说明书：

DIHM.pdf

Application

• For quantitative determination of heme and evaluation of drug effects on heme metabolism.

Key Features

• Sensitive and accurate. Linear detection range 0.6 - 125 μM heme in 96-well plate assay.
• Simple and high-throughput. The "mix-and-read" procedure involves addition of a single working reagent and reading the optical density. Can be readily automated as a high-throughput assay in 96-well plates for thousands of samples per day.
• Safety. Reagents are non-toxic.
• Versatility. Assays can be executed in 96-well plate or cuvet.

Method

•  OD400nm

Samples

•  Blood, serum, plasma, urine etc

Species

•  All

Size

•  250 tests

Detection Limit

•  0.6 μM

Shelf Life

•  12 months

More Details

•  Heme is one important member of the porphyrin family. It is synthesized in both mitochondria and cytoplasm, and is a key prosthetic group for various essential proteins such as hemoglobin, cytochromes, catalases and peroxidases. Heme determination is widely practiced by researchers of various blood diseases. Simple, direct and automation-ready procedures for measuring heme concentration are becoming popular in Research and Drug Discovery. BioAssay Systems QuantiChrom™ Heme Assay Kit is based on an improved aqueous alkaline solution method, in which the heme is converted into a uniform colored form. The intensity of color, measured at 400 nm, is directly proportional to the heme concentration in the sample. The optimized formulation substantially reduces interference by substances in the raw samples and exhibits high sensitivity.

·相关文献

Aggarwal, S., Jilling, T., Doran, S., Ahmad, I., Eagen, J. E., Gu, S. & Patel, R. P. (2019). Phosgene Inhalation Causes Hemolysis and Acute Lung Injury. Toxicology Letters. 521724. Assay: Heme in mice blood.

Keleku-Lukwete, N., Suzuki, M., Panda, H., Otsuki, A., Katsuoka, F., Saito, R. & Yamamoto, M. (2019). Nrf2 activation in myeloid cells and endothelial cells differentially mitigates sickle cell disease pathology in mice. Blood advances, 3(8), 1285-1297. Assay: Heme in mice plasma.

Li, X., Wang, X., & Snyder, M. P. (2019). Metformin affects heme function as a possible mechanism of action. G3: Genes, Genomes, Genetics, 9(2), 513-522. Assay: Heme in yeast cells.

Belcher, J. D., Chen, C., Nguyen, J., Abdulla, F., Zhang, P., Nguyen, H. & Nath, K. A. (2018). Haptoglobin and hemopexin inhibit vaso-occlusion and inflammation in murine sickle cell disease: Role of heme oxygenase-1 induction. PloS one, 13(4), e0196455. Assay: Heme in mice plasma.