JC-10 Mitochondrial Membrane Potential Kit

Pricing & Availability
Regulatory Status
RUO
Ave. Rating
Submit a Review
Product Citations
publications
A_JC10_Mitochondrial_Membrane_Potential_Kit_2_060523
U937 cells treated (positive control, red) and untreated (negative control, purple) with CCCP then probed with the JC-10 Mitochondrial Membrane Potential Kit. The PE channel is used to detect JC-10 aggregates within mitochondria, while Alexa Fluor® 488 channel is used to detect JC-10 monomers.
  • A_JC10_Mitochondrial_Membrane_Potential_Kit_2_060523
    U937 cells treated (positive control, red) and untreated (negative control, purple) with CCCP then probed with the JC-10 Mitochondrial Membrane Potential Kit. The PE channel is used to detect JC-10 aggregates within mitochondria, while Alexa Fluor® 488 channel is used to detect JC-10 monomers.
  • B_JC10_Mitochondrial_Membrane_Potential_Kit_1_060523
    Live cell fluorescence imaging of HeLa cells without (panel A) and with (panel B) carbonyl cyanide m-chlorophenyl hydrazone (CCCP) treatment (5 µM for 30 min at 37°C), a potent mitochondrial decoupling agent. Then, cells were probed with JC-10 Mitochondrial Membrane Potential Kit. JC-10 aggregates can be visualized by red fluorescence, while JC-10 monomers which have diffused out of the mitochondria is visualized by green fluorescence. Nuclei were stained with Hoechst. Images were captured using a 40X objective. Scale bar: 15 µm
  • C_JC10_Mitochondrial_Membrane_Potential_Kit_3_060723
    U937 cells were seeded onto a 96-well plate and left treated or untreated with CCCP for 30 minutes. The cells were then probed with the JC-10 Mitochondrial Membrane Potential Kit and analyzed on a fluorescence plate reader to determine the ratio of JC-10 aggregates (Em = 590 nm) to monomers (Em = 525 nm). A lower ratio indicates increased levels of mitochondrial membrane depolarization.
See JC-10 Mitochondrial Membrane Potential Kit spectral data
Cat # Size Price Quantity Check Availability Save
421902 1 kit 400€
 
Check Availability


Need larger quantities of this item?
Request Bulk Quote

This product is temporarily unavailable.

 
Description

JC-10 is a cationic and lipophilic mitochondrial membrane potential probe which accumulates in the mitochondria of healthy cells. Accumulation of JC-10 aggregates in the mitochondrial matrix can be detected by its orange/red fluorescence (Ex/Em: 540/590 nm). During mitochondrial depolarization, a key marker of apoptosis, JC-10 diffuses out of the mitochondria and returns to its monomeric form which exhibits green fluorescence (Ex/Em: 490/525 nm). This behavior of JC-10 allows for ratiometric analysis of mitochondrial membrane potential, where a shift from orange to green fluorescence is indicative of compromised mitochondria. JC-10 can be used to qualitatively monitor and/or visualize mitochondrial membrane potential in live cells as a static endpoint or over time.

JC-10 was developed to offer an alternative to JC-1, which is widely used but has poor solubility in aqueous solutions. Issues with JC-1 solubility makes it difficult to utilize in some applications. The improved solubility of JC-10, however, allows for more versatility. This kit can be used for analysis of live cells by fluorescence microscopy, flow cytometry or plate reader analysis.

Product Details
Technical Data Sheet (pdf)

Kit Contents

Kit Contents
  • 100X JC-10 in DMSO (~3.5 mM) – 250 μL
  • Dye Loading Buffer – 25 mL
  • Masking Solution – 25 mL

Product Details

Verified Reactivity
Human, Mouse, Rat, All Species
Formulation
Each kit contains 1 vial of 100X JC-10 dye in DMSO (250 μL), 1 vial of Dye Loading Buffer (25 mL), 1 vial of Masking Solution (25 mL).
Preparation
Please refer to detailed protocol in application notes
Storage & Handling
-20°C
Application

FC - Quality tested
Live cell imaging - Verified

Recommended Usage

Please refer to detailed protocol in application notes

Application Notes

General Considerations:

  • Optimal dye concentration and loading time will vary depending on cell type and application. Recommended dye concentrations range between 1-15 μM JC-10.
  • JC-10 is compatible with kinetic imaging and analysis for up to 8 hrs after JC-10 addition under the appropriate experimental conditions.
  • Carbonyl cyanide p-trifluoro-methoxyphenyl hydrazone (FCCP) and carbonylcyanide-3-chlorophenylhydrazone (CCCP) are potent mitochondrial uncouplers which can be used for positive controls. An effective FCCP and CCCP concentration is typically 2-5 μM for 30 minutes at 37°C prior to dye addition for most cell types.

