| Field | Specification |
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| Assay Time | |
| Detection Method | |
| Product Type | |
| Sample Type(s) | Serum, plasma, urine, saliva, cell culture etc |
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Overview
For quantitative determination of catalase activity and evaluation of drug effects on catalase activity. The assay uses OD570nm, or FL530/585nm for signal readout. Compatible sample input includes Serum, plasma, urine, saliva, cell culture etc. Typical stated assay timing is 40 min.
Key elements and design rationale
- Readout format: OD570nm, or FL530/585nm supports plate-based signal acquisition and consistent comparison across matched samples.
- Sample compatibility: The stated sample scope includes Serum, plasma, urine, saliva, cell culture etc, which is useful when aligning matrix type with calibration and control design.
- Analytical range context: The supplied specifications include a stated detection limit of 0.2 U/L for interpreting low-signal samples.
- Feature emphasis: Sensitive and accurate. Use 10 µL sample. Linear detection range 0.2 to 5 U/L catalase activity.
Additional feature notes highlight Simple and Convenient. The procedure involves adding a Substrate to the sample, incubation for 30 min, followed by a Detection Reagent and reading the optical density or fluorescence intensity. Available format information for this listing includes 100 Tests.
Biological background
This product is centered on measurement of catalase within the matrices described for the assay. In practice, datasets from this type of format are typically interpreted by comparing relative signal, activity, or abundance across matched control and experimental groups rather than relying on a single value in isolation. Careful alignment of sample matrix, incubation window, and calibration strategy is important when comparing results across plates, operators, or study days.
More details
CATALASE (EC 1.11.1.6), is an ubiquitous antioxidant enzyme that catalyzes the decomposition of hydrogen peroxide (H2O2) to water and oxygen. By preventing excessive H2O2build-up, catalase allows important cellular processes which produce H2O2as a byproduct to occur safely. Deficiency in catalase activity has been associated with grey hair and peroxisomal disorder acatalasia. Simple, direct and high-throughput assays for catalase activity find wide applications. BioAssay Systems improved assay directly measures catalase degradation of H2O2using a redox dye. The change in colour intensity at 570nm or fluorescence intensity (λex/em = 530/585nm) is directly proportional to the catalase activity in the sample.
Detection method
Colorimetric (OD 570 nm) or Fluorescent (FL 530/585 nm).
Detection limit and analytical sensitivity
Reported detection limit: 0.2 U/L.
Procedures and timing
Stated procedure or timing information: 40 min.
Research relevance and current trends
- Plate-based quantification and side-by-side group comparison remain central use cases for this assay format.
- The description supports intervention-focused study designs in which researchers compare baseline and perturbed conditions.
- Short assay timing and plate compatibility support time-course or repeated-measure collection plans when handling is kept consistent.
Common research applications
- Quantify catalase in serum, plasma, urine, saliva, cell culture by OD570 nm, or FL530/585 nm readout.
- Compare treatment or phenotype groups using matched serum, plasma, urine, saliva, cell culture handling.
- Monitor time-course or pre/post changes in serum, plasma, urine, saliva, cell culture across study conditions.
Interpretation is usually strongest when signal changes are assessed alongside matrix-matched controls, replicate agreement, and the assay's stated analytical window.
Notes for experimental interpretation
- Matrix composition, background signal, and sample handling can influence apparent response; compare like-with-like whenever possible.
- Use appropriate blanks, controls, and replicate wells to distinguish biological differences from plate, reagent, or handling variability.
Regarding the technique used in the DPOD-100 peroxidase assay and the ECAT-100 catalase assay that seems to be really similar, how will we be sure that one of them will measure the catalase activity and the other the peroxidase?
The DPOD assay measures the conversion of the dye reagent and hydrogen peroxide, which are provided in large excess as substrates for cellular peroxidases. Endogenous catalase activity does not interfere with the assay, because it does not react with the dye reagent, hydrogen peroxide is in large excess, and the reaction is short (10 minutes), leaving the H2O2 concentration practically unchanged.
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The ECAT assays measures catalase activity by first incubating much lower concentrations of hydrogen peroxide with the samples for 30 minutes. Then the decrease in hydrogen peroxide is measured by adding the dye reagent and HRP in excess.
You will have 100 µL of each standard when you have pipetted all solutions for the standard curve. How stable are the 100 µl standards? Can they be used the next day to make another standard curve or can the values from the already made standard curve be used when you have other samples the next day?
The H2O2 standards are stable for an hour. Therefore assays should be run as soon as possible with the samples and standards. It is recommended that customers run standard curve in each experiment.
For laboratories requiring additional technical capacity, we provide scientific support services including assay execution, method guidance, product sourcing, and customization to align the assay with specific experimental objectives. If you need assistance selecting the appropriate kit configuration, adapting the workflow to your application, or identifying related research services, please click Talk to a Scientist, email support@biohippo.com, or review our Research Services; a member of our scientific team will follow up with recommendations tailored to your study.
