Litcius/Paper detail

The potassium channel GhAKT2bD is regulated by CBL–CIPK calcium signalling complexes and facilitates K<sup>+</sup> allocation in cotton

Rui Zhang, Qiuyan Dong, Panpan Zhao, Anna Eickelkamp, Chunmin Ma, Gefeng He, Fangjun Li, Lukas Wallrad, Tobias Becker, Zhaohu Li, Jörg Kudla, Xiaoli Tian

2022FEBS Letters12 citationsDOIOpen Access PDF

Abstract

Efficient allocation of the essential nutrient potassium (K + ) is a central determinant of plant ion homeostasis and involves AKT2 K + channels. Here, we characterize four AKT2 K + channels from cotton and report that xylem and phloem expressed GhAKT2bD facilitates K + allocation and that AKT2‐silencing impairs plant growth and development. We uncover kinase activity‐dependent activation of GhAKT2bD‐mediated K + uptake by AtCBL4–GhCIPK1 calcium signalling complexes in HEK293T cells. Moreover, AtCBL4–AtCIPK6 complexes known to convey activation of AtAKT2 in Arabidopsis also activate cotton GhAKT2bD in HEK293T cells. Collectively, these findings reveal an essential role for AKT2 in the source‐sink allocation of K + in cotton and identify GhAKT2bD as subject to complex regulation by CBL–CIPK Ca 2+ sensor–kinase complexes.

Topics & Concepts

ArabidopsisHEK 293 cellsChemistryCell biologyPotassium channelCalciumPotassiumBiophysicsBiochemistryBiologyGeneMutantOrganic chemistryPlant Stress Responses and TolerancePlant Molecular Biology ResearchPlant nutrient uptake and metabolism