Kit de proliferación celular Click-iT™ EdU para adquisición de imágenes, colorante Alexa Fluor™ 555

Citas y referencias (30)

Invitrogen™

Kit de proliferación celular Click-iT™ EdU para adquisición de imágenes, colorante Alexa Fluor™ 555

El kit de proliferación celular Click-iT EdU para adquisición de imágenes es una excelente alternativa a los tradicionales ensayos deMás información

Número de catálogo	Cantidad
C10338	1 kit

Número de catálogo C10338

Precio (USD)

1.360,80

Añadir al carro de la compra

Cantidad:

1 kit

Precio (USD)

1.360,80

Añadir al carro de la compra

El kit de proliferación celular Click-iT EdU para adquisición de imágenes es una excelente alternativa a los tradicionales ensayos de proliferación que se ha optimizado para aplicaciones de microscopía de fluorescencia. En este ensayo, el análogo a la timidina modificado EdU se incorpora de forma eficaz al ADN recién sintetizado y etiquetado con fluorescencia mediante un colorante brillante y fotoestable Alexa Fluor™ en una reacción clic rápida y muy específica. Este etiquetado fluorescente de las células proliferantes es preciso y compatible con métodos de anticuerpos gracias al protocolo clic leve.

• Simple: funciona la primera vez, cada vez, en menos tiempo
• Eficaz: no es necesario realizar pasos de desnaturalización o tratamientos intensos
• Resultados ricos en contenido: mejor preservación de la morfología celular, la estructura del antígeno y la integridad del ADN
• Coherente: no depende de lotes de anticuerpos variables para la detección

Los métodos de detección de proliferación más exactos se basan en la incorporación y la medición de los análogos nucleósidos en ADN recién sintetizado con bromodesoxiuridina (BrdU), un análogo utilizado con frecuencia. El ADN etiquetado mediante BrdU se cuantifica mediante anticuerpos anti-BrdU tras la desnaturalización del ADN a través de métodos intensos (HCl, calor o enzimas) para exponer las moléculas de BrdU. Este paso tiene una larga duración y resulta difícil de llevar a cabo de manera uniforme. El tratamiento intenso también puede afectar negativamente a la calidad y la integridad de la muestra, lo que hace que la cotinción con otros anticuerpos resulte complicada.

Metodología de proliferación mejorada
El kit de proliferación celular Click-iT EdU para adquisición de imágenes ofrece una alternativa mejor a los ensayos de BrdU para medir la proliferación celular. EdU (5-etinil-2'-desoxiuridina) es un nucleósido análogo de la timidina que se incorpora al ADN durante la síntesis de ADN activa. Gracias a Click-iT™ EdU, basta con una permeabilización con detergente y una fijación suave para que el reactivo de detección Click-iT™ EdU basado en moléculas pequeñas obtenga acceso al ADN. Como consecuencia, el kit de adquisición de imágenes Click-iT™ EdU no solo es fácil de usar, sino que también es más exacto y compatible con el análisis del ciclo celular y otros objetivos extracelulares o intracelulares verdaderamente ricos en contenido y resultados.

Este kit está optimizado para aplicaciones de microscopía de fluorescencia; visite el área de tecnología de Click-iT™ de nuestro sitio web para acceder a kits diseñados para adquisición de imágenes de alto contenido, microplacas de fluorescencia o plataformas de citometría de flujo.

Obtenga más información sobre la tecnología Click-iT >
Busque más herramientas para la detección basada en imágenes de células proliferantes >

Notas:
El ensayo Click-iT™ puede emplearse en células en cultivo o in vivo siguiendo la administración de EdU a través de métodos de alimentación o inyección.
El ensayo Click-iT™ puede emplearse con BrdU en experimentos de pulso doble mediante el anticuerpo anti-BrdU (clon MoBu-1), que no presenta una reacción cruzada con EdU.
La tecnología Click-iT™ es compatible con inmunohistoquímica, inmunocitoquímica y colorantes fluorescentes que presentan tolerancia ante la fijación o se han diseñado para el etiquetado celular fijo.

