Amplite® Rapid Fluorimetric Glutathione GSH/GSSG Ratio Assay Kit *Green Fluorescence*
When cells are exposed to increased levels of oxidative stress, GSSG will accumulate and the ratio of GSH to GSSG will decrease. The glutathione redutase recycles GSSG to GSH with simultaneous oxidation of b-nicotinamide adenine dinuclecotide phosphate. The monitoring of GSH/GSSG ratio and the quantification of GSSG in biological samples are essential for evaluating the redox and detoxification status of cells and tissues in relation to the protective role of glutathione against oxidative and free-radical-mediated cell injury. There are a few reagents or assay kits available for the quantitation of thiols in biological systems. However, all the commercial kits either lack sensitivity or have tedious protocols. Our Amplite® Rapid Fluorimetric GSH/GSSG Ratio Kit (#10060) provides an ultrasensitive assay to quantitate GSH in the sample. The kit uses a proprietary water-soluble non-fluorescent dye that becomes strongly fluorescent upon reacting with thiol. The kit provides a sensitive, one-step fluorimetric method to detect as little as 1 picomole of cysteine or GSH in a 100 µL assay volume. The assay can be performed in a convenient 96-well or 384-well microtiter-plate format and easily adapted to automation without a separation step. Its signal can be easily read by a fluorescence microplate reader.
Example protocol
AT A GLANCE
Protocol Summary
- Prepare GSH working solution (50 µL)
- Add GSH standards and/or GSSG standards or test samples (50 µL)
- Incubate at RT for 10 to 60 minutes
- Monitor the fluorescence increase at Ex/Em = 490/525 nm (Cutoff = 515 nm)
PREPARATION OF STOCK SOLUTIONS
Unless otherwise noted, all unused stock solutions should be divided into single-use aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.
Note Avoid light.
1. GSH standard solution (1 mM)
Add 200 µL of Assay Buffer (Component B) into the vial of GSH Standard (Component C) to make 1 mM (1 nmol/µL) GSH standard solution.2. GSSG standard stock solution (1 mM)
Add 200 µL of ddH2O into the vial of GSSG Standard (Component E) to make 1 mM (1 nmol/µL) GSSG standard solution.3. Thiolite™ Green 520WS stock solution (100X)
Add 100 µL of ddH2O into the vial of Thiolite™ Green 520WS (Component A) to make 100X Thiolite™ Green 520WS stock solution.Note Avoid light.
PREPARATION OF STANDARD SOLUTION
For convenience, use the Serial Dilution Planner:
https://www.aatbio.com/tools/serial-dilution/10060
https://www.aatbio.com/tools/serial-dilution/10060
GSH or GSSG standard
Prepared serially diluted GSH standards (0 to 10 µM):Add 10 µL of 1 mM (1 nmol/µL) GSH standard solution to 990 µL of Assay Buffer (Component B) to generate 10 µM (10 pmol/µL) GSH standard solution (GSH7). Take 10 µM (10 pmol/µL) GSH standard solution (GSH7) and perform 1:2 serial dilutions in Assay Buffer (Component B) to get serially diluted GSH standards (GSH6 - GSH1). Note: Diluted GSH standard solution is unstable. Use within 4 hours. Prepare serially diluted GSSG standards (0 to 5 µM):Add 10 µL of 1 mM (1 nmol/µL) GSSG standard solution to 990 µL of Assay Buffer (Component B) to generate 10 µM (10 pmol/µL) GSSG standard solution. Take 10 µM (10 pmol/µL) GSSG standard solution and perform 1:2 serial dilutions in Assay Buffer (Component B) to get serially diluted GSSG standards (GSSG7 - GSSG1). Note: Diluted GSSG standard solution is unstable. Use within 4 hours.PREPARATION OF WORKING SOLUTION
1. GSH working solution (GSH-WS)
Add 100 µL of 100X Thiolite™ Green 520WS stock solution into 10 mL of Assay Buffer (Component B) and mix well by vortexing.Note This GSH working solution (GSH-WS) is enough for two 96-well plates. It is stable at 4 °C for at least 4 hours when protected from light.
2. Total GSH working solution (TGSH-WS)
Add 5 mL of GSH-WS into the bottle of GSSG Probe (Component D) and mix them well.Note This Total GSH working solution (TGSH-WS) is enough for one 96-well plates. It is unstable at room temperature, and should be used promptly within 2 hours.
Note Avoid exposure to light.
Note Alternatively, one can make a 25X GSSG Probe by adding 200 µL of ddH2O into the bottle of GSSG Probe (Component D), and then prepare the TSGS-WS by mix the stock solution with GSH-WS proportionally.
SAMPLE EXPERIMENTAL PROTOCOL
Table 1.Layout of GSH standards, GSSG standards, and test samples in a solid black 96-well microplate. GSH= GSH Standards (GSH1 - GSH7, 0.15 to 10 µM), GSSG= GSSG Standards (GSSG1 - GSSG7, 0.078 to 5 µM), BL=Blank Control, TS=Test Samples.
Table 2.Reagent composition for wells.
Note Add test samples into wells in both Panel A and Panel B.
