LIVE/DEAD™ Fixable Far Red Dead Cell Stain Kit, for 633 or 635 nm excitation
LIVE/DEAD™ Fixable Far Red Dead Cell Stain Kit, for 633 or 635 nm excitation
Citations & References (10)
Invitrogen™

LIVE/DEAD™ Fixable Far Red Dead Cell Stain Kit, for 633 or 635 nm excitation

The LIVE/DEAD™ Fixable Far-Red Dead Cell Stain Kit is used to determine the viability of cells prior to the fixationRead more
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Catalog NumberQuantity
L10120200 Assays
L3497380 Assays
L34974400 Assays
Catalog number L10120
Price (JPY)
81,100
Each
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Quantity:
200 Assays
The LIVE/DEAD™ Fixable Far-Red Dead Cell Stain Kit is used to determine the viability of cells prior to the fixation and permeabilization required for intracellular antibody staining or prior to elimination of biohazardous materials using formaldehyde fixation. This kit has been optimized and validated for use with a red laser flow cytometer.

• Stable—dyes are freeze dried in separate vials to maintain stability

• Robust—staining pattern is the same before and after fixation

• Bright signal—allows for easy distinction between live/dead cells in single channel

View a selection guide for all fixable viability dyes for flow cytometry.

Stable
Unlike products that are sold in solution, the LIVE/DEAD™ Fixable Far-Red Stain has been conveniently packaged in 40-test vials to help ensure the stability and performance of the dye over time. Amine reactive dyes in solution will lose their effectiveness over a short period of time, therefore it is recommended to completely use the vial once rehydrated. If this is not possible, aliquot the vials in small volumes and store at -80°C, avoiding freeze-thaw cycles.

Robust
Dead cell discriminator stains can lose sensitivity after treatment with fixatives such as formaldehyde or ethanol-based fixation methods required for intracellular phosphorylation studies. The LIVE/DEAD™ Fixable Far-Red Stain is an amine reactive dye that binds covalently to intracellular and extracellular amines, and the staining pattern is preserved following formaldehyde fixation.

Optimal brightness
The LIVE/DEAD™ Fixable Far-Red Stain was selected based on its fluorescent properties to provide a bright signal when excited with a red laser. The far-red fluorescent reactive dye has an excitation maximum of ∼633 nm making it ideal for use with the red or HeNe laser with an emission of ∼655 nm. Since live and dead cells can be discriminated using a single dye and a single channel of a flow cytometer, it is an ideal choice for multi-color experiments.

How it works
In cells with compromised membranes, the dye reacts with free amines both in the cell interior and on the cell surface, yielding intense fluorescent staining. In viable cells, the dye's reactivity is restricted to the cell-surface amines, resulting in less intense fluorescence. The difference in intensity is typically greater than 50-fold between live and dead cells, allowing for easy discrimination.

Colors available
LIVE/DEAD™ Fixable Dead Cell Stains are available in a wide variety of colors to meet your multi-color panel needs.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Cell PermeabilityImpermeant
Cell TypeEukaryotic Cells
DescriptionLIVE/DEAD™ Fixable Far Red Dead Cell Stain Kit, for 633 or 635 nm excitation
Detection MethodFluorescence
Dye TypeLIVE/DEAD™ Fixable Far Red Dead Cell Stain
FormSolid
FormatTube(s)
Quantity200 Assays
Shipping ConditionRoom Temperature
SolubilityDMSO (Dimethylsulfoxide)
ColorFar-red
Emission655
Excitation Wavelength Range633 nm
For Use With (Application)Viability Assay
For Use With (Equipment)Flow Cytometer
Product LineLIVE/DEAD
Product TypeStain
Unit SizeEach
Contents & Storage
Contains 5 vials of LIVE/DEAD™ fixable dead cell stain and 500 μL DMSO.

Store at -20°C.

Frequently asked questions (FAQs)

I need to use a dead cell control for my viability assay. Do you have a protocol for killing cells for this?

Heat killing is commonly used. Place your cells in a tube in buffer and heat at 60oC for 20 minutes. You can also kill your cells by fixing them with ice cold 70% ethanol for 15 minutes. The ethanol-killed cells can then be stored at -20oC until needed, at which point you wash out the ethanol and replace with buffer.

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

Regarding the LIVE/DEAD Fixable Dead Cell Stain Kits, which can discriminate between live and dead cells using flow cytometry with one emission wavelength. Can these kits be used with microscopy?

This dye gives a dim surface label for live cells, but is internalized and gives a brighter signal for dead cells. Flow cytometry is a very sensitive technique and can easily distinguish between the two populations. Microscopy is not as sensitive and may not be able to distinguish the cells because of a less sensitive detector.

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

How do I prepare dead cell controls for LIVE/DEAD cell viability assays?

There are two easy options. One is to heat-inactivate the cells by placing at 60 degrees C for 20 minutes. The second is to subject the cells to 70% ethanol. Alcohol-fixed cells can be stored indefinitely in the freezer until use, potentially up to several years.

Centrifuge cells, pellet, and remove supernatant.
Fix cells: Add 10 mL ice cold 70% ETOH to a 15 mL tube containing the cell pellet, adding dropwise at first while vortexing, mix well.
Store in freezer until use.
When ready to use, wash twice and resuspend in buffer of choice.

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

Which cell viability kits are compatible with fixation?

