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Loading calcium fluorescent probes into protoplasts to detect calcium in the flesh tissue cells of Malus domestica

Lina Qiu, Yongzhang Wang, Haiyong Qu

2020Horticulture Research40 citationsDOIOpen Access PDF

Abstract

Abstract Cytosolic Ca 2+ plays a key role in signal transduction in plants. Calcium imaging is the most common approach to studying dynamic changes in the cytoplasmic Ca 2+ content. Here, we used mature ‘Fuji’ apples ( Malus pumila Mill .) to obtain viable protoplasts from flesh tissue cells by enzymatic hydrolysis; then, three small-molecule fluorescent probes (fluo-8/AM, fluo-4/AM, and rhod-2/AM) were loaded into the protoplasts. All three Ca 2+ fluorescent probes successfully entered the cytoplasm but did not enter the vacuole. Both the Ca 2+ chelator (EGTA) and Ca 2+ channel blocker (La 3+ ) reduced the fluorescence intensity in the cytoplasm. The calcium ionophore A23187 increased the fluorescence intensity in the cytoplasm at 5 µmol/L but decreased it at 50 µmol/L. Additionally, A23187 reversed the fluorescence intensity in the cytoplasm, which was decreased by La 3+ . Ionomycin is also a calcium ionophore that can increase the fluorescence intensity of calcium in the cytoplasm. These results suggest that small-molecule Ca 2+ fluorescent probes can be used to detect changes in cytosolic calcium levels in the cells of fruit flesh tissue. In addition, the optimum concentration of fluo-8/AM was determined to be 5 µmol/L. This was the first time that protoplasts have been isolated from apple flesh tissue cells and small-molecule fluorescent probes have been used to detect calcium in the cytoplasm of flesh tissue cells. This study provides a new method to study calcium signal transduction in fruit flesh tissue.

Topics & Concepts

CytoplasmCalciumBiologyIonophoreCytosolFluorescenceBiophysicsIonomycinBiochemistryEGTAFleshCell biologyIntracellularChemistryEnzymeMembraneHorticultureOrganic chemistryQuantum mechanicsPhysicsPlant Stress Responses and ToleranceMolecular Sensors and Ion DetectionElectrochemical sensors and biosensors
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