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Maintaining highly asymmetric concentrations of inorganic cations and anions in a steady state is a feature of living cells. Regulating these ionic gradients is critical for most cellular functions, and measuring ionic concentrations with both spatial and temporal resolution has become critical in research ranging from drug discovery to studies of neuronal function.
We’ve developed a number of Molecular Probes ion indicators to track calcium and other ion concentrations with intense fluorescent signals and a range of wavelength options.
Explore our portfolio of easy-to-learn, easy-to-use plate readers
Calcium flux assays are widely used for in-cell measurement of agonist-stimulated and antagonist-inhibited signaling through G protein–coupled receptors (GPCRs), a large and active target class relevant in drug discovery. The fluo series of calcium indicators emits minimal fluorescence at resting levels of Ca2+, and each increases its fluorescence intensity up to >100-fold with increasing Ca2+ concentration. Cell-permeant formulations can be loaded in cell culture medium and are compatible with imaging and microplate assays, including HTS.
Intracellular Mg2+ is important for mediating enzymatic reactions, DNA synthesis, hormonal secretion, and muscular contraction. To facilitate the investigation of magnesium’s role in these and other cellular functions, Molecular Probes fluorescent indicators are designed to deliver ratiometric or intensity-based signals for reporting Mg2+ concentration using UV or visible excitation.
Intracellular pH is generally between ~6.8 and 7.4 in the cytosol and ~4.5 and 6.0 in the cell’s acidic organelles. Under physiological conditions, pH inside a cell varies by only fractions of a pH unit, and such changes may occur quite slowly. We offer a range of Molecular Probes indicators for tracking intracellular pH in the cytosol or in particular organelles.
Dose-dependent calcium response to muscarinic 1 (M1) receptor agonists. CHO M1 cells were plated in a poly-D-lysine coated 384-well plate and incubated overnight. The following day, cells were assayed for a calcium response to carbachol using the Fluo-4 Direct Assay. Cells were stimulated with the agonists carbachol, MCN-A-343, bethanechol, oxotremorine, and pilocarpine. Measurements are given in relative fluorescent units, as the maximum response minus the minimum response, divided by the minimum response. Rank order of agonist potency agreed with published results.
Fluo-4 Direct Calcium Assay Kit, Starter pack | Fluo-4 NW Calcium Assay Kit, starter pack with buffer | Fluo-4, AM, cell permeant, Special Packaging | Fluo-3, AM, cell permeant, Special Packaging | Fura-2, AM, cell permeant | |
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Target | Calcium flux | Calcium flux | Calcium flux | Calcium flux | Calcium flux |
Reporter | Fluo-4 | Fluo-4 | Fluo-4 | Fluo-3 | Fura-2 |
Ex/Em (nm) | 488/530 | 488/530 | 488/530 | 506/526 | 350,380/510 (ratiometric excitation) |
Assay | Easiest assay for intracellular calcium in the presence of complete culture media | Simplified assay for intracellular calcium without a wash step | Assay for intracellular calcium | Traditional assay for intracellular calcium | Ratiometric and UV light–excitable measurement for intracellular calcium |
Usage | Addition only assay format does not require cell washing or media removal | Requires media removal but no cell washing | Requires media removal and cell washing or quenching | Requires media removal and cell washing or quenching | Requires cell loading |
Components | Includes reagent, PowerLoad reagent, and buffer | Includes reagent, PowerLoad reagent, and buffer | Bulk reagent | Bulk reagent | Bulk reagent |
Format | 1 kit, 20 plates | 1 kit, 10 plates | 20 x 50 µg | 10 x 50 µg | 20 x 50 µg |
Protocol outline |
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Cat. No. | F10471 | F36206 | F14201 | F1242 | F1221 |
Mag-Fura-2, AM (cell permeant) | Magnesium Green, AM (cell permeant) | |
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Target | Mg2+ | Mg2+ |
Reporter | Mag-Fura-2 | Magnesium Green |
Ex/Em (nm) | 330/491 to 369/511 | 506/531 nm |
Sample | Medium Mg2+ concentration | Lowest Mg2+ concentration |
Usage | Ratio assay with lower affinity for Mg2+ (Kd ~1.9 mM) than Magnesium Green | Intensity assay with higher affinity for Mg2+ (Kd ~1.0 mM) than Mag-Fura-2 (Kd ~1.9 mM) |
