Abstract
Understanding the molecular mechanisms that underlie cesium (Cs+ ) transport in plants is important to limit the entry of its radioisotopes from contaminated areas into the food chain. The potentially toxic element Cs+ , which is not involved in any biological process, is chemically closed to the macronutrient potassium (K+ ). Among the multiple K+ carriers, the high-affinity K+ transporters family HAK/KT/KUP is thought to be relevant in mediating opportunistic Cs+ transport. Of the 13 KUP identified in A. thaliana, only HAK5, the major contributor to root K+ acquisition under low K+ supply, has been functionally demonstrated to be involved in Cs+ uptake in planta. In the present study, we showed that accumulation of Cs+ increased by up to 30% in two A. thaliana mutant lines lacking KUP9 and grown under low K+ supply. Since further experiments revealed that Cs+ release from contaminated plants to the external medium is proportionally lower in the two kup9 mutant alleles, we proposed that KUP9 disruption could impair Cs+ efflux. By contrast, K+ status in kup9 mutants is not affected, suggesting that KUP9 disruption does not alter substantially K+ transport in experimental conditions used. The putative primary role of KUP9 in plants is further discussed.
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