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

Especificaciones

Método de detecciónFluorescente

Tipo de coloranteAlexa Fluor™ 555

FormatoPortaobjetos

Características ecológicasMenos peligroso

Cantidad1 kit

Condiciones de envíoTemperatura ambiente

ColorNaranja

EmissionVisible

Para utilizar con (aplicación)Ensayo de proliferación

Para utilizar con (equipo)Microscopio de fluorescencia

Línea de productosAlexa Fluor, Click-iT

Tipo de productoKit de proliferación celular

Unit SizeEach

Contenido y almacenamiento

Cada kit contiene suficiente material para realizar de 50 a 250 reacciones, dependiendo del volumen de la reacción (normalmente, entre 0,1 y 0,5 ml). Almacenar a una temperatura entre 2 —6 °C, desecar y proteger de la luz.

Preguntas frecuentes

I will be performing a cell proliferation assay using Click-iT EdU kit. At what point can I stop overnight, or do I have to perform all the steps continuously?

One may store the sample after fixation overnight in PBS at 4^oC. For longer storage (<1 week) , store in buffer with 1-2% formaldehyde or in formalin to limit microbial growth. If you use sodium azide as a microbial inhibitor, it must be completely removed prior to the Click-iT reaction.

Find additional tips, troubleshooting help, and resources within our Cell Viability, Proliferation, Cryopreservation, and Apoptosis Support Center.

A control for a Click-iT EdU labeling experiment uses no EdU and the Click-iT reaction using Alexa Fluor 594 azide. The mouse heart tissue sections are showing non-specific labeling in red, seen in particular clusters of cells. They don't overlap with DAPI. What is the problem?

The problem is likely not the Alexa Fluor 594 azide. Since there are no alkynes endogenous to mouse tissue, there is nothing for the dye-azide to bind to. Since the background doesn't overlap with nuclei (DAPI signal), this isn't an issue of unintended EdU labeling. This red is autofluorescence from red blood cells; they autofluoresce in the red and don't have nuclei. This can be confirmed by checking a completely unlabeled tissue section (no dye present at all) to see if they are still present and by examining the cells at high magnification and looking for corpuscular shape.

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

Can I combine Click-iT or Click-iT Plus reactions with phalloidin conjugates used for actin staining?

We do not recommend using phalloidin conjugates for staining actin in combination with traditional Click-iT or Click-iT Plus reactions since phalloidin is extremely sensitive to the presence of copper.

For staining actin in combination with traditional Click-iT or Click-iT Plus reactions, we recommend using anti-α-actin antibodies for staining actin in the cytoskeleton. You can find a list of our actin antibodies here.

Another option would be to use the Click-iT Plus Alexa Fluor Picolyl Azide Toolkit (Cat. Nos. C10641, C10642, C10643). These Click-iT Plus toolkits provide Copper and Copper protectant separately which makes it easier to titrate the copper concentration to obtain optimal labeling with minimal copper-mediated damage. You may need to optimize the click reaction with the lowest possible concentration of copper and then perform the phalloidin staining.

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

Are the Alexa Fluor azides from Click-iT EdU kits available separately?

Yes, but the standalone products are not shipped at the same amount as provided in the Click-iT EdU kits; the amount of dye-azide provided in the Click-iT kits is proprietary information. See these catalog numbers for the standalone products:
- Cat. No. A10266: Alexa Fluor 488 azide
- Cat. No. A10270: Alexa Fluor 594 azide
- Cat. No. A10277: Alexa Fluor 647 azide

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

I am observing no signal or very low specific signal for my click-labeled samples. What can I do to improve the signal?

The click reaction is only effective when copper is in the appropriate valency. Azides and alkynes will not react with each other without copper. Make sure that the click reaction mixture is used immediately after preparation when the copper (II) concentration is at its highest.
Do not use additive buffer that has turned yellow; it must be colorless to be active.
Cells need to be adequately fixed and permeabilized for the TdT enzyme and click reagents to have access to the nucleus. Tissue samples require digestion with proteinase K or other proteolytic enzymes for sufficient TdT access.
Some reagents can bind copper and reduce its effective concentration available to catalyze the click reaction. Do not include any metal chelator (e.g., EDTA, EGTA, citrate, etc.) in any buffer or reagent prior to the click reaction. Avoid buffers or reagents that include other metal ions that may be o xidized or reduced. It may be help to include extra wash steps on the cell or tissue sample before performing the click reaction.
You can repeat the click reaction with fresh reagents to try to improve signal. Increasing the click reaction time longer than 30 minutes will not improve a low signal. Performing a second, 30 minute incubation with fresh click reaction reagents is more effective at improving labeling.
Your cells may not be apoptotic. Prepare a DNase I-treated positive control to verify that the TdT enzymatic reaction and click labeling reaction are working correctly.

