Click-iT™ TUNEL Alexa Fluor Imaging Assays for Microscopy & HCS

Citas y referencias (27)

Invitrogen™

Click-iT™ TUNEL Alexa Fluor Imaging Assays for Microscopy & HCS

Name: Click-iT™ TUNEL Alexa Fluor Imaging Assays for Microscopy & HCS
SKU: C10246
Price: 1.198.021 CLP

Detecte células apoptóticas con kits de ensayo Click-iT TUNEL, que ofrecen una fácil incorporación de colorante Alexa Fluor y se pueden multiplexar con GFP y RFP.

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Número de catálogo	Color	Etiqueta o tinte
C10246	Rojo	Alexa Fluor™ 594, Hoechst 33342
C10247	Rojo lejano	Alexa Fluor™ 647, Hoechst 33342
C10245	Verde	Alexa Fluor™ 488, Hoechst 33342

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Número de catálogo C10246

Precio (CLP)

1.198.021

Each

Añadir al carro de la compra

Color:

Rojo

Etiqueta o tinte:

Alexa Fluor™ 594, Hoechst 33342

Precio (CLP)

1.198.021

Each

Añadir al carro de la compra

Detecte células apoptóticas de forma sencilla y eficaz en solo dos horas con los ensayos de adquisición de imágenes Click-iT TUNEL Alexa Fluor 488, 594 y 647. Diseñados para su uso con microscopía y detección de alto contenido (HCS), estos kits de ensayo TUNEL utilizan una reacción catalizada por cobre para detectar las dUTP modificadas por alquinos que se incorporan en los extremos de ADN terminal del ADN fragmentado. En comparación con los ensayos que utilizan otros nucleótidos modificados, estos kits de detección de apoptosis son rápidos (completos en dos horas) y pueden detectar un mayor porcentaje de células apoptóticas en condiciones idénticas. Los ensayos Click-iT TUNEL también permiten el multiplexing con métodos de detección de biomarcadores intracelulares y de superficie, incluidos los que miden la señal fluorescente de GFP o RFP.

La apoptosis se caracteriza por procesos celulares definidos, incluidos el redondeo celular, la vesiculación y la fragmentación del ADN. El ensayo TUNEL es el método analítico más utilizado para detectar ADN fragmentado en células apoptóticas en muestras de tejido, comenzando con la incorporación de dUTP modificadas en los extremos 3’-OH del ADN fragmentado. Las dUTP a menudo incluyen una molécula de fluoróforo. Debido al tamaño del fluoróforo, las dUTP modificadas pueden mostrar unas tasas de incorporación inferiores a las esperadas, lo que puede afectar a la sensibilidad del ensayo TUNEL. Con bastante frecuencia, los fluoróforos utilizados en kits de ensayo TUNEL disponibles actualmente presentan decoloración fotográfica y problemas de solapación espectral fluorescente, que reducen la sensibilidad y la capacidad de multiplex de estos ensayos.

El ensayo Click-iT Plus TUNEL se ha desarrollado para abordar estos problemas y se basa en una reacción catalizada de cobre (I) (es decir, clic) entre una azida y un alquino. El pequeño tamaño de la azida Alexa Fluor, que tiene un peso molecular de aproximadamente 1 kDa, permite una incorporación más sencilla del colorante Alexa Fluor 488, 594 o 647 en muestras complejas, en comparación con anticuerpos mayores (peso molecular ˜ 100 000 Da). Esto permite una permeabilización o fijación suave y un tiempo de respuesta más rápido del ensayo (aproximadamente dos horas), así como la detección de un porcentaje más alto de células apoptóticas en condiciones idénticas. A causa de sus condiciones de reacción suaves, el ensayo Click-iT Plus TUNEL también permite el multiplexing con colorantes o proteínas fluorescentes.

Los ensayos de adquisición de imágenes Click-iT TUNEL Alexa Fluor contienen todos los componentes necesarios para detectar de forma precisa y fiable la apoptosis en células adherentes cultivadas en cubreobjetos o microplacas de 96 pocillos, y también incluyen ADNasa I para generar roturas de cadena para el control positivo.

For Research Use Only. Not for use in diagnostic procedures.

Especificaciones

ColorRojo

DescripciónEnsayo de adquisición de imágenes Click-iT TUNEL Alexa Fluor™ 594

Excitación/emisión590/617

Para utilizar con (equipo)Microscopio de fluorescencia, instrumento de alto contenido

Tipo de etiquetaColorantes Alexa Fluor™, colorantes clásicos

Etiqueta o tinteAlexa Fluor™ 594, Hoechst 33342

N.º de reacciones1 x 96 pruebas o 50 cubreobjetos

Línea de productosClick-iT

Tipo de productoEnsayo de adquisición de imágenes

Cantidad1 kit

Condiciones de envíoHielo seco

Requisitos de almacenamientoAlmacene a ≤ 20 °C y protéjalo de la luz.

Método de detecciónFluorescencia

FormatoPlaca de 96 pocillos

Unit SizeEach

Preguntas frecuentes

I need to test cells for apoptosis after they have been formaldehyde-fixed and permeabilized. What dye or conjugate do you recommend? Will Annexin V conjugates work?

We do not recommend Annexin V for post-fix labeling, since fixation inactivates the function of the translocase; fixed samples would show mostly uniform labeling with Annexin V. The only options you have for apoptosis assays after fixation are to use an anti-caspase antibody or perform a TUNEL assay, such as with the Click-iT TUNEL Imaging kits.

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

Can I use Click-iT TUNEL Alexa Fluor Imaging Assays for Microscopy & HCS (Cat. No. C10246) for flow cytometry?

