AB113851

DCFDA / H2DCFDA - Cellular ROS Assay试剂盒

Name: DCFDA / H2DCFDA - Cellular ROS检测试剂盒 (ab113851)| Abcam中文官网
Brand: Abcam Limited
SKU: AB113851
Price: 4045 CNY
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Rating: 5 (11 reviews)

DCFDA / H2DCFDA - Cellular ROS Assay Kit

(11 Reviews)

(953 Publications)

DCFDA / H2DCFDA - Cellular ROS Assay Kit ab113851 is a complete assay kit for running a DCFDA assay to measure reactive oxygen species (ROS) in cell cultures.

- Designed to accelerate set up of a DCFDA assay
- Includes DCFDA, assay buffer, TBHP positive control, and full assay protocol
- Cited in over 700 publications
- In CiteAb's list of Top 100 most cited Assay Kits for 2024

8 Images

Cellular Activity - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Cellular Activity

Unknown

Cellular Activity - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

DCFDA ROS assay used to study Doxorubicin cardiotoxicity.

Kobashigawa et al. (Pubmed 25127116) used the DCFDA ROS assay ab113851 to investigate the causes of the protective effects of metformin (Met) treatment in Doxorubicin (Dox) induced cardiotoxicity.

They identified that in metformin treated H9c2 rat immortalized cardiomyoblasts, Met treatment reduced ROS levels induced by Dox (A). Values represent mean ± S.D. (n = 4).

In combination with other assays, they developed the hypothesis that Dox induces increased ROS expression, leading to increased calcium levels and cell death, and that Met reduces this effect by increasing AMPK expression.

Kobashigawa et al. (Pubmed 28056084)

Cellular Activity

AbReview73304****

Cellular Activity - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

ROS levels analysis in human immortalized cardiomyocytes cells with ab113851 under different treatment conditions.

Data are mean ± SEM of three different experiments. H2O2 800μM was used as Positive Control. The values of fluorescence intensity at each time point are indicated as the ratio of the value at specific t-time point on the value at time point zero (first measurement) (t-time point/t0). Briefly, cells were plated (seeding density 2.5 x 104 cells/cm2) in FBS-supplemented medium w/o phenol red onto a 96 black well plate. After 24 hours the cells were washed one time with 1X buffer (provided in the kit), then the cells were incubated with DFCDA 10 μM for 30 min at 37° C protected from light. Following incubation the wells were washed with PBS and the cells were exposed to treatments of interest in FBS-supplemented medium w/o phenol red. ROS production was determined immediately by measuring the formation of fluorescent dichloro fluorescein (DCF), using a PerkinElmer VICTOR3, at an Ex-485 and Em-535 nm. Measurements were done every 30 min for six hours. The value of fluorescence intensity at each time point is reported. The value reported was obtained by the ratio of fluorescence at specific time point on fluorescence at time 0, which was measured immediately after DCFDA incubation.

This image is courtesy of an anonymous Abreview

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

FuncS

Supplier Data

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Jurkat cells were labeled with DCFDA (20 μM) or unlabeled (none) and then cultured an additional 3 hours with or without 50 μM tert-butyl hydrogen peroxide (TBHP) according to the protocol. Cells were then analyzed on a fluorescent plate reader. Mean +/- standard deviation is plotted for 4 replicates from each condition. TBHP mimics ROS activity to oxidize DCFDA to fluorescent DCF.

Fluorescence Microscopy - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Fluorescence Microscopy

PubMed

Fluorescence Microscopy - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Effect of anethole on excessive ROS generation in hMSCs. hMSCs were exposed at 2 mM H₂O₂ for 30 min and incubated for 2 days in presence or absence of 50 μM anethole. ROS was measured by staining the cells with DCFDA cellular ROS detection assay kit according to the manufacturer's instructions. ROS generation was observed under a fluorescence microscope at 200× magnification.

Image from Rhee YH et al., BMC Cell Biol, 2018, 19: 12, Fig. 3B.; doi: 10.1186/s12860-018-0163-2 Reproduced under the Creative Commons license https://creativecommons.org/licenses/by/4.0/

Fluorescence Microscopy

PubMed

Fluorescence Microscopy - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

p38 MAPK pathway involved in oxidative injury to HCECs challenged with C. albicans.

p38 MAPK pathway involved in oxidative injury to HCECs challenged with C. albicans. Increased ROS generation in HCECs challenged with C. albicans and inhibition by the p38 activation inhibitor SB203580.

