Abstract
Maintenance of the cytosolic Na+/K+ ratio under saline conditions is crucial for plants. HKT-type Na+ transporters play a key role in keeping low cytosolic Na+ concentrations thus retaining a low Na+/K+ ratio, that reduces Na+ toxicity and causing high salinity stress tolerance. Two HKT-type transporters, AtHKT1 from Arabidopsis and TsHKT1; 2 from Thellungiella salsuginea, that share high DNA and protein sequence identities, are distinguished by fundamentally different ion selection and salinity stress behavior. On the level of transcription, TsHKT1; 2 is dramatically induced upon salt stress, whereas AtHKT1 is downregulated. TsHKT1; 2-RNAi lines show severe potassium deficiency and are also sensitive to high [Na+]. We have validated the ability of the TsHKT1; 2 protein to act as an efficient K+ transporter in the presence of high [Na+] by expression in yeast cells. K+ specificity is based on amino acid differences in the pore of the transporter protein relative to AtHKT1.