Elucidation of the molecular mechanisms underlying sorafenib-induced Hepatotoxicity
AlAsmari, A. F.,et al (2020). Elucidation of the molecular mechanisms underlying sorafenib-induced Hepatotoxicity. Oxidative Medicine and Cellular Longevity, 2020, 1-10. Assay: Catalase in rat liver tissue.
D4F prophylaxis enables redox and energy homeostasis while preventing inflammation during hypoxia exposure
Paul, S.,et al. (2021). D4F prophylaxis enables redox and energy homeostasis while preventing inflammation during hypoxia exposure. Biomedicine & Pharmacotherapy, 133, 111083. Assay: Catalase in rat tissue.
Supplementation of postbiotic RI11 improves antioxidant enzyme activity, upregulated gut barrier genes, and reduced cytokine, acute phase protein, and heat shock protein 70 gene expression levels in heat-stressed broilers
Humam, A. M., et al. (2021). Supplementation of postbiotic RI11 improves antioxidant enzyme activity, upregulated gut barrier genes, and reduced cytokine, acute phase protein, and heat shock protein 70 gene expression levels in heat-stressed broilers. Poultry Science, 100(3), 100908. Assay: Catalase in chicken plasma.
Liraglutide attenuates gefitinib-induced cardiotoxicity and promotes cardioprotection through the regulation of MAPK/NF-kb signaling pathways
AlAsmari, A. F., et al (2020). Liraglutide attenuates gefitinib-induced cardiotoxicity and promotes cardioprotection through the regulation of MAPK/NF-kb signaling pathways. Saudi Pharmaceutical Journal, 28(4), 509-518. Assay: Catalase in rat heart tissue.
Antioxidant and Nephroprotective effects of okra pods extract (Abelmoschus esculentus L
Wahyuningsih, S. P., et al. (2020). Antioxidant and Nephroprotective effects of okra pods extract (Abelmoschus esculentus L.) against lead acetate-induced toxicity in mice. Scientifica, 2020, 1-10. Assay: Catalase in mouse serum.
Infliximab prevents dysfunction of the vas deferens by suppressing inflammation and oxidative stress in rats with chronic stress
Sahin, T. D., et al. (2020). Infliximab prevents dysfunction of the vas deferens by suppressing inflammation and oxidative stress in rats with chronic stress. Life Sciences, 250, 117545. Assay: Catalase in rat tissue.
Saliva panel of protein candidates: A comprehensive study for assessing high altitude acclimatization
Jain, S., et al (2020). Saliva panel of protein candidates: A comprehensive study for assessing high altitude acclimatization. Nitric Oxide, 95, 1-11. Assay: Catalase in human saliva.
Effect of dietary curcumin on the antioxidant status of laying hens under high- temperature condition
Nawab, A.,et al. (2019). Effect of dietary curcumin on the antioxidant status of laying hens under high- temperature condition. Journal of Thermal Biology, 86, 102449. Assay: Catalase in chicken serum.
Exploring the biophysicochemical alteration of green alga Asterococcus superbus interactively affected by nanoparticles, triclosan and illumination
Xin, X., et al. (2020). Exploring the biophysicochemical alteration of green alga Asterococcus superbus interactively affected by nanoparticles, triclosan and illumination. Journal of Hazardous Materials, 398, 122855. Assay: Catalase in algae cells.
Effects of feeding increasing levels of yerba mate on lamb meat quality and antioxidant activity
Pena-Bermudez, Y. A.,et al (2020). Effects of feeding increasing levels of yerba mate on lamb meat quality and antioxidant activity. Animals, 10(9), 1458. Assay: Catalase in sheep tissue.
Longer ubiquinone side chains contribute to enhanced farnesol resistance in yeasts
Pathirana, R. U., et al (2020). Longer ubiquinone side chains contribute to enhanced farnesol resistance in yeasts. Microorganisms, 8(11), 1641 Assay: Catalase in yeast cells.
Red Quinoa Bran Extracts Protects against Carbon Tetrachloride-Induced Liver Injury and Fibrosis in Mice via Activation of Antioxidative Enzyme Systems and Blocking TGF-beta1 Pathway
Lin, Ting-An, et al (2019). Red Quinoa Bran Extracts Protects against Carbon Tetrachloride-Induced Liver Injury and Fibrosis in Mice via Activation of Antioxidative Enzyme Systems and Blocking TGF-beta1 Pathway. Nutrients 11.2: 395. Assay: Catalase in mice liver tissue.
Gingival periodontal disease (PD) level-butyric acid affects the systemic blood and brain organ: insights into the systemic inflammation of periodontal disease
Cueno, Marni E., and Kuniyasu Ochiai (2018). Gingival periodontal disease (PD) level-butyric acid affects the systemic blood and brain organ: insights into the systemic inflammation of periodontal disease. Frontiers in immunology 9:1158. Assay: Catalase in rat blood cytosol.
