MitoTracker™ Dyes for Mitochondria Labeling
MitoTracker™ Dyes for Mitochondria Labeling
Citas y referencias (62)
Invitrogen™

MitoTracker™ Dyes for Mitochondria Labeling

These mitochondria dyes are specially packaged in vials of 50 μg each to create freshly reconstituted dyes without the impact of freeze-thaw cycles to aid in a simplified sample prep for cell analysis workflow.
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Número de catálogoDescripciónIntervalo de longitud de onda de excitación
M7513MitoTracker Red CM-H2Xros579⁄599
M22426MitoTracker Deep Red FM644⁄665
M22425MitoTracker™ Red FM581⁄644
M7512MitoTracker™ Red CMXRos579/599
M7514MitoTracker™ Green FM490⁄516
M7510MitoTracker Orange CMTMRos554⁄576
M7511MitoTracker Orange CM-H2TMRos554⁄576
Número de catálogo M7513
Precio (CLP)
556.690
Each
Añadir al carro de la compra
Descripción:
MitoTracker Red CM-H2Xros
Intervalo de longitud de onda de excitación:
579⁄599
Precio (CLP)
556.690
Each
Añadir al carro de la compra

Rosamine & carbocyanine-based staining dyes MitoTracker Orange CMTMRos, Red CMXRos, Orange CM-H2TMRos, Red CM-H2XRos, Red FM, Green FM, & Deep Red FM enable mitochondria visualization with fluorescent imaging. These mitochondria dyes are specially packaged in vials of 50 μg each to create freshly reconstituted dyes without the impact of freeze-thaw cycles to aid in a simplified sample prep for cell analysis workflow.

Rosamine-based MitoTracker dyes for mitochondria labeling

Cell-permeant MitoTracker probes stain active mitochondria in live cells for labeling and localization in fluorescent cell imaging. Our rosamine-based mitochondrial staining dyes include MitoTracker Orange CMTMRos, a derivative of tetramethylrosamine, and MitoTracker Red CMXRos, a derivative of X-rosamine. MitoTracker Orange CM-H2TMRos and MitoTracker Red CM-H2XRos are reduced, nonfluorescent versions of the rosamine-based MitoTracker dyes that fluoresce upon oxidation. The fluorescent signal from the rosamine-based MitoTracker dyes is retained in the mitochondria even after aldehyde fixation and detergent permeabilization, making these mitochondria dyes flexible for many workflows including applications that require subsequent processing such as immunocytochemistry or in situ hybridization. MitoTrackerRed and Orange are well suited for multicolor labeling experiments because their fluorescence is well resolved from the green fluorescence of other probes.

Carbocyanine-based MitoTracker dyes for mitochondria labeling

Cell-permeant MitoTracker dyes stain active mitochondria in live cells for mitochondrial labeling and localization in fluorescent cell imaging. The carbocyanine-based dyes MitoTracker Green FM and MitoTracker Red FM accumulate in active mitochondria but are not well-retained in mitochondria after aldehyde fixation. The carbocyanine-based MitoTracker Deep Red FM stains active mitochondrial in live cells and is well-retained in mitochondria after aldehyde fixation and subsequent permeabilization with detergents for applications that require subsequent processing such as immunocytochemistry or in situ hybridization. MitoTracker Red FM and MitoTracker Deep Red FM are well suited for multicolor labeling experiments because their red fluorescence is well resolved from the green fluorescence of other probes.

Benefits of using MitoTracker mitochondria labeling dyes

MitoTracker dyes are provided in vials of 50 μg of lyophilized powder ready for reconstitution. To label mitochondria, live cells are simply incubated with the MitoTracker probe of your choice. The mitochondrial staining dyes passively diffuse across the plasma membrane and accumulate in active mitochondria. The MitoTracker dyes are offered in a range of wavelengths and can be used for mitochondrial localization in multicolor experiments.

Conventional fluorescent stains such as tetramethylrosamine and rhodamine 123 are readily sequestered by active mitochondria and are reversible in dynamic membrane potential measurements as they easily wash out of cells upon loss in membrane potential. In contrast, MitoTracker dyes contain a mildly thiol-reactive chloromethyl moiety so that mitochondrial staining is retained if the mitochondrial membrane potential is lost, allowing many of the MitoTracker dyes to be retained during cell fixation.

Throughout the cell life cycle, mitochondria use oxidizable substrates to produce an electrochemical proton gradient across the mitochondrial membrane (whose potential is negative), resulting in ATP production. MitoTracker dyes are ideal probes for mitochondria staining in experiments studying the cell cycle or processes such as apoptosis and other end point assays. MitoTracker dyes are also available for flow cytometry applications (Cat. No. M46750, M46751, M46752, and M46753).

