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<i>In vivo</i> FRET–FLIM reveals ER-specific increases in the ABA level upon environmental stresses

Yeling Zhou, Yuzhu Wang, Jingwen Li, Jiansheng Liang

2021PLANT PHYSIOLOGY24 citationsDOIOpen Access PDF

Abstract

Plant hormone abscisic acid (ABA) is essential for regulating plant growth and various stress responses. ABA-mediated signaling depends on local ABA levels rather than the overall cellular ABA concentration. While cellular concentration of ABA can be detected using Förster resonance energy transfer (FRET)-based ABA probes, direct imaging of subcellular ABA levels remains unsolved. Here, we modified the previously reported ABAleon2.1 and generated a new ABA sensor, named ABAleon2.1_Tao3. Via transient expression in tobacco (Nicotiana tabacum) protoplasts, we targeted ABAleon2.1_Tao3s to the endoplasmic reticulum (ER) membrane with the ABA sensing unit facing the cytosol and the ER, respectively, through a nanobody-epitope-mediated protein interaction. Combining FRET with fluorescence lifetime imaging microscopy, ABA-triggered-specific increases in the fluorescence lifetime of the donor mTurquoise in the ABAleon2.1_Tao3 were detected in both transient assays and stably transformed Arabidopsis plants. In tobacco protoplasts, ER membrane-targeted ABAleon2.1_Tao3s showed a generally higher basal level of ABA in the ER than that in the cytosol and ER-specific alterations in the level of ABA upon environmental cues. In ABAleon2.1_Tao3-transformed Arabidopsis roots, mannitol triggered increases in cytosolic ABA in the division zone and increases in ER ABA in the elongation and maturation zone within 1 h after treatment, both of which were abolished in the bg1-2 mutant, suggesting the requirement for BG1 in osmotic stress-triggered early ABA induction in Arabidopsis roots. These data demonstrate that ABAleon2.1_Tao3s can be used to monitor ABA levels in the cytosol and the ER, providing key information on stress-induced changes in the level of ABA in different subcellular compartments.

Topics & Concepts

Abscisic acidArabidopsisFörster resonance energy transferEndoplasmic reticulumCytosolNicotiana tabacumCell biologyArabidopsis thalianaMutantBimolecular fluorescence complementationGreen fluorescent proteinBiophysicsChemistryBiologyBiochemistryFluorescenceYeastGeneEnzymeQuantum mechanicsPhysicsPlant Stress Responses and TolerancePlant Molecular Biology ResearchPlant Reproductive Biology
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