硬粒小麦质膜Na/H逆向转运蛋白SOS1参与氧化应激反应。

The durum wheat plasma membrane Na/H antiporter SOS1 is involved in oxidative stress response.

作者信息

Feki Kaouthar, Tounsi Sana, Masmoudi Khaled, Brini Faiçal

机构信息

Biotechnology and Plant Improvement Laboratory, Centre of Biotechnology of Sfax (CBS)/University of Sfax, Route Sidi Mansour Km 6, B.P'1177', 3018, Sfax, Tunisia.

International center for Biosaline Agriculture (ICBA), P.O. Box 14660, Dubai, UAE.

出版信息

Protoplasma. 2017 Jul;254(4):1725-1734. doi: 10.1007/s00709-016-1066-8. Epub 2016 Dec 24.

DOI:10.1007/s00709-016-1066-8

PMID:28013410

Abstract

We have shown previously that the durum wheat TdSOS1 excludes Na and Li ions outside cells. Moreover, this protein is activated by Arabidopsis kinase SOS2 through phosphorylation. The elimination of both SOS2 phosphorylation sites and the auto-inhibitory domain produces a hyperactive TdSOS1∆972 form, which have a maximal activity independent from the regulatory SOS2/SOS3 complex. We demonstrated that the expression of TdSOS1 enhances salt tolerance of the transgenic Arabidopsis plants. In this study, we analyzed the response to HO-induced oxidative stress of the transgenic Arabidopsis expressing one of the two TdSOS1 forms. Firstly, we showed that the exogenous HO treatment leads to an accumulation of SOS1 transcripts in leaves and roots of the durum wheat and also in the transgenic plants. These transgenic plants showed significant oxidative stress tolerance compared to control plants, especially the plants expressing the hyperactive form. This tolerance was manifested by high proline accumulation and low malonyldialdehyde (MDA), O˙ and HO contents. Furthermore, the activities of three essential ROS scavenging enzymes (SOD, CAT, and POD) were higher in the transgenic plants under oxidative stress, as compared to control plants. Taken together, these data suggested that TdSOS1 plays a crucial role in response to oxidative stress.

摘要

我们之前已经表明，硬粒小麦TdSOS1将钠离子和锂离子排除在细胞外。此外，该蛋白通过磷酸化被拟南芥激酶SOS2激活。去除SOS2磷酸化位点和自抑制结构域会产生一种高活性的TdSOS1∆972形式，其具有独立于调节性SOS2/SOS3复合体的最大活性。我们证明了TdSOS1的表达增强了转基因拟南芥植株的耐盐性。在本研究中，我们分析了表达两种TdSOS1形式之一的转基因拟南芥对过氧化氢诱导的氧化应激的反应。首先，我们表明外源过氧化氢处理导致硬粒小麦叶片和根以及转基因植株中SOS1转录本的积累。与对照植株相比，这些转基因植株表现出显著的氧化应激耐受性，尤其是表达高活性形式的植株。这种耐受性表现为脯氨酸积累量高，丙二醛（MDA）、超氧阴离子和过氧化氢含量低。此外，在氧化应激条件下，转基因植株中三种重要的活性氧清除酶（超氧化物歧化酶、过氧化氢酶和过氧化物酶）的活性高于对照植株。综上所述，这些数据表明TdSOS1在应对氧化应激中起关键作用。

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硬粒小麦质膜Na/H逆向转运蛋白SOS1参与氧化应激反应。

The durum wheat plasma membrane Na/H antiporter SOS1 is involved in oxidative stress response.

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