Search Thermo Fisher Scientific
Certificates
SDS
Citations & References (27)
Invitrogen™
Click-iT™ Plus TUNEL Assay Kits for In Situ Apoptosis Detection
Detect apoptosis in cells and tissues samples with Click-iT Plus TUNEL Assay kits, which offer easy dye incorporation and can be multiplexed with GFP and RFP.
Have Questions?
Change view
| Catalog Number | Color | Label or Dye |
|---|---|---|
| C10617 | Green | Alexa Fluor™ 488 |
| C10618 | Red | Alexa Fluor™ 594 |
| C10619 | Far-Red | Alexa Fluor™ 647 |
Catalog number C10617
Price (USD)
849.65
Online Exclusive
878.00Save 28.35 (3%)
Each
-
Color:
Green
Label or Dye:
Alexa Fluor™ 488
Price (USD)
849.65
Online Exclusive
878.00Save 28.35 (3%)
Each
Detect more apoptotic cells in tissues and cultured cell samples with the Click-iT Plus TUNEL Assay for In Situ Apoptosis Detection, which offers Alexa Fluor 488, 594, and 647 fluorescent dye options. This in situ apoptosis detection kit is optimized for tissue or cell samples and the dyes can be multiplexed with other dyes or proteins, such as GFP and RFP, and incorporated more readily into complex molecules due to their smaller size (compared with antibodies). This TUNEL assay kit is also very flexible and can be used to test 1–50 samples in a single experiment.
The Click-iT Plus TUNEL Alexa Fluor 488, 594, and 647 assays for in situ apoptosis detection can detect apoptotic cells in tissue and cultured cell samples through the incorporation of a small, highly specific labeling moiety and a bright fluorescent dye. After incorporation of the labeling moiety into DNA fragments, detection is achieved through a catalyzed “click” reaction using conditions mild enough to preserve the emitted fluorescent signal from GFP or RFP.
Other advantages of the Click-iT Plus TUNEL Assay for In Situ Apoptosis Detection include:
• Optimized for the detection of apoptotic cells in either tissue or cell samples
• Multiplex enabled—optimized to work with fluorescent dyes or proteins such as GFP and RFP
• Improved TUNEL assay—better label incorporation due to small reactive moiety
• Bright apoptotic signal—uses Alexa Fluor dyes, resulting in a stable, non-photobleaching fluorescent signal
• Flexibility—the assay can be configured to test 1–50 samples at a time
Fragmentation of cellular DNA is a hallmark of apoptosis. The TUNEL assay is the most widely used method to detect fragmented DNA in apoptotic cells or tissue samples. The TUNEL assay begins with incorporation of modified dUTP at the 3’-OH end of the fragmented DNA. The dUTP modification is often the addition of a fluorophore. Due to the size of the fluorophore, the modified dUTP can display lower than expected incorporation rates, which can affect the sensitivity of the TUNEL assay. Additionally, many fluorophores used in currently available TUNEL assay kits suffer from photobleaching and fluorescent spectral overlap issues, both of which reduce the sensitivity of and ability to multiplex the assay.
The Click-iT Plus TUNEL assay was developed to address these issues. The assay uses dUTP modified with an alkyne group (a small bio-orthogonal functional group), allowing the nucleotide to be more readily incorporated. After incorporation, a highly specific click reaction between the alkyne group and an Alexa Fluor picolyl azide fluorescent dye, and subsequent detection of that dye, results in a sensitive and specific assay for the detection of apoptotic cells or tissue samples. Because of its gentle reaction conditions, the Click-iT Plus TUNEL assay enables multiplexing with fluorescent proteins or dyes.
The Click-iT Plus TUNEL assay has been validated with several different formalin-fixed paraffin-embedded tissue types. In all cases, its ability to multiplex with fluorescent proteins and dyes was preserved. Additionally, the ability to stain actin using fluorescent-labeled phalloidin was also preserved.
