Abstract
The three families of yeast plasma membrane potassium influx transporters are represented in Candida albicans: Trk, Acu, and Hak proteins. Hak transporters work as K+-H+ symporters, and the genes coding for Hak proteins are transcriptionally activated under potassium limitation. This work shows that C. albicans mutant cells lacking CaHAK1 display a severe growth impairment at limiting potassium concentrations under acidic conditions. This is the consequence of a defective capacity to transport K+, as indicated by potassium absorption experiments and by the kinetics parameters of Rb+ (K+) transport. Moreover, hak1− cells are more sensitive to the toxic cation lithium. All these phenotypes became much less robust or even disappeared at alkaline growth conditions. Finally, transcriptional studies demonstrate that the hak1− mutant, in comparison with HAK1+ cells, activates the expression of the K+/Na+ ATPase coded by CaACU1 in the presence of Na+ or in the absence of K+.
Highlights
Potassium is of pivotal importance in living cells
Most of the yeast species are endowed with several plasma membrane potassium-specific transporters that can be grouped into three families: Trk (Transport of potassium), Hak (High-affinity potassium), or Acu (Alkali cation uptake) [2]
We show that lack of the CaHAK1 gene increases transcription of CaACU1, but it does not affect CaTRK1
Summary
Potassium is of pivotal importance in living cells. In the case of yeast cells, potassium is taken up and accumulated against high concentration gradients with the help of processes that involve the movement of the cation mediated by different transport systems embedded in the plasma membrane [2,3]. Most of the yeast species are endowed with several plasma membrane potassium-specific transporters that can be grouped into three families: Trk (Transport of potassium (kalium)), Hak (High-affinity potassium (kalium)), or Acu (Alkali cation uptake) [2]. While the members of the Trk family are present in all yeasts, Hak and Acu transporters have been found only in some non-conventional yeast species [4,5,6,7].
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