Panel A | Pannel B | ||||||
BL | BL | TS | TS | BL | BL | TS | TS |
GSH1 | GSH1 | ... | ... | GSSG1 | GSSG1 | ... | ... |
GSH2 | GSH2 | ... | ... | GSSG2 | GSSG2 | ... | ... |
GSH3 | GSH3 | GSSG3 | GSSG3 | ||||
GSH4 | GSH4 | GSSG4 | GSSG4 | ||||
GSH5 | GSH5 | GSSG5 | GSSG5 | ||||
GSH6 | GSH6 | GSSG6 | GSSG6 | ||||
GSH7 | GSH7 | GSSG7 | GSSG7 |
Note Add test samples into wells in both Panel A and Panel B.
Well | Volume | Reagent |
GSH1 - GSH7 | 50 µL | Serial Dilutions (0.15 to 10 µM) |
GSSG1-GSSG7 | 50 µL | Serial Dilutions (0.078 to 5 µM) |
BL | 50 µL | Assay Buffer |
TS | 50 µL | test sample |
- Prepare GSH standards (GSH), blank controls (BL), and test samples (TS) according to the layout provided in Tables 1 and 2. For a 384-well plate, use 25 µL of reagent per well instead of 50 µL. When just GSH assay is needed, fill ONLY the wells in two left columns (Panel A) according to Table 1. When Total GSH assay is needed, fill the wells in both Panel A (left) and Panel B (right) according to Table 1.
Note Treat cells or tissue samples as desired. - Add 50 µL of GSH working solution (GSH-WS) into each well of GSH standards, blank controls, and test samples to make the total GSH assay volume of 100 µL/well. For a 384-well plate, add 25 µL of GSH-WS into each well instead, for a total volume of 50 µL/well.
- If total GSH (in reduced and oxidized states) assay is needed, prepare Total GSH working solution (TGSH-WS) and GSSG standards. Add GSSG standards (GSSG), blank controls (BL), and test samples (TS) according to the layout provided in Tables 1 and 2. For a 384-well plate, use 25 µL of reagent per well instead of 50 µL. Then add 50 µL of TGSH-WS to each well of GSSG standards, blank controls, and test samples to amke the total assay volume 100 µL/well. For a 384-well plate, add 25 µL of TGSH-WS into each well instead, for a total volume of 50 µL/well.
- Incubate the reaction at room temperature for 10 to 60 minutes, protected from light.
- Monitor the fluorescence increase with a fluorescence plate reader at Ex/Em = 490/525 nm (Cutoff = 515 nm).
Citations
View all 10 citations: Citation Explorer
An arylthiazyne derivative is a potent inhibitor of lipid peroxidation and ferroptosis providing neuroprotection in vitro and in vivo
Authors: Keuters, Meike Hedwig and Keksa-Goldsteine, Velta and Dhungana, Hiramani and Huuskonen, Mikko T and Pomeshchik, Yuriy and Savchenko, Ekaterina and Korhonen, Paula K and Singh, Yajuvinder and Wojciechowski, Sara and Lehtonen, {\v{S}}{\'a}rka and others,
Journal: Scientific reports (2021): 1--14
Authors: Keuters, Meike Hedwig and Keksa-Goldsteine, Velta and Dhungana, Hiramani and Huuskonen, Mikko T and Pomeshchik, Yuriy and Savchenko, Ekaterina and Korhonen, Paula K and Singh, Yajuvinder and Wojciechowski, Sara and Lehtonen, {\v{S}}{\'a}rka and others,
Journal: Scientific reports (2021): 1--14
Notoginsenoside R1 attenuates high glucose-induced endothelial damage in rat retinal capillary endothelial cells by modulating the intracellular redox state
Authors: Fan, Chunlan and Qiao, Yuan and Tang, Minke
Journal: Drug design, development and therapy (2017): 3343
Authors: Fan, Chunlan and Qiao, Yuan and Tang, Minke
Journal: Drug design, development and therapy (2017): 3343
ROS production and glutathione response in keratinocytes after application of β-carotene and VIS/NIR irradiation
Authors: Lohan, Silke B and Vitt, Kristina and Scholz, Patrik and Keck, Cornelia M and Meinke, Martina C
Journal: Chemico-biological interactions (2017)
Authors: Lohan, Silke B and Vitt, Kristina and Scholz, Patrik and Keck, Cornelia M and Meinke, Martina C
Journal: Chemico-biological interactions (2017)
Interaction of silver nanoparticles with human and porcine skin
Authors: Ahlberg, Sebastian
Journal: (2016)
Authors: Ahlberg, Sebastian
Journal: (2016)
Systemic Induction of NO-, Redox-, and cGMP Signaling in the Pumpkin Extrafascicular Phloem upon Local Leaf Wounding
Authors: Gaupels, Frank and Furch, Alex and ra CU , undefined and Zimmermann, Matthias R and Chen, Faxing and Kaever, Volkhard and Buhtz, Anja and Kehr, Julia and Sarioglu, Hakan and Kogel, Karl-Heinz and Durner, Jörg
Journal: Frontiers in plant science (2016)
Authors: Gaupels, Frank and Furch, Alex and ra CU , undefined and Zimmermann, Matthias R and Chen, Faxing and Kaever, Volkhard and Buhtz, Anja and Kehr, Julia and Sarioglu, Hakan and Kogel, Karl-Heinz and Durner, Jörg
Journal: Frontiers in plant science (2016)
Page updated on November 23, 2024