The Click-iT Plus TUNEL assay contains all the reagents needed to detect apoptotic cells from either tissue or cell samples. The reagents supplied in this kit can be used to test 50 samples and can be configured to test 1–50 samples at a time.
Other advantages of the Click-iT Plus TUNEL Assay for In Situ Apoptosis Detection include:
• Optimized for the detection of apoptotic cells in either tissue or cell samples
• Multiplex enabled—optimized to work with fluorescent dyes or proteins such as GFP and RFP
• Improved TUNEL assay—better label incorporation due to small reactive moiety
• Bright apoptotic signal—uses Alexa Fluor dyes, resulting in a stable, non-photobleaching fluorescent signal
• Flexibility—the assay can be configured to test 1–50 samples at a time
Fragmentation of cellular DNA is a hallmark of apoptosis. The TUNEL assay is the most widely used method to detect fragmented DNA in apoptotic cells or tissue samples. The TUNEL assay begins with incorporation of modified dUTP at the 3’-OH end of the fragmented DNA. The dUTP modification is often the addition of a fluorophore. Due to the size of the fluorophore, the modified dUTP can display lower than expected incorporation rates, which can affect the sensitivity of the TUNEL assay. Additionally, many fluorophores used in currently available TUNEL assay kits suffer from photobleaching and fluorescent spectral overlap issues, both of which reduce the sensitivity of and ability to multiplex the assay.
The Click-iT Plus TUNEL assay was developed to address these issues. The assay uses dUTP modified with an alkyne group (a small bio-orthogonal functional group), allowing the nucleotide to be more readily incorporated. After incorporation, a highly specific click reaction between the alkyne group and an Alexa Fluor picolyl azide fluorescent dye, and subsequent detection of that dye, results in a sensitive and specific assay for the detection of apoptotic cells or tissue samples. Because of its gentle reaction conditions, the Click-iT Plus TUNEL assay enables multiplexing with fluorescent proteins or dyes.
The Click-iT Plus TUNEL assay has been validated with several different formalin-fixed paraffin-embedded tissue types. In all cases, its ability to multiplex with fluorescent proteins and dyes was preserved. Additionally, the ability to stain actin using fluorescent-labeled phalloidin was also preserved.
The Click-iT Plus TUNEL assay contains all the reagents needed to detect apoptotic cells from either tissue or cell samples. The reagents supplied in this kit can be used to test 50 samples and can be configured to test 1–50 samples at a time.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
ColorGreen
DescriptionClick-iT Plus TUNEL Assay for In Situ Apoptosis Detection, Alexa Fluor™ 488 dye
Excitation/Emission490/525
For Use With (Equipment)Fluorescence Microscope
Green FeaturesLess hazardous
Label TypeAlexa Fluor™ Dyes
Label or DyeAlexa Fluor™ 488
No. of Reactions50 coverslips
Product LineClick-iT
Product TypeTUNEL Assay
Quantity1 kit
Shipping ConditionDry Ice
Storage RequirementsStore at ≤20°C and protect from light.
Detection MethodFluorescence
FormatCoverslip
Unit SizeEach
Have questions about this product? Ask our AI assisted search.
This is an AI-powered search and may not always get things right. You can help us make it better with a thumbs up or down on individual answers or by selecting the “Give feedback" button. Your search history and customer login information may be retained by Thermo Fisher and processed in accordance with our
Privacy Notice.
