LIVE/DEAD™ Reduced Biohazard Cell Viability Kit #1, green & red fluorescence

Citas y referencias (37)

Invitrogen™

LIVE/DEAD™ Reduced Biohazard Cell Viability Kit #1, green & red fluorescence

El kit 1 de viabilidad celular de riesgo biológico reducido LIVE/DEAD es un kit de viabilidad celular práctico y fácilMás información

Número de catálogo	Cantidad
L7013	1 kit

Número de catálogo L7013

Precio (CLP)

370.297

Añadir al carro de la compra

Cantidad:

1 kit

Precio (CLP)

370.297

Añadir al carro de la compra

El kit 1 de viabilidad celular de riesgo biológico reducido LIVE/DEAD es un kit de viabilidad celular práctico y fácil de usar que está diseñado para reducir el riesgo asociado con la manipulación de posibles riesgos biológicos como patógenos virales, bacterianos o protozoarios. El ensayo controla la viabilidad en función de la integridad de la membrana de la célula. Las células con una membrana comprometida que se consideran muertas o moribundas se tiñen de rojo, mientras que las células con una membrana intacta se teñirán de verde.

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

Especificaciones

Tipo de célulaCélulas eucariotas

DescripciónKit de viabilidad celular para reducción del riesgo biológico LIVE/DEAD™ n.º 1, fluorescencia verde y roja

Método de detecciónFluorescente

Tipo de coloranteOtras etiquetas o colorantes

FormatoTubos, placa de 96 pocillos, portaobjetos

Cantidad1 kit

Condiciones de envíoTemperatura ambiente

ColorVerde, rojo

Emission516, 617 nm

Excitation Wavelength Range490 nm

Para utilizar con (aplicación)Ensayo de viabilidad

Para utilizar con (equipo)Microscopio de fluorescencia, Citómetro de flujo, Lector de microplacas

Línea de productosLIVE/DEAD

Tipo de productoKit de viabilidad celular

Unit SizeEach

Contenido y almacenamiento

Almacenar en el congelador de -5 °C a -30 °C y proteger de la luz.

Preguntas frecuentes

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 60^oC 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 -20^oC 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.

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.

Citations & References (37)

Citations & References

Abstract

Neurite degeneration induced by heme deficiency mediated via inhibition of NMDA receptor-dependent extracellular signal-regulated kinase 1/2 activation.

Authors:Chernova T, Steinert JR, Guerin CJ, Nicotera P, Forsythe ID, Smith AG,

Journal:J Neurosci

PubMed ID:17687025

The early stages of many neurodegenerative diseases and age-related degeneration are characterized by neurite damage and compromised synaptic function that precede neuronal cell death. We investigated the signaling mechanisms underlying neurite degeneration using cortical neuron cultures. Inhibition of heme synthesis caused neurite damage, without neuronal death, and was mediated by ... More

Synthesis and characterization of a novel glycopolymer with protective activity toward human anti-alpha-Gal antibodies.

Authors:Vetere A, Donati I, Campa C, Semeraro S, Gamini A, Paoletti S,

Journal:Glycobiology

PubMed ID:12042251

'An efficient and rapid synthesis of the derivative of the biocompatible polymer poly(styrene co-maleic acid) with Linear B disaccharide (Galili antigen) was achieved. The oligosaccharide portion was obtained by a transglycosylation reaction catalyzed by coffee bean alpha-D-galactosidase using p-nitrophenyl-alpha-D-galactopyranoside both as donor and as acceptor. The reaction was carried out ... More

Increased atrial and brain natriuretic peptides in adults with cyanotic congenital heart disease: enhanced understanding of the relationship between hypoxia and natriuretic peptide secretion.

Authors:Hopkins WE, Chen Z, Fukagawa NK, Hall C, Knot HJ, LeWinter MM,

Journal:Circulation

PubMed ID:15173030

'Brain natriuretic peptide (BNP) levels are used in the evaluation of patients with heart disease, yet there is little understanding of the effect of hypoxia on natriuretic peptide secretion. Furthermore, recent data suggest that oxytocin may mediate stretch-induced atrial natriuretic peptide (ANP) secretion. Ten patients with cyanotic congenital heart defects ... More

Automated image analysis of live/dead staining of the fungus Aureobasidium pullulans on microscope slides and leaf surfaces.

Authors:Nelson CD, Spear RN, Andrews JH

Journal:Biotechniques

PubMed ID:11056819

'An image analysis program and protocol for the identification and enumeration of live versus dead cells of the yeast-like fungus Aureobasidium pullulans was developed for both populations on microscope slides and leaf surfaces. Live cells took up CellTracker Blue, while nonviable cells stained with DEAD Red. Image analysis macro programs ... More

Rapid reduction of intracellular glutathione in human bronchial epithelial cells exposed to occupational levels of toluene diisocyanate.

Authors:Lantz RC, Lemus R, Lange RW, Karol MH

Journal:Toxicol Sci

PubMed ID:11248147

'Toluene diisocyanate (TDI) is a recognized chemical asthmogen, yet the mechanism of this toxicity and the molecular reactions involved have not been elucidated. We have previously shown that TDI vapor forms adducts with the apical surface of the respiratory epithelium, and that it colocalizes with ciliary tubulin. In vitro, we ... More

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