Image from Hua X et al., Sci Rep, 2017, 7: 10421, Fig. 4A.; doi: 10.1038/s41598-017-09636-w Reproduced under the Creative Commons license http://creativecommons.org/licenses/by/4.0/

FuncS

PubMed

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Reactive oxygen species (ROS) measured using the DCFDA assay in human primary articular chondrocytes. Cells were treated with 100 μM tert-butyl-hydroperoxide (tBHP) alone (4 h) ± pre-treatment with apigenin.

Image from Davidson et al., Sci Rep, 2018. Fig. 2B.; doi: 10.1038/s41598-018-35455-8 Reproduced under the Creative Commons license http://creativecommons.org/licenses/by/4.0/

FuncS

Supplier Data

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Acute Effect of anthracyclines on ROS production in HL60 cells.

Labeled HL60 cells were treated with idarubicin or doxorubicin for 4 hours at multiple doses according to the protocol. At the end of the treatment cells were read end point in a fluorescent plate reader (Perking Elmer-Wallac 1420 Victor 2 Multilabel plate reader). Mean +/- standard deviation is plotted for 3 replicates from each condition. The dotted line represents the mean of 24 replicates of HL60 cells treated with 0.5% DMSO.

Flow Cytometry - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Flow Cyt

Supplier Data

Flow Cytometry - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

ab113851 (DCFDA) labeled and unlabeled Jurkat cells were treated with 50 μM tert-butyl Hydrogen Peroxide (tbHP), then analyzed by flow cytometry.

关键信息

检测方法

Fluorescent

样品类型

Suspension cells, Adherent cells

检测类型

Cell-based (quantitative)

检测时间

40m

检测平台

Microplate reader, Fluor. microscope, Flow cyt.

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产品详情

DCFDA - Cellular ROS Assay Kit / Reactive Oxygen Species Assay Kit (ab113851) uses the cell permeant reagent 2’,7’ –dichlorofluorescin diacetate (DCFDA, also known as H2DCFDA, DCFH-DA, and DCFH) to semi quantitatively assess reactive oxygen species in live cell samples.

DCFDA / H2DCFDA / DCFH-DA / DCFH is a fluorogenic dye that measures hydroxyl, peroxyl and other reactive oxygen species (ROS) activity within the cell. NB: DCFDA and DCFA are also available as free molecules as ab145286 (Carboxy-DCFDA N-succinimidyl ester) and ab145439 (5(6)-Carboxy-2',7'-dichlorofluorescein).

How the assay works

The DCFDA assay protocol is based on the diffusion of DCFDA / H2DCFDA / DCFH-DA / DCFH into the cell. It is then deacetylated by cellular esterases to a non-fluorescent compound, which is later oxidized by ROS into 2’, 7’ –dichlorofluorescein (DCF). DCF is highly fluorescent and is detected by fluorescence spectroscopy with excitation / emission at 485 nm / 535 nm.

Assay protocol summary

DCFDA assay protocol / ROS assay protocol summary (microplate):
- collect suspension cells in tube / seed and allow attachment of adherent cells in 96-well plate
- wash in buffer
- stain with DCFDA for 30 min (suspension) / 45 min (adherent), wash with buffer
- if suspension cells, transfer to microplate
- analyze with microplate reader

DCFDA assay protocol / ROS assay protocol summary (flow cytometry):
- collect cells in tubes
- stain with DCFDA for 30 min (without washing)
- analyze with flow cytometer

DCFDA assay protocol / ROS assay protocol summary (fluorescent microscopy):
- wash adherent cells with buffer
- stain with DCFDA for 45 min
- wash in buffer
- analyze with fluorescent microscope
- maintain low light conditions to reduce photo-bleaching

How other researchers are using

DCFDA / H2DCFDA - Cellular ROS Assay Kit has been used in a variety of sample type including:
Cola rostrata K plant cells ¹
Human monocyte cells THP-1 ²
Mouse lung lysates ³
References:
1- Ajayi BE et al. 2023
2-Shrivastava G et al. 2024
3-Jiang Y et al. 2023

