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Sequential removal of cation/H<sup>+</sup> exchangers reveals their additive role in elemental distribution, calcium depletion and anoxia tolerance

Iny Elizebeth Mathew, Hormat Shadgou Rhein, Jian Yang, Antonella Gradogna, Armando Carpaneto, Qi Guo, Ryan Tappero, Joachim Scholz‐Starke, Bronwyn J. Barkla, Kendal D. Hirschi, Tracy Punshon

2023Plant Cell & Environment13 citationsDOIOpen Access PDF

Abstract

Abstract Multiple Arabidopsis H + / Ca tion e x changers (CAXs) participate in high‐capacity transport into the vacuole. Previous studies have analysed single and double mutants that marginally reduced transport; however, assessing phenotypes caused by transport loss has proven enigmatic. Here, we generated quadruple mutants ( cax1‐4 : qKO) that exhibited growth inhibition, an 85% reduction in tonoplast‐localised H + /Ca transport, and enhanced tolerance to anoxic conditions compared to CAX1 mutants. Leveraging inductively coupled plasma mass spectrometry (ICP‐MS) and synchrotron X‐ray fluorescence (SXRF), we demonstrate CAX transporters work together to regulate leaf elemental content: ICP‐MS analysis showed that the elemental concentrations in leaves strongly correlated with the number of CAX mutations; SXRF imaging showed changes in element partitioning not present in single CAX mutants and qKO had a 40% reduction in calcium (Ca) abundance. Reduced endogenous Ca may promote anoxia tolerance; wild‐type plants grown in Ca‐limited conditions were anoxia tolerant. Sequential reduction of CAXs increased mRNA expression and protein abundance changes associated with reactive oxygen species and stress signalling pathways. Multiple CAXs participate in postanoxia recovery as their concerted removal heightened changes in postanoxia Ca signalling. This work showcases the integrated and diverse function of H + /Cation transporters and demonstrates the ability to improve anoxia tolerance through diminishing endogenous Ca levels.

Topics & Concepts

CalciumChemistryArabidopsisDistribution (mathematics)Ion exchangeRadiochemistryIonBiochemistryGeneMathematicsOrganic chemistryMutantMathematical analysisIon channel regulation and functionPhysiological and biochemical adaptationsIon Transport and Channel Regulation