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Imaging of plant calcium-sensor kinase conformation monitors real time calcium-dependent decoding <i>in planta</i>

Anja Liese, Bernadette Eichstädt, Sarah Lederer, Philipp Schulz, Jan Oehlschläger, Susanne Matschi, José A. Feijó, Waltraud X. Schulze, Kai R. Konrad, Tina Romeis

2023The Plant Cell24 citationsDOIOpen Access PDF

Abstract

Changes in cytosolic calcium (Ca2+) concentration are among the earliest reactions to a multitude of stress cues. While a plethora of Ca2+-permeable channels may generate distinct Ca2+ signatures and contribute to response specificities, the mechanisms by which Ca2+ signatures are decoded are poorly understood. Here, we developed a genetically encoded Förster resonance energy transfer (FRET)-based reporter that visualizes the conformational changes in Ca2+-dependent protein kinases (CDPKs/CPKs). We focused on two CDPKs with distinct Ca2+-sensitivities, highly Ca2+-sensitive Arabidopsis (Arabidopsis thaliana) AtCPK21 and rather Ca2+-insensitive AtCPK23, to report conformational changes accompanying kinase activation. In tobacco (Nicotiana tabacum) pollen tubes, which naturally display coordinated spatial and temporal Ca2+ fluctuations, CPK21-FRET, but not CPK23-FRET, reported oscillatory emission ratio changes mirroring cytosolic Ca2+ changes, pointing to the isoform-specific Ca2+-sensitivity and reversibility of the conformational change. In Arabidopsis guard cells, CPK21-FRET-monitored conformational dynamics suggest that CPK21 serves as a decoder of signal-specific Ca2+ signatures in response to abscisic acid and the flagellin peptide flg22. Based on these data, CDPK-FRET is a powerful approach for tackling real-time live-cell Ca2+ decoding in a multitude of plant developmental and stress responses.

Topics & Concepts

Förster resonance energy transferArabidopsisBiologyCytosolBiophysicsArabidopsis thalianaCell biologyBimolecular fluorescence complementationBiochemistryFluorescenceMutantPhysicsGeneYeastEnzymeQuantum mechanicsPlant Stress Responses and TolerancePlant and Biological Electrophysiology StudiesPlant Molecular Biology Research
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