Figures
Multiplexing the TUNEL signal with GFP and RFP
Click-iT® Plus TUNEL assay detects apoptotic cells in FFPE tissue
Click-iT® Plus TUNEL assay detects apoptotic cells & multiplexes with GFP and phalloidin in FFPE intestinal tissue
ICC comparison of Click-iT® Plus TUNEL with competitor assay
Click-iT® Plus TUNEL assay versus current Click-iT® TUNEL assay
Comparison of Click-iT® Plus TUNEL assay with competitor assays
Click-iT® Plus TUNEL assay detects apoptotic cells & multiplexes with GFP and phalloidin in FFPE kidney tissue
IHC Comparison of Click-iT® Plus TUNEL assay with competitor assay
Click-iT® Plus TUNEL assay detects apoptotic cells & multiplexes with GFP and phalloidin in FFPE kidney and intestine tissue
Customers who viewed this item also viewed
Documents & Downloads
Certificates
Search by lot number or partial lot number
Lot #Certificate TypeDateCatalog Number(s)
3028065Certificate of AnalysisMar 30, 2025C10619
3123539Certificate of AnalysisFeb 09, 2025C10618
1875965Certificate of AnalysisFeb 03, 2025C10617
3101978Certificate of AnalysisDec 23, 2024C10617
3026195Certificate of AnalysisOct 23, 2024C10619
5 results displayed, search above for a specific certificate
Safety Data Sheets
SDSProduct Information
Limited Use Label Licenses (LULL)
'
Limited Use Label License No. 402: Nucleic acid labeling and detection
Notice to Purchaser: If end-user or third party is interested in a commercial license, it should contact Harvard's Office of Technology Development, 1350 Massachusetts Avenue, Holyoke Center, Suite 727, Cambridge, MA 02138, (617) 495-3067.
Frequently asked questions (FAQs)
Alexa Fluor 488 has fluorescence excitation and emission maxima of 495/519 nm.
Find additional tips, troubleshooting help, and resources within our Cell Analysis Support Center.
One may store the sample after fixation overnight in PBS at 4oC. 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.
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.
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.
Yes. The Click-iT Plus TUNEL Assay Kits for In Situ Apoptosis Detection (Cat. Nos. C10617, C10618, C10619) is optimized for use with tissues and should work on zebrafish larvae, although it has not been internally validated with zebrafish larvae.
Find additional tips, troubleshooting help, and resources within our Cell Viability, Proliferation, Cryopreservation, and Apoptosis Support Center.
Citations & References (27)
Search citations by name, author, journal title or abstract text
Citations & References
Abstract
CD13 deficiency leads to increased oxidative stress and larger atherosclerotic lesions.
Journal:Atherosclerosis
PubMed ID:31229835
'Atherosclerosis is an inflammatory cardiovascular disorder characterized by accumulation of lipid-loaded macrophages in the intima. Prolonged accumulation leads to apoptosis of macrophages and eventually to progression of lesion development. Prevention of macrophage accumulation within the intima has been shown to reduce lesion formation. Since CD13 mediates trafficking of macrophages to
Loss of host-derived osteopontin creates a glioblastoma-promoting microenvironment.
Journal:Neuro Oncol
PubMed ID:29016864
'Microglia and periphery-derived monocytes infiltrate human and mouse glioblastoma and their density is positively correlated with malignancy. Using microarray and RNA sequencing, we have previously shown that glioblastoma-associated microglia/monocytes (GAMs) express osteopontin/SPP1.'
Signaling and physiological activity of the NO-donating agent TNICthio in human blood lymphocytes, Jurkat and MCF7 cell lines.
Journal:Mol Biol Rep
PubMed ID:30637625
'Signaling and physiological activities of the crystalline tetranitrosyl iron complex with thiosulfate-a NO-donor (TNICthio) were first studied on human cells in conditions of mono and combined application of H'
Differential susceptibility of mouse strains on pancreatic injury and regeneration in cerulein-induced pancreatitis.
Journal:Int J Clin Exp Pathol
PubMed ID:31966883
'Acute pancreatitis (AP), a common disease, causes significant morbidity and mortality in clinical practice. Our objective of this study was to establish an experimental mouse AP model with cerulein treatment and to explore the susceptibility of mouse strains on the severity of pancreatic injury and the subsequent repair and regeneration.
Spontaneous calcium waves in the developing enteric nervous system.
Journal:Dev Biol
PubMed ID:28528728
The enteric nervous system (ENS) is an extensive network of neurons in the gut wall that arises from neural crest-derived cells. Like other populations of neural crest cells, it is known that enteric neural crest-derived cells (ENCCs) influence the behaviour of each other and therefore must communicate. However, little is
27 total citations