The LIVE/DEAD Fixable kits for flow cytometry analysis are compatible with fixation. These kits use amine-reactive cell-impermeant dyes that stain the cell surface of live cells and also the cytosol of dead cells-live cells are dim and dead cells are bright. Since the dye is covalently bound to the cells, it will be retained after fixation. Unfortunately, this method does not work well for imaging-based assays, as all cells are stained and it is difficult to distinguish bright dead cells from dim live cells with a microscope. Ethidium monoazide (EMA; Cat No. E1374) is a cell impermeant nucleic acid stain that can be applied to live cultures and stains only dead cells. After incubation and washing away unbound dye, the cells can be exposed to light to photoactivate EMA to crosslink to dead cell DNA. After crosslinking to dead cell DNA, the samples may be fixed and permeabilized. Image-IT DEAD Green Viability Stain (Cat. No. I10291) for imaging and high-content screening (HCS) analysis is a live-cell impermeant DNA binding dye that is compatible with fixation and permeabilization with good retention up to 48 hours. We also have a LIVE/DEAD Reduced Biohazard Cell Viability Kit (Cat. No. L7013) for imaging and flow analysis that contains two DNA binding dyes, SYTO 10 and Dead Red, that are sufficiently retained to be analyzed soon after 4% glutaraldehyde fixation.
Note: In general, DNA-binding dyes and calcein AM are not compatible with fixation, as these dyes are not covalently bound to components of the cell and will thus slowly diffuse out of cells after fixation, gradually staining all cells as dead.

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

Why do I need to include a viability stain in my assays?

Many antibodies and stains will label dead cells. This will give you misleading data if you do not exclude the dead cells from your analysis. Of course, if you are labeling fixed cells, they are already dead and you do not need a viability stain. However, if you label your cells prior to fixation, then you need to use one of the LIVE/DEAD Fixable Dead Cell Stains.

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

View all LIVE/DEAD™ Fixable Far Red Dead Cell Stain Kit, for 633 or 635 nm excitation, 200 Assays FAQs

Citations & References (10)

Citations & References
Abstract
ERK acts in parallel to PKCd to mediate the connexin43-dependent potentiation of Runx2 activity by FGF2 in MC3T3 osteoblasts.
Authors:Niger C, Buo AM, Hebert C, Duggan BT, Williams MS, Stains JP,
Journal:Am J Physiol Cell Physiol
PubMed ID:22277757
'The gap junction protein, connexin43 (Cx43), plays an important role in skeletal biology. Previously, we have shown that Cx43 can enhance the signaling and transcriptional response to fibroblast growth factor 2 (FGF2) in osteoblasts by increasing protein kinase C-d (PKCd) activation to affect Runx2 activity. In the present study, we ... More
CD5-dependent CK2 activation pathway regulates threshold for T cell anergy.
Authors:Sestero CM, McGuire DJ, De Sarno P, Brantley EC, Soldevila G, Axtell RC, Raman C,
Journal:J Immunol
PubMed ID:22904299
'CD5 activates casein kinase 2 (CK2), a serine/threonine kinase that constitutively associates with the CK2-binding domain at the end of its cytoplasmic tail. To determine the physiological significance of CD5-dependent CK2 activation in T cells, we generated a knock-in mouse that expresses a CD5 protein containing a microdeletion with selective ... More
Levels of circulating endothelial cells are low in idiopathic pulmonary fibrosis and are further reduced by anti-fibrotic treatments.
Authors:De Biasi S, Cerri S, Bianchini E, Gibellini L, Persiani E, Montanari G, Luppi F, Carbonelli CM, Zucchi L, Bocchino M, Zamparelli AS, Vancheri C, Sgalla G, Richeldi L, Cossarizza A,
Journal:
PubMed ID:26552487
'It has been suggested that circulating fibrocytes and endothelial cells actively participate in the intense remodelling of the pulmonary vasculature in patients with idiopathic pulmonary fibrosis (IPF). Indeed, fibrotic areas exist that have fewer blood vessels, whereas adjacent non-fibrotic tissue is highly vascularized. The number of circulating endothelial cells (CEC) ... More
The oxysterol-CXCR2 axis plays a key role in the recruitment of tumor-promoting neutrophils.
Authors:Raccosta L, Fontana R, Maggioni D, Lanterna C, Villablanca EJ, Paniccia A, Musumeci A, Chiricozzi E, Trincavelli ML, Daniele S, Martini C, Gustafsson JA, Doglioni C, Feo SG, Leiva A, Ciampa MG, Mauri L, Sensi C, Prinetti A, Eberini I, Mora JR, Bordignon C, Steffensen KR, Sonnino S, Sozzani S, Traversari C, Russo V,
Journal:
PubMed ID:23897983
'Tumor-infiltrating immune cells can be conditioned by molecules released within the microenvironment to thwart antitumor immune responses, thereby facilitating tumor growth. Among immune cells, neutrophils play an important protumorigenic role by favoring neoangiogenesis and/or by suppressing antitumor immune responses. Tumor-derived oxysterols have recently been shown to favor tumor growth by ... More
ZRANB3 is a structure-specific ATP-dependent endonuclease involved in replication stress response.
Authors:Weston R, Peeters H, Ahel D,
Journal:Genes Dev
PubMed ID:22759634
To efficiently duplicate their genomic content, cells must overcome DNA lesions that interfere with processive DNA replication. These lesions may be removed and repaired, rather than just tolerated, to allow continuity of DNA replication on an undamaged DNA template. However, it is unclear how this is achieved at a molecular ... More
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