We have not validated the use of Click‐iT TUNEL assay for flow cytometry. Theoretically, any Click‐iT TUNEL assay for imaging can be adapted to be used with flow cytometry. In general, follow the protocol as provided but spin down the suspension cells after every step. Start with about 10∧6 cells at about 10∧7 cell/mL. Please note that flow cytometry is more sensitive than fluorescence imaging, so you should use between 1/5th to 1/10th of the azide dye detection reagent in the click reaction. All other concentrations of the click reaction reagents should stay the same. We recommend using the Click‐iT Plus TUNEL assays (C10617, C10618, C10619), as the detection reagent is provided in a separate vial, enabling you to modify the concentration used. The Click‐iT Plus TUNEL assay protocol can be found on the following link.

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

I am observing high non-specific background when I image my Click-iT EdU TUNEL-labeled samples. What is causing this and what can I do to reduce the background?

The click reaction is very selective between an azide and alkyne. No other side reactions are possible in a biological system. Any non-specific background is due to non-covalent binding of the dye to various cellular components. The Select FX Signal Enhancer is not effective at reducing non-specific charge-based binding of dyes following the click reaction; we do not recommend its use with the Click-iT detection reagents. The best method to reduce background is to increase the number of BSA washes. You should always do a no-dye or no-click reaction control under the same processing and detection conditions to verify that the background is actually due to the dye and not autofluorescence. You should also perform the complete click reaction on a no-TdT enzyme control sample to verify the specificity of the click reaction signal.

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

I notice that when I post-stain my cells with DAPI after performing the click reaction to detect EdU incorporation, my DAPI signal is lower compared to my no-click reaction control samples. What causes the reduction in DAPI signal?

The copper in the click reaction denatures DNA to a small extent (although not as much as is required for efficient BrdU detection), which can affect the binding affinity of DNA dyes including DAPI and Hoechst stain. This effect should only be apparent with the classic EdU kits and not the Click-iT Plus EdU kits, which use a lower copper concentration.

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

View all Click-iT™ TUNEL Alexa Fluor Imaging Assays for Microscopy & HCS FAQs

Citations & References (27)

Citations & References

Abstract

Involvement of Exo1b in DNA damage-induced apoptosis.

Authors:Bolderson E, Richard DJ, Edelmann W, Khanna KK,

Journal:Nucleic Acids Res

PubMed ID:19339515

'Apoptosis is essential for the maintenance of inherited genomic integrity. During DNA damage-induced apoptosis, mechanisms of cell survival, such as DNA repair are inactivated to allow cell death to proceed. Here, we describe a role for the mammalian DNA repair enzyme Exonuclease 1 (Exo1) in DNA damage-induced apoptosis. Depletion of ... More

HSV activates Akt to trigger calcium release and promote viral entry: novel candidate target for treatment and suppression.

Authors:Cheshenko N, Trepanier JB, Stefanidou M, Buckley N, Gonzalez P, Jacobs W, Herold BC,

Journal:FASEB J

PubMed ID:23507869

HSV triggers intracellular calcium release to promote viral entry. We hypothesized that Akt signaling induces the calcium responses and contributes to HSV entry. Exposure of human cervical and primary genital tract epithelial, neuronal, or keratinocyte cells to HSV serotype 2 resulted in rapid phosphorylation of Akt. Silencing of Akt with ... More

Pharmacological inhibition of mitochondrial carbonic anhydrases protects mouse cerebral pericytes from high glucose-induced oxidative stress and apoptosis.

Authors:Shah GN, Price TO, Banks WA, Morofuji Y, Kovac A, Ercal N, Sorenson CM, Shin ES, Sheibani N,

Journal:J Pharmacol Exp Ther

PubMed ID:23249625

Diabetes-associated complications in the microvasculature of the brain are caused by oxidative stress, generated by overproduction of reactive oxygen species from hyperglycemia-induced accelerated oxidative metabolism of glucose. Pericytes, essential for the viability of the microvasculature, are especially susceptible to oxidative stress. Mitochondrial carbonic anhydrases, regulators of the oxidative metabolism of ... More

Dual suppression of hemangiogenesis and lymphangiogenesis by splice-shifting morpholinos targeting vascular endothelial growth factor receptor 2 (KDR).

Authors:Uehara H, Cho Y, Simonis J, Cahoon J, Archer B, Luo L, Das SK, Singh N, Ambati J, Ambati BK,

Journal:FASEB J

PubMed ID:22997228

The KDR gene, which participates in angiogenesis and lymphangiogenesis, produces two functionally distinct protein products, membrane-bound KDR (mbKDR) and its isoform, soluble KDR (sKDR). Since sKDR does not have a tyrosine kinase domain and does not dimerize, it is principally an antagonist of lymphangiogenesis by sequestering VEGF-C. Alternative polyadenylation of ... More

Mitochondrial Akt-regulated mitochondrial apoptosis signaling in cardiac muscle cells.

Authors:Su CC, Yang JY, Leu HB, Chen Y, Wang PH,

Journal:Am J Physiol Heart Circ Physiol

PubMed ID:22081709

We recently reported translocation and activation of Akt in cardiac mitochondria. This study was to determine whether activation of Akt in mitochondria could inhibit apoptosis of cardiac muscle cells. Insulin stimulation induced translocation of phosphorylated Akt to the mitochondria in primary cardiomyocytes. A mitochondria-targeted constitutively active Akt was overexpressed via ... More

View all Click-iT™ TUNEL Alexa Fluor Imaging Assays for Microscopy & HCS citations