Phosphorylation and interaction with the 14-3-3 protein of the plasma membrane Hsup(+)-ATPase are involved in the regulation of magnesium-mediated increases in aluminum-induced citrate exudation in broad bean (Vicia faba. L)

Chen, Q. . Chenggong Campus, Faculty of Life Science and Biotechnology, Biotechnology Research Centre; Kan, Q.; Wang, P.; Yu, W.; Yu, Y.; Zhao, Y.; Yu, Y.; Li, K.; Chen, L.

Phosphorylation and interaction with the 14-3-3 protein of the plasma membrane Hsup(+)-ATPase are involved in the regulation of magnesium-mediated increases in aluminum-induced citrate exudation in broad bean (Vicia faba. L)

2015

Chen, Q. (Kunming University of Science and Technology, Kunming (China). Chenggong Campus, Faculty of Life Science and Biotechnology, Biotechnology Research Centre) | Kan, Q. | Wang, P. | Yu, W. | Yu, Y. | Zhao, Y. | Yu, Y. | Li, K. | Chen, L.

Several studies have shown that external application of micromolar magnesium (Mg) can increase the resistance of legumes to aluminum (Al) stress by enhancing Al-induced citrate exudation. However, the exact mechanism underlying this regulation remains unknown. In this study, the physiological and molecular mechanisms by which Mg enhances Al-induced citrate exudation to alleviate Al toxicity were investigated in broad bean. Micromolar concentrations of Mg that alleviated Al toxicity paralleled the stimulation of Al-induced citrate exudation and increased the activity of the plasma membrane (PM) Hsup(+)-ATPase. Northern blot analysis shows that a putative MATE-like gene (multidrug and toxic compound extrusion) was induced after treatment with Al for 4, 8 and 12 h, whereas the mRNA abundance of the MATE-like gene showed no significant difference between Al plus Mg and Al-only treatments during the entire treatment period. Real-time reverse transcription-PCR (RT-PCR) and Western blot analyses suggest that the transcription and translation of the PM Hsup(+)-ATPase were induced by Al but not by Mg. In contrast, immunoprecipitation suggests that Mg enhanced the phosphorylation levels of VHA2 and its interaction with the vf14-3-3b protein under Al stress. Taken together, our results suggest that micromolar concentrations of Mg can alleviate the Al rhizotoxicity by increasing PM Hsup(+)-ATPase activity and Al-induced citrate exudation in YD roots. This enhancement is likely to be attributable to Al-induced increases in the expression of the MATE-like gene and vha2 and Mg-induced changes in the phosphorylation levels of VHA2, thus changing its interaction with the vf14-3-3b protein.

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