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规格

{ "values": { "300Test": { "sellingSize": "300 Test", "publicAssetCode":"ab113851-300Test", "assetComponentDetails": [ { "size":"1 x 35 µL", "name":"20 mM DCFDA (Label)", "number":"AB113851-CMP03", "productcode":"" }, { "size":"1 x 10 mL", "name":"10X Dilution Buffer (Sterile)", "number":"AB113851-CMP02", "productcode":"" }, { "size":"1 x 50 µL", "name":"55mM TBHP", "number":"AB113851-CMP01", "productcode":"" } ] } } }

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性能和储存信息

运输条件

Blue Ice

储存信息

-20°C

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补充信息

This supplementary information is collated from multiple sources and compiled automatically.

Oxidative stress refers to the imbalance between reactive oxygen species (ROS) and antioxidant defenses. Commonly studied alternate names include ROS and oxidative damage. ROS are highly reactive molecules that can damage proteins lipids and DNA. These molecules include free radicals like superoxide and non-radicals like hydrogen peroxide. ROS are expressed in various cellular compartments such as mitochondria the endoplasmic reticulum and peroxisomes. Oxidative stress markers like advanced oxidation protein products (AOPP) and assays like DCFH-DA and DCFDA (also known as DCFH and DCFH-DA assay) are commonly used for detection. The molecular weight of DCFH-DA is approximately 487.29 g/mol.

Biological function summary

Oxidative stress impacts various cellular processes and pathways. It does not function as a single protein but emerges from a complex interplay of biochemical reactions. These reactions contribute to cellular signaling regulation of gene expression and apoptosis. For instance H2DCFDA a derivative of DCFH-DA is important for measuring intracellular ROS levels. When cells metabolize H2DCFDA it fluoresces upon reacting with ROS indicating oxidative stress within cells. Deep red fluorescence emerges as a marker of increased ROS activity within certain experimental setups.

Pathways

Oxidative stress plays a significant role in the redox signaling pathway and the mitochondrial apoptosis pathway. In redox signaling oxidative stress influences the function of transcription factors like NF-kB and proteins like Nrf2 which regulate antioxidant response elements. In the mitochondrial apoptosis pathway oxidative stress leads to the release of cytochrome c which triggers the cascade leading to cell death. Both pathways illustrate how oxidative stress can influence life-or-death decisions within cells ultimately impacting cellular health and function.

Oxidative stress links closely to neurodegenerative diseases such as Alzheimer's and cardiovascular diseases. In Alzheimer's for example oxidative stress can exacerbate the aggregation of amyloid-beta a protein associated with the disease. In cardiovascular diseases proteins like nitric oxide synthase (NOS) relate to oxidative stress where the imbalance can lead to oxidative damage in blood vessels contributing to atherosclerosis. The accumulation of oxidative stress can act as both a cause and a consequence in these pathological states indicating its dual role in disease processes.

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产品实验方案

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靶点信息

See full target information Benzoic acid, 2-[3,6-bis(acetyloxy)-2,7-dichloro-9H-xanthen-9-yl]-

其他靶点

Benzoic acid, 2-[3,6-bis(acetyloxy)-2,7-dichloro-9H-xanthen-9-yl]-

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文献 (953)

Recent publications for all applications. Explore the full list and refine your search

Nature communications 16:5547 PubMed40593553

2025

Host glutathione is required for Rickettsia parkeri cell division and intracellular survival.

Applications

Unspecified application

Species

Unspecified reactive species

Han Sun,Anh Phuong Luu,Meggie Danielson,Thomas P Burke

Scientific reports 15:22938 PubMed40594566

2025

Unraveling the effects of FLASH and conventional irradiation on retinal pigment epithelial cells: in vitro and in vivo studies.

Applications

Unspecified application

Species

Unspecified reactive species

Beatrice Di Marco,Gabriele Sansevero,Beatrice D'Orsi,Elisa De Santis,Giulia Salamone,Andrea Cavalieri,Luigi Masturzo,Mariagrazia Celentano,Fabio Di Martino,Simone Capaccioli,Daniele Panetta,Fabiola Paiar,Alessandra Gonnelli,Giovanni Gadducci,Mario Costa,Enrica Strettoi

Scientific reports 15:23029 PubMed40596396

2025

Antioxidant-supplemented media modulates ROS by regulating complex I during mouse oocyte maturation.