Components | Bulk reagent | Bulk reagent |
Format | 20 x 50 µg | 20 x 50 µg |
Protocol outline |
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Cat. No. | M1292 | M3735 |
pHrodo Green AM Intracellular pH indicator | pHrodo Red AM Intracellular pH indicator | 2′,7′-Bis-(2-Carboxyethyl)-5-(and-6)-Carboxyfluorescein, Acetoxymethyl Ester (BCECF, AM) | |
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Target | Intracellular pH | Intracellular pH | Intracellular pH |
Reporter | pHrodo Green | pHrodo Red | BCECF |
Ex/Em (nm) | 509/533 | 560/585 | 440/490,535 |
Sample | Load cells in media | Load cells in media | Load cells in media |
Usage | Green fluorescence increases from pH 8 to pH 4 | Red fluorescence increases from pH 8 to pH 4 | Ratio of emission intensity is pH-dependent from 6.2 to 9.5 |
Components | Bulk reagent | Bulk reagent | Bulk reagent |
Format | 50 µL of 5 mM (1,000x) | 50 µL of 5 mM (1,000x) | 20 x 50 µg |
Protocol outline |
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Cat. No. | P35373 | P35372 | B1170 |
Fluo-4 Direct Calcium Assay Kit, Starter pack | Fluo-4 NW Calcium Assay Kit, starter pack with buffer | Fluo-4, AM, cell permeant, Special Packaging | Fluo-3, AM, cell permeant, Special Packaging | Fura-2, AM, cell permeant | |
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Target | Calcium flux | Calcium flux | Calcium flux | Calcium flux | Calcium flux |
Reporter | Fluo-4 | Fluo-4 | Fluo-4 | Fluo-3 | Fura-2 |
Ex/Em (nm) | 488/530 | 488/530 | 488/530 | 506/526 | 350,380/510 (ratiometric excitation) |
Assay | Easiest assay for intracellular calcium in the presence of complete culture media | Simplified assay for intracellular calcium without a wash step | Assay for intracellular calcium | Traditional assay for intracellular calcium | Ratiometric and UV light–excitable measurement for intracellular calcium |
Usage | Addition only assay format does not require cell washing or media removal | Requires media removal but no cell washing | Requires media removal and cell washing or quenching | Requires media removal and cell washing or quenching | Requires cell loading |
Components | Includes reagent, PowerLoad reagent, and buffer | Includes reagent, PowerLoad reagent, and buffer | Bulk reagent | Bulk reagent | Bulk reagent |
Format | 1 kit, 20 plates | 1 kit, 10 plates | 20 x 50 µg | 10 x 50 µg | 20 x 50 µg |
Protocol outline |
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Cat. No. | F10471 | F36206 | F14201 | F1242 | F1221 |
Mag-Fura-2, AM (cell permeant) | Magnesium Green, AM (cell permeant) | |
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Target | Mg2+ | Mg2+ |
Reporter | Mag-Fura-2 | Magnesium Green |
Ex/Em (nm) | 330/491 to 369/511 | 506/531 nm |
Sample | Medium Mg2+ concentration | Lowest Mg2+ concentration |
Usage | Ratio assay with lower affinity for Mg2+ (Kd ~1.9 mM) than Magnesium Green | Intensity assay with higher affinity for Mg2+ (Kd ~1.0 mM) than Mag-Fura-2 (Kd ~1.9 mM) |
Components | Bulk reagent | Bulk reagent |
Format | 20 x 50 µg | 20 x 50 µg |
Protocol outline |
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Cat. No. | M1292 | M3735 |
pHrodo Green AM Intracellular pH indicator | pHrodo Red AM Intracellular pH indicator | 2′,7′-Bis-(2-Carboxyethyl)-5-(and-6)-Carboxyfluorescein, Acetoxymethyl Ester (BCECF, AM) | |
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Target | Intracellular pH | Intracellular pH | Intracellular pH |
Reporter | pHrodo Green | pHrodo Red | BCECF |
Ex/Em (nm) | 509/533 | 560/585 | 440/490,535 |
Sample | Load cells in media | Load cells in media | Load cells in media |
Usage | Green fluorescence increases from pH 8 to pH 4 | Red fluorescence increases from pH 8 to pH 4 | Ratio of emission intensity is pH-dependent from 6.2 to 9.5 |
Components | Bulk reagent | Bulk reagent | Bulk reagent |
Format | 50 µL of 5 mM (1,000x) | 50 µL of 5 mM (1,000x) | 20 x 50 µg |
Protocol outline |
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Cat. No. | P35373 | P35372 | B1170 |
High-sensitivity fluorescence detection for 6-1,536 samples can be quickly performed on the Varioskan ALF or Varioskan LUX Multimode Microplate Reader using Invitrogen reagents to enable optimal detection. Take advantage of automatic dynamic range selection to get optimal gain settings for each individual well and automation capabilities for even higher throughput.
Para uso exclusivo en investigación. No apto para uso en procedimientos diagnósticos.