plants of B. juncea overexpressing the glyoxalase II gene showed higher salinity tolerance as compared to the untransformed control plants as observed by delayed senescence in leaf discs at 400 mM and 800 mM NaCl in T1 generation. The percentage of germination of the T2 transgenic seeds was higher at 150 mM and 200 mM NaCl as compared to the seeds of untransformed plants. This for the first time demonstrates the applicability of utilizing the glyoxalase II gene for enhanced salinity tolerance in an oilseed crop plant B. juncea.
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