Applications

Unspecified application

Species

Unspecified reactive species

Nazlican Bozdemir,Ceren Cakir,Ozgur Cinar,Fatma Uysal Cinar

Biological trace element research : PubMed40580239

2025

Boric Acid Diminishes Sciatic Nerve Injury-Induced Apoptosis, Oxidative Stress, and Pain via The Block of TRPV1 Channel in Mice.

Applications

Unspecified application

Species

Unspecified reactive species

Kemal Ertilav,Mustafa Nazıroğlu

Nature cardiovascular research 4:876-890 PubMed40562875

2025

AIMP3 maintains cardiac homeostasis by regulating the editing activity of methionyl-tRNA synthetase.

Applications

Unspecified application

Species

Unspecified reactive species

Anindhya S Das,Charles P Rabolli,Colton R Martens,Han-Kai Jiang,Yingshen Zhang,Aubree A Zimmer,Kevin Lin,Kedryn K Baskin,Juan D Alfonzo,Federica Accornero

JCI insight 10: PubMed40553569

2025

MUC1-C dependence in treatment-resistant prostate cancer uncovers a target for antibody-drug conjugate therapy.

Applications

Unspecified application

Species

Unspecified reactive species

Keisuke Shigeta,Tatsuaki Daimon,Hiroshi Hongo,Sheng-Yu Ku,Hiroki Ozawa,Naoki Haratake,Atsushi Fushimi,Ayako Nakashoji,Atrayee Bhattacharya,Shinkichi Takamori,Michihisa Kono,Masahiro Rokugo,Yuto Baba,Takeo Kosaka,Mototsugu Oya,Justine Jacobi,Mark D Long,Himisha Beltran,Donald Kufe

Journal of veterinary research 69:273-284 PubMed40552030

2025

Cellular and molecular mechanisms of alpha lipoic acid's protective effects against diclofenac-induced hepatorenal toxicity.

Applications

Unspecified application

Species

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Hanan A Ogaly,Neven Hassan,Reham M Abd Elsalam,Shymaa El Badawy,Muhammad A Alsherbiny,Bardes Hassan,Fatimah A M Al-Zahrania,Gehan Othman,Chun Guang Li,Sherif H Elmosalamy

Diabetology & metabolic syndrome 17:229 PubMed40533826

2025

Exosomal FOXL1 from bone marrow mesenchymal stem cells activates the METTL3/ATXN2L pathway to ameliorate high glucose-induced human retinal microvascular endothelial cell injury.

Applications

Unspecified application

Species

Unspecified reactive species

Chao Niu,Daoquan Dong,Longjiang Cui,Yingli Dong,Wei Wang

Diabetes & metabolism journal : PubMed40518583

2025

Enavogliflozin, an SGLT2 Inhibitor, Improves Nonalcoholic Steatohepatitis Induced by High-Fat, High-Cholesterol Diet.

Applications

Unspecified application

Species

Unspecified reactive species

Phuc Thi Minh Pham,Giang Nguyen,So Young Park,Thuy Linh Lai,Dae-Hee Choi,Jeana Hong,Seon Mee Kang,Eun-Hee Cho

Materials today. Bio 32:101848 PubMed40487165

2025

Sorafenib-loaded metal-organic framework nanoparticles for anti-hepatocellular carcinoma effects through synergistically potentiating ferroptosis and remodeling tumor immune microenvironment.

Applications

Unspecified application

Species

Unspecified reactive species

Yuanliang Yan,Jun Hu,Ning Han,Hai-Tao Li,Xiaoxin Yang,Liu-Gen Li,Zhijie Xu,Fada Xia,Jie Li,Tong-Fei Li,Ruochan Chen

View all publications

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Abcam Product Promise

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DCFDA / H2DCFDA - Cellular ROS Assay试剂盒

DCFDA / H2DCFDA - Cellular ROS Assay Kit

Cellular Activity - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Cellular Activity - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Fluorescence Microscopy - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Fluorescence Microscopy - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Functional Studies - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

Flow Cytometry - DCFDA / H2DCFDA - Cellular ROS Assay Kit (AB113851)

关键信息

检测方法

样品类型

检测类型

检测时间

检测平台

产品详情