Therapeutic effect of ascorbic acid on dapsone-induced methemoglobinemia in rats
Kang, Changwoo, et al (2018). Therapeutic effect of ascorbic acid on dapsone-induced methemoglobinemia in rats. Clinical and experimental emergency medicine 5.3: 192. Assay: Catalase in rat plasma.
Candida albicans Ras1 inactivation increases resistance to phagosomal killing by human neutrophils
Salvatori, Ornella, et al (2018). Candida albicans Ras1 inactivation increases resistance to phagosomal killing by human neutrophils. Infection and immunity 86.12: e00685-18. Assay: Catalase in Candida albicans cells.
Oxidative stress in Mayaro virus infection
Camini, Fernanda Caetano, et al (2017). Oxidative stress in Mayaro virus infection. Virus research 236: 1-8. Assay: Catalase in human cells.
Chronic intermittent hypoxia induces liver fibrosis in mice with diet-induced obesity via TLR4/MyD88/MAPK/NF-kB signaling pathways
Kang, Hyeon Hui, et al (2017). Chronic intermittent hypoxia induces liver fibrosis in mice with diet-induced obesity via TLR4/MyD88/MAPK/NF-kB signaling pathways. Biochemical and biophysical research communications 490.2: 349-355. Assay: Catalase in mice tissues.
Dietary hydroxycinnamates prevent oxidative damages to liver, spleen, and bone marrow cells in irradiation-exposed mice
Kook, Sung-Ho, et al (2017). Dietary hydroxycinnamates prevent oxidative damages to liver, spleen, and bone marrow cells in irradiation-exposed mice. Food science and biotechnology 26.1: 279-285. Assay: Catalase in mice tissues.
Moderate aerobic exercise on the recovery phase of gentamicin-induced acute kidney injury in rats
Oliveira, C. S., et al (2017). Moderate aerobic exercise on the recovery phase of gentamicin-induced acute kidney injury in rats. Life sciences 169: 37-42. Assay: Catalase in rat tissues.
Elevated catalase expression in a fungal pathogen is a double-edged sword of iron
Pradhan, Arnab, et al (2017). Elevated catalase expression in a fungal pathogen is a double-edged sword of iron. PLoS pathogens 13.5: e1006405. Assay: Catalase in C. albicans cells.
Orally supplemented catechin increases heme amounts and catalase activities in rat heart blood mitochondria: a comparison between middle-aged and young rats
Cueno ME (2013). Orally supplemented catechin increases heme amounts and catalase activities in rat heart blood mitochondria: a comparison between middle-aged and young rats. Exp Gerontol. 48(11):1319-22. Assay: Catalase in rat blood mitochondria.
Beneficial Effects of Ocimum gratissimum Aqueous Extract on rats with CCl(4)-Induced Acute Liver Injury
Chiu CC et al (2012). Beneficial Effects of Ocimum gratissimum Aqueous Extract on rats with CCl(4)-Induced Acute Liver Injury. Evid Based Complement Alternat Med 2012:736752. Assay: Catalase in rat serum.
L-2-oxothiazolidine-4-carboxylate influence on age- and heat exposure-dependent peroxidation in rat’s liver and kidney
Hadzi-Petrushev N et al (2012). L-2-oxothiazolidine-4-carboxylate influence on age- and heat exposure-dependent peroxidation in rat’s liver and kidney. J Therm Biol 37(5):361-365. Assay: Catalase in rat Kidney.
L-2-oxothiazolidine-4-carboxylate influence on age- and heat exposure-dependent peroxidation in rat’s liver and kidney
Hadzi-Petrushev N et al (2012). L-2-oxothiazolidine-4-carboxylate influence on age- and heat exposure-dependent peroxidation in rat’s liver and kidney. J Therm Biol 37(5):361-365. Assay: Catalase in rat Kidney.
Zhu T et al (2012) Effects of the iron-chelating agent deferoxamine on triethylene glycol dimethacrylate, 2-hydroxylethy
Zhu T et al (2012) Effects of the iron-chelating agent deferoxamine on triethylene glycol dimethacrylate, 2-hydroxylethyl methacrylate, hydrogen peroxide-induced cytotoxicity. J Biomed Mater Res B Appl Biomater 100(1):197-205. Assay: Catalase in human dental pulp cells.
Hadzi-Petrushev N et al (2011) L-2-oxothiazolidine-4-carboxylate influence on age- and heat exposure-dependent redox cha
Hadzi-Petrushev N et al (2011) L-2-oxothiazolidine-4-carboxylate influence on age- and heat exposure-dependent redox changes in rat’s blood plasma. J Physiol Sci 61(5):437-442. Assay: Catalase in rat plasma.
The Role of Oxidative Stress Markers and Nitric Oxide Levels in the Pathogenesis of Glaucoma
Labib, HM, et al (2010). The Role of Oxidative Stress Markers and Nitric Oxide Levels in the Pathogenesis of Glaucoma. Austr. J. Basic and Applied Sci 4(8): 3553-3558. Assay: Catalase in human blood.
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