Related products for mitochondrial membrane potential

For studying dynamic mitochondria membrane potential specifically, we recommend using JC-1 (cationic carbocyanine dye, Cat. No. T3168) or TMRM (tetramethyl rhodamine methyl ester, Cat. No. I34361) dyes. The MitoProbe JC-1 Assay Kit (Cat. No. M34152) contains the JC-1 dye in addition to the potent mitochondrial membrane-potential disrupter, CCCP, which depolarizes the mitochondrial membrane. These reagents can provide compensatory controls to correctly compensate green-to-red fluorescence ratio. TMRM is used for the detection of dynamic measurement of mitochondrial membrane potential.

Para uso exclusivo en investigación. No apto para uso en procedimientos diagnósticos.

Especificaciones
ColorRojo
DescripciónMitoTracker Red CM-H2Xros
Método de detecciónFluorescente
Intervalo de longitud de onda de excitación579⁄599
Para utilizar con (equipo)Microscopio de fluorescencia, citómetro de flujo, lector de microplacas
FormatoSpecial packaging
Línea de productosMitoTracker
Cantidad20 x 50 μg
Condiciones de envíoTemperatura ambiente
Tipo de etiquetaFluorescent Dye
Tipo de productoTinte
SubCellular LocalizationMitocondrias
Unit SizeEach
Contenido y almacenamiento
Almacenar en el congelador de -5 °C a -30 °C y proteger de la luz.

Preguntas frecuentes

It looks like my Mitotracker dye is staining more than just the mitochondria. Why?

This is typically a result of using too high of a concentration of the Mitotracker dye. Most organic dyes are used in the low micromolar range. The MitoTracker dyes are used at a much lower concentration, around 50–200 nanomolar. Higher concentrations can cause background fluorescence and non-mitochondrial staining.

Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.

I am testing mitochondrial membrane potential, but my untreated cells are fluorescing, and I'm not seeing a significant difference in my test sample.

Regardless of which dye you use - tetramethylrhodamine, methyl ester (TMRM), JC-1 or MitoTracker - untreated cells will fluoresce. It's just that cells with reduced mitochondrial membrane potential will fluoresce less. It is the degree of change which is important. JC-1 dye not only changes intensity, but has a ratiometric spectral change in excitation and emission. It is very important to have an untreated control as well as a positive control treated with a mitochondrial membrane potential destabilizer, such as CCCP or FCCP. Most mitochondrial stains are only for use with live cells, as the signal will not be retained to the same degree with fixation.

Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.

Citations & References (62)

Citations & References
Abstract
Mitochondrial transcription factor A induction by redox activation of nuclear respiratory factor 1.
Authors:Piantadosi CA,Suliman HB
Journal:The Journal of biological chemistry
PubMed ID:16230352
MRP2 and acquired tolerance to inorganic arsenic in the kidney of killifish (Fundulus heteroclitus).
Authors:Miller DS, Shaw JR, Stanton CR, Barnaby R, Karlson KH, Hamilton JW, Stanton BA,
Journal:Toxicol Sci
PubMed ID:17324950
'We used proximal tubules isolated from the killifish, Fundulus heteroclitus, to examine the effect of environmentally relevant, sublethal levels of arsenic on the function and expression of MRP2, an ABC transporter that transports xenobiotics into urine, including arsenic-glutathione conjugates. Exposure of fish to arsenic as sodium arsenite (4-14 days) increased ... More
Circulating white blood cells and platelets amplify oxidative stress in heart failure.
Authors:Ijsselmuiden AJ, Musters RJ, de Ruiter G, van Heerebeek L, Alderse-Baas F, van Schilfgaarde M, Leyte A, Tangelder GJ, Laarman GJ, Paulus WJ,
Journal:Nat Clin Pract Cardiovasc Med
PubMed ID:18957960
'BACKGROUND: Mitochondria of circulating white blood cells (WBC) and platelets sense oxidative stress during capillary passage and react by producing reactive oxygen species (ROS). Although evidence indicates that congestive heart failure (CHF) is associated with oxidative stress, the role of WBC and platelets as mediators in CHF has not been ... More
Two-photon fluorescence absorption and emission spectra of dyes relevant for cell imaging.
Authors:Bestvater F, Spiess E, Stobrawa G, Hacker M, Feurer T, Porwol T, Berchner-Pfannschmidt U, Wotzlaw C, Acker H
Journal:J Microsc
PubMed ID:12423261
'Two-photon absorption and emission spectra for fluorophores relevant in cell imaging were measured using a 45 fs Ti:sapphire laser, a continuously tuneable optical parametric amplifier for the excitation range 580-1150 nm and an optical multichannel analyser. The measurements included DNA stains, fluorescent dyes coupled to antibodies as well as organelle ... More
Mitochondrial transmembrane potential changes support the concept of mitochondrial heterogeneity during apoptosis.
Authors:Krysko DV, Roels F, Leybaert L, D'Herde K
Journal:J Histochem Cytochem
PubMed ID:11561012
'Dissipation of mitochondrial membrane potential (DeltaPsi(m)) and release of cytochrome c from mitochondria appear to be key events during apoptosis. The precise relationship (cause or consequence) between both is currently unclear. We previously showed in a model of serum-free cultured granulosa explants that cytochrome c is retained in a subset ... More
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