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The AtNHX1 exchanger mediates potassium compartmentation in vacuoles of transgenic tomato

2009; Wiley; Volume: 61; Issue: 3 Linguagem: Inglês

10.1111/j.1365-313x.2009.04073.x

1365-313X

Eduardo O. Leidi, Verónica Barragán, Lourdes Rubio, Abdelaziz El‐Hamdaoui, María Teresa Gil Ruiz, Beatriz Cubero, José A. Fernández, Ray A. Bressan, Paul M. Hasegawa, Francisco J. Quintero, José M. Pardo,

Plant nutrient uptake and metabolism

NHX-type antiporters in the tonoplast have been reported to increase the salt tolerance of various plants species, and are thought to mediate the compartmentation of Na(+) in vacuoles. However, all isoforms characterized so far catalyze both Na(+)/H(+) and K(+)/H(+) exchange. Here, we show that AtNHX1 has a critical involvement in the subcellular partitioning of K(+), which in turn affects plant K(+) nutrition and Na(+) tolerance. Transgenic tomato plants overexpressing AtNHX1 had larger K(+) vacuolar pools in all growth conditions tested, but no consistent enhancement of Na(+) accumulation was observed under salt stress. Plants overexpressing AtNHX1 have a greater capacity to retain intracellular K(+) and to withstand salt-shock. Under K(+)-limiting conditions, greater K(+) compartmentation in the vacuole occurred at the expense of the cytosolic K(+) pool, which was lower in transgenic plants. This caused the early activation of the high-affinity K(+) uptake system, enhanced K(+) uptake by roots, and increased the K(+) content in plant tissues and the xylem sap of transformed plants. Our results strongly suggest that NHX proteins are likely candidates for the H(+)-linked K(+) transport that is thought to facilitate active K(+) uptake at the tonoplast, and the partitioning of K(+) between vacuole and cytosol.