Mitochondrial Apoptosis Assays for Flow Cytometry

A distinctive feature of the early stages of apoptosis is the disruption of the mitochondria, including changes in membrane and redox potential. We exclusively offer a number of fluorescent probes for analyzing mitochondrial activity in live cells by flow cytometry, with minimal disruption of cellular function.

See all mitochondrial apoptosis assays

Mitochondrial membrane potential assays

The MitoProbe family of mitochondrial stains provide quick, easy, and reliable flow cytometric detection of the loss of mitochondrial membrane potential that occurs during apoptosis.

  • Easy to use and compatible with existing research protocols
  • Can be used with multiple cell types or laser excitations
  • Available for 488 nm and 633/635 nm excitation
  • Low compensation alternatives
     
Product Laser Ex/Em Cat. No.
MitoProbe DiOC2(3) Assay Kit 488 482/497 M34150
MitoProbe JC-1 Assay Kit 488 514/529 M34152
MitoProbe DiIC1(5) Assay Kit 647 638/658 M34151

Fixable probes for mitochondrial membrane potential

MitoTracker dyes are membrane potential–dependent probes for staining mitochondria in live cells. The fluorescence signal of MitoTracker dyes is brighter in active mitochondria than in mitochondria with depolarized membranes, providing a way to identify healthy cells in a population.

The staining pattern of MitoTracker dyes is retained throughout subsequent flow cytometry immunocytochemistry, DNA end labeling, in situ hybridization, or counterstaining steps. MitoTracker Red CMXRos exhibits minimal spectral overlap when paired with a green-fluorescent dye, while MitoTracker Orange CMTMRos is compatible with far-red–fluorescent dyes.

Figure 2. Analysis of decrease in mitochondrial membrane potential during apoptosis using MitoTracker Red dye.  Jurkat cells (T-cell leukemia, human) were treated in complete medium with 10 μM camptothecin for four hours (A) or untreated (B). Annexin V-Alexa Fluor 488 was added to detect changes in membrane asymmetry and MitoTracker Red dye was added to detect changes in mitochondrial membrane potential.  Note that apoptotic cells show higher reactivity for annexin V and lower MitoTracker Red dye fluorescence than do live cells.
Product Laser Ex/Em Cat. No.
MitoTracker Orange CMTMRos 488 554/576 M7510
MitoTracker Red CMXRos 488 579/599 M7512

Mitochondrial permeability transition pore assay

The mitochondrial permeability transition pore (MPTP) is a nonspecific channel formed by components from the inner and outer mitochondrial membranes, and appears to be involved in the release of mitochondrial components during cell death. This assay provides a more direct method of measuring mitochondrial permeability transition pore opening than assays relying on mitochondrial membrane potential alone.

Figure 3. Flow cytometric analysis of MPTP using the MitoProbe Transition Pore Assay Kit. Jurkat cells were incubated with the reagents in the MitoProbe Transition Pore Assay Kit and analyzed by flow cytometry. In the absence of CoCl2 and ionomycin, fluorescent calcein is present in the cytosol as well as the mitochondria, resulting in a bright signal (left panel). In the presence of CoCl2, calcein in the mitochondria emits a signal, but the cytosolic calcein fluorescence is quenched; the overall fluorescence is reduced compared to calcein alone (center panel). When ionomycin (a calcium ionophore) and CoCl2 are added to the cells at the same time as calcein AM, the fluorescence signals from both the cytosol and mitochondria are largely abolished (right panel).

Product Laser Ex/Em Cat. No.
MitoProbe Transition Pore Assay Kit 488 514/529 M34153

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