Schematic of cell structure with expanded view of the mitochondria

Mitochondria are a double-membrane-bound organelles that generate most of the cell’s energy. Here we describe a range of probes that are available to identify the mitochondria structure in live and fixed cells. The uptake of most of these dyes are dependent on mitochondria membrane potential enabling researchers to evaluate mitochondrial activity, localization, and abundance. Fluorescent fusion proteins are also available to identify the mitochondria and are independent of mitochondria membrane potential.

See mitochondrial stains selection guide

Mitochondria introduction

Mitochondria are found in most eukaryotic cells, where they make up as much as 10% of the cell volume. The mitochondria structure is a double-membrane that consists of an outer membrane and an inner membrane called a cristae that extends into the inner matrix [1]. Mitochondria are pleomorphic organelles, with structural variations depending on cell type, cell cycle stage, and intracellular metabolic state. The key function of mitochondria is energy production through oxidative phosphorylation and lipid oxidation. However, mitochondria are involved in various other metabolic functions including urea production, steroid biogenesis, and calcium homeostasis.

Selection guide for mitochondria stains

 MitoTracker Green FMMitoTracker Orange CMTMRosMitoTracker Red CMXRosMitoTracker Red FMMitoTracker Deep Red FM
ReadoutFluorescent staining of mitochondria
TargetMitoTracker Dyes selectively label mitochondria based on membrane potential
Common filter setFITCTRITCTexas RedCy5Cy5
LabelsMitoTracker GreenMitoTracker OrangeMitoTracker RedMitoTracker Red FMMitoTracker Deep Red
Ex/Em (nm)490/516554/576579/599581/644644/665
Signal-to-noise ratio
Photostability
MultiplexingYesYesYesYesYes
Live cellsYesYesYesYesYes
Fixed cellsNoNoNoNoNo
FixableNoYesYesNoYes
PlatformImagingImagingImagingImagingImaging
Format20 x 50 μg20 x 50 μg20 x 50 μg20 x 50 μg20 x 50 μg
Cat. No.M7514M7510M7512M22425M22426
 
Readout
 Expression of fluorescent fusion protein
Target
 Labels pyruvate dehydrogenase in mitochondria
Common filter set
FITC
TRITC
Labels
GFP
RFP
Ex/Em (nm)
488/520
555/584
Signal-to-noise ratio
Photostability
Multiplexing
Yes
Yes
Live cells
Yes
Yes
Fixed cells
No
No
Fixable
Yes
Yes
Platform
Imaging 
Imaging 
Format
1 mL
1 mL
Cat. No.
 MitoTracker Green FMMitoTracker Orange CMTMRosMitoTracker Red CMXRosMitoTracker Red FMMitoTracker Deep Red FM
ReadoutFluorescent staining of mitochondria
TargetMitoTracker Dyes selectively label mitochondria based on membrane potential
Common filter setFITCTRITCTexas RedCy5Cy5
LabelsMitoTracker GreenMitoTracker OrangeMitoTracker RedMitoTracker Red FMMitoTracker Deep Red
Ex/Em (nm)490/516554/576579/599581/644644/665
Signal-to-noise ratio
Photostability
MultiplexingYesYesYesYesYes
Live cellsYesYesYesYesYes
Fixed cellsNoNoNoNoNo
FixableNoYesYesNoYes
PlatformImagingImagingImagingImagingImaging
Format20 x 50 μg20 x 50 μg20 x 50 μg20 x 50 μg20 x 50 μg
Cat. No.M7514M7510M7512M22425M22426
 
Readout
 Expression of fluorescent fusion protein
Target
 Labels pyruvate dehydrogenase in mitochondria
Common filter set
FITC
TRITC
Labels
GFP
RFP
Ex/Em (nm)
488/520
555/584
Signal-to-noise ratio
Photostability
Multiplexing
Yes
Yes
Live cells
Yes
Yes
Fixed cells
No
No
Fixable
Yes
Yes
Platform
Imaging 
Imaging 
Format
1 mL
1 mL
Cat. No.

MitoTracker probes

MitoTracker probes are cell-permeant mitochondria stains that contain a mildly thiol-reactive chloromethyl moiety. Following incubation, MitoTracker dyes passively diffuse across the plasma membrane and accumulate in the mitochondria of live cells. These dyes are offered in a range of wavelengths that can all be used for mitochondrial localization in multicolor experiments (Figures 1–3).