Find additional tips, troubleshooting help, and resources within our Labeling Chemistry Support Center.

View all Kit de proliferación celular Click-iT™ EdU para adquisición de imágenes, colorante Alexa Fluor™ 555 FAQs

Citations & References (30)

Citations & References

Abstract

Control of mitochondrial structure and function by the Yorkie/YAP oncogenic pathway.

Authors:Nagaraj R, Gururaja-Rao S, Jones KT, Slattery M, Negre N, Braas D, Christofk H, White KP, Mann R, Banerjee U,

Journal:Genes Dev

PubMed ID:22925885

Mitochondrial structure and function are highly dynamic, but the potential roles for cell signaling pathways in influencing these properties are not fully understood. Reduced mitochondrial function has been shown to cause cell cycle arrest, and a direct role of signaling pathways in controlling mitochondrial function during development and disease is ... More

Nonequilibrium dynamics of helix reorganization observed by transient 2D IR spectroscopy.

Authors:Tucker MJ, Abdo M, Courter JR, Chen J, Brown SP, Smith AB, Hochstrasser RM,

Journal:

PubMed ID:24106309

'The relaxation of helical structures very close to equilibrium is observed via transient 2D IR spectroscopy. An initial distribution of synthetically distorted helices having an unnatural bridge linking the 10th and 12th residues of an alanine-rich a-helix is released to evolve into the equilibrium distribution of a-helix conformations. The bridge ... More

De novo identification of VRC01 class HIV-1-neutralizing antibodies by next-generation sequencing of B-cell transcripts.

Authors:Zhu J, Wu X, Zhang B, McKee K, O'Dell S, Soto C, Zhou T, Casazza JP, Mullikin JC, Kwong PD, Mascola JR, Shapiro L, Becker J, Benjamin B, Blakesley R, Bouffard G, Brooks S, Coleman H, Dekhtyar M, Gregory M, Guan X, Gupta J, Han J, Hargrove A, Ho SL, Johnson T, Legaspi R, Lovett S, Maduro Q, Masiello C, Maskeri B, McDowell J, Montemayor C, Mullikin J, Park M, Riebow N, Schandler K, Schmidt B, Sison C, Stantripop M, Thomas J, Thomas P, Vemulapalli M, Young A,

Journal:

PubMed ID:24106303

'Next-generation sequencing of antibody transcripts provides a wealth of data, but the ability to identify function-specific antibodies solely on the basis of sequence has remained elusive. We previously characterized the VRC01 class of antibodies, which target the CD4-binding site on gp120, appear in multiple donors, and broadly neutralize HIV-1. Antibodies ... More

Model-driven optimization of multicomponent self-assembly processes.

Authors:Korevaar PA, Grenier C, Markvoort AJ, Schenning AP, de Greef TF, Meijer EW,

Journal:

PubMed ID:24101463

'Here, we report an engineering approach toward multicomponent self-assembly processes by developing a methodology to circumvent spurious, metastable assemblies. The formation of metastable aggregates often hampers self-assembly of molecular building blocks into the desired nanostructures. Strategies are explored to master the pathway complexity and avoid off-pathway aggregates by optimizing the ... More

Evidence for supernova injection into the solar nebula and the decoupling of r-process nucleosynthesis.

Authors:Brennecka GA, Borg LE, Wadhwa M,

Journal:

PubMed ID:24101483

'The isotopic composition of our Solar System reflects the blending of materials derived from numerous past nucleosynthetic events, each characterized by a distinct isotopic signature. We show that the isotopic compositions of elements spanning a large mass range in the earliest formed solids in our Solar System, calcium-aluminum-rich inclusions (CAIs), ... More

View all Kit de proliferación celular Click-iT™ EdU para adquisición de imágenes, colorante Alexa Fluor™ 555 citations