Reagent preparation:

  1. Allow all reagents to thaw and reach room temperature protected from light.
    Note: Repeated freeze/thaw cycles of the JC-10 dye may cause loss of performance. We recommend storing the dye in one time use aliquots at -20°C.
  2. Determine the desired amount of dye loading solution for your assay. 
  3. Prepare the dye loading solution by diluting the 100X JC-10 stock solution 100-fold with the dye loading buffer. For example, add 10 μL JC-10 stock solution to 1 mL of dye loading buffer. Vortex until solution transitions from pink to near-colorless.

Flow Cytometry Assay:

  1. Harvest cells and resuspend in 100 μL of BioLegend Cell Staining Buffer (Cat. No. 420201), PBS, or HBSS at a density of 0.5 - 1x106 cells/tube.
  2. Add 50 μL of the prepared dye loading solution to each. This amount works well for most cell types.
  3. Incubate at room temperature or 37°C for 15-30 minutes.
    Optional: Add up to 400 μL of additional buffer to adjust cell concentration before running on cytometer.
  4. Analyze cells using a flow cytometer using the PE and FITC channels.

Note: For adjusting compensation, use FCCP/CCCP treated positive controls, which will have strong fluorescence in FITC channel with little or no signal in PE channel.

Note: Samples with healthy mitochondria will be positive in both channels but will have a stronger signal in the PE channel than FCCP/CCCP treated samples.

Microscopy Assay:

It is possible to load JC-10 dye prior to the addition of test compounds for real-time visualization of mitochondrial membrane depolarization. Time-lapse imaging of cells can continue for up to 8 hours after dye addition.

  1. Seed cells into chamber slides or well plates with glass coverslip.
  2. Add dye loading solution directly to cells. Volume needed will vary depending on well size. We recommend a dilution of 1:2 loading dye solution: medium.
  3. Incubate cells for 30-60 min at 37°C protected from light.
  4. Add masking solution directly to cells. Volume needed will vary depending on well size. We recommend a dilution of 1 part masking solution to 3 parts total well volume. Do not remove dye loading solution from wells.
  5. Image cells using an inverted fluorescence microscope. JC-10 monomers can be visualized with standard FITC or GFP filters, and JC-10 aggregates can be viewed using TRITC or Texas Red® filters.

Note: Optimal imaging setup to simultaneously capture monomers and aggregates would be to use an excitation filter of ~490 nm with a long pass emission filter > 530 nm.

Plate Reader Assay:

  1. Seed cells into a black 96-well plate and treat with test compounds of your choosing prior to the addition of dye loading solution. Final volume should be 100 μL/well.
  2. Add dye loading solution directly to cells. We recommend a dilution of 1 part dye loading solution to 2 parts medium.
  3. Incubate cells for 30-60 min at 37°C protected from light.
  4. Add masking solution directly to cells. Volume needed will vary depending on well size. We recommend a dilution of 1 part masking solution to 3 parts volume in well. Do not remove dye loading solution from wells.
  5. Measure fluorescence using a microplate reader for ratiometric analysis. To quantify JC-10 monomer fluorescence, use Ex/Em ~490/525 nm or instrument settings appropriate for fluorescein. To quantify JC-10 aggregate fluorescence, use Ex/Em ~540/590 nm or Texas Red® instrument settings.

 

Application References

(PubMed link indicates BioLegend citation)
  1. Panusatid C, et al. 2022. MethodsX. 9:101685.
  2. Han L, et al. 2020. Medicine (Baltimore). 99:e22438.
  3. Li P, et al. 2022. Front Aging Neurosci. 14:869558.
  4. Yang M, et al. 2021. Front Immunol. 12:670088.
  5. Yokokura S, et al. 2014. BMC Cancer. 14:882.

Antigen Details

Distribution

Mitochondrial matrix, cytoplasm

Function
Apoptosis, necrosis, mitochondrial membrane depolarization
Gene ID
NA

Related FAQs

There are no FAQs for this product.
Go To Top Version: 1    Revision Date: 06/05/2023

For Research Use Only. Not for diagnostic or therapeutic use.

 

This product is supplied subject to the terms and conditions, including the limited license, located at www.biolegend.com/terms) ("Terms") and may be used only as provided in the Terms. Without limiting the foregoing, BioLegend products may not be used for any Commercial Purpose as defined in the Terms, resold in any form, used in manufacturing, or reverse engineered, sequenced, or otherwise studied or used to learn its design or composition without express written approval of BioLegend. Regardless of the information given in this document, user is solely responsible for determining any license requirements necessary for user’s intended use and assumes all risk and liability arising from use of the product. BioLegend is not responsible for patent infringement or any other risks or liabilities whatsoever resulting from the use of its products.

 

BioLegend, the BioLegend logo, and all other trademarks are property of BioLegend, Inc. or their respective owners, and all rights are reserved.

 

8999 BioLegend Way, San Diego, CA 92121 www.biolegend.com
Toll-Free Phone: 1-877-Bio-Legend (246-5343) Phone: (858) 768-5800 Fax: (877) 455-9587

ProductsHere

Login / Register
Remember me
Forgot your password? Reset password?
Create an Account