Signal retention of the MitoTracker probes is variable after cell fixation. MitoTracker Green and MitoTracker Red lose signal, while MitoTracker Orange CMTMRos, MitoTracker Red CMXRos, and MitoTracker Deep Red are well retained. Cells stained with MitoTracker Deep Red can be subsequently permeabilized and still retain its staining pattern.

MitoTracker Orange CM-H2TMRos and MitoTracker Red CM-H2XRos are additional mitochondrial stains. These probes do not fluoresce until they enter live cells, where they are oxidized to become fluorescent and then are sequestered in the mitochondria.

Learn more about mitochondrial functional assays

Microscopic image of cells stained with green mitochondria, blue lysosomes, and deep red tubulin

Figure 1. MitoTracker Green FM stained cells. U2OS cells labeled using LysoTracker Blue DND-22, MitoTracker Green FM, and Tubulin Tracker Deep Red show multiplexing capability and staining specificity. Cells were imaged in Gibco HBSS buffer containing calcium and magnesium, supplemented with 1X Probenecid solution. Images were generated using an EVOS FL Auto 2 Imaging System with an Olympus 60X Super Apochromat Oil objective using DAPI, GFP, and Cy5 EVOS light cubes.

Microscopic image of cells stained with orange mitochondria, deep red tubulin, and blue nucleus

Figure 2. MitoTracker Orange CMTMRos stained cells.Human Cardiac Arterial Smooth Muscle (HCASM) primary cells labeled using NucBlue Live ReadyProbes Reagent, MitoTracker Orange CMTMRos, and Tubulin Tracker Deep Red show multiplexing capability and staining specificity. Cells were imaged in Gibco HBSS buffer containing calcium and magnesium, supplemented with 1X Probenecid solution. Images were generated using an EVOS FL Auto 2 Imaging System with an Olympus 100X Super Apochromat Oil objective using DAPI, RFP, and Cy5 EVOS light cubes.

Microscopic image of cells stained with red mitochondria and green tubulin

Figure 3. MitoTracker Red CMXRos stained cells. HeLa cells labeled using Tubulin Tracker Green Variety Pack and MitoTracker Red CMXRos show multiplexing capability and uniformity of staining. Cells were imaged in Gibco HBSS buffer containing calcium and magnesium, supplemented with 1X Probenecid solution. Images were generated using an EVOS FL Auto 2 Imaging System with an Olympus 20X Super Apochromat objective using GFP and Texas Red EVOS light cubes.

Mitochondrial fluorescent fusion proteins

CellLight fluorescent fusion proteins can be used to stain mitochondria and follow the dynamics of mitochondria behavior in live cells independent of membrane potential. Thus, they can be used in combination with MitoTracker dyes to investigate relationships between mitochondria morphology and membrane potential. CellLight Mitochondria-GFP (Figure 4) and CellLight Mitochondria-RFP (Figure 5) are ready-to-use constructs that use the leader sequence of E1 alpha-pyruvate dehydrogenase (3.1 kDa) to target mitochondria.

Introducing CellLight fluorescent fusion proteins involves a simple transfection step, using the BacMam technology, and they work like cell stains with minimal toxicity or chemical disruption. These mitochondrial fusion proteins are compatible with other fluorescent probes for multiplex analysis in live cells, or after formaldehyde fixation for colocalization studies.

Learn more about these and other CellLight fluorescent reagents

Microscopic image of cells stained with green mitochondria, red talin, and blue nuclei
Figure 4. Live cell imaging with CellLight Mitochondria-GFP. HeLa cells were transduced with CellLight Mitochondria-GFP and CellLight Talin-RFP. The following day, cells were stained with Hoechst 33342 and imaging was performed on live cells using a DeltaVision Core microscope and standard DAPI/FITC/TRITC filter sets.
Microscopic image of cells stained with red mitochondria, green tubulin, and blue nucleus
Figure 5. CellLight Mitochondria-RFP transduced HeLa cells. HeLa cells labeled using NucBlue Live ReadyProbes ReagentTubulin Tracker Green Variety Pack, and CellLight Mitochondria-RFP BacMam 2.0 show multiplexing capability and staining specificity. Cells were imaged in Gibco HBSS buffer containing calcium and magnesium, supplemented with 1X Probenecid solution. Images were generated using an EVOS FL Auto 2 Imaging System with an Olympus 60X Super Apochromat Oil objective using DAPI, GFP, and RFP EVOS light cubes.

References

Stylesheet for Classic Wide Template adjustments

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