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ZxSKOR is important for salinity and drought tolerance of Zygophyllum xanthoxylum by maintaining K+ homeostasis

发布时间:2016-05-24 字体大小 T |T

Title: ZxSKOR is important for salinity and drought tolerance of Zygophyllum xanthoxylum by maintaining K+ homeostasis

Authors: Jing Hu, Qing Ma, Tanweer Kumar, Hui-Rong Duan, Jin-Lin Zhang, Hui-Jun Yuan, Qian Wang, Sardar Ali Khan, Pei Wang, Suo-Min Wang *

Journal: Plant Growth Regulation

Impact Factor: 1.672

Abstract: As an important nutrient element, K+ plays a crucial role in plant stress resistance. It was reported that the stelar K+ outward rectifying channel (SKOR) is involved in loading K+ into xylem for its transport from roots to shoots. Zygophyllum xanthoxylum, a succulent woody xerophyte, could maintain stable K+ concentration in leaves to adapt to salt and arid environments. Here we characterized ZxSKOR from Z. xanthoxylum, ZxSKOR expression patterns and Na+ and K+ accumulation in Z. xanthoxylum treated with various concentrations of KCl and NaCl and -0.5 MPa osmotic stress were investigated in order to assess the contribution of ZxSKOR to K+ homeostasis. The results showed that ZxSKOR was predominantly expressed in roots and stems rather than in leaves. Its expression levels in roots and stems increased significantly accompanied by an increase in K+ concentration in leaves when plants were exposed to 5-10 mM KCl. Moreover, a positive correlation was identified not only between ZxSKOR expression in roots and K+ accumulation in shoots, but also between ZxSKOR expression in stems and K+ accumulation in leaves. Transcription levels of ZxSKOR in roots and stems under high salinity (100-150 mM NaCl) and osmotic stress (-0.5 MPa) were 2.0-2.8 times those in plants grown in the absence of NaCl or osmotic stress. Concomitantly, the expression level of ZxSKOR in roots under osmotic stress plus salt (-0.5 MPa + 50 mM NaCl) was significantly higher than that under osmotic stress (-0.5 MPa) alone during 12-48 h of treatment. We propose that ZxSKOR in roots and stems is well coordinated to mediate long-distance K+ transport and perhaps plays an important role in K+ accumulation and homeostasis in Z. xanthoxylum under salt as well as drought stress.

链接:http://link.springer.com/article/10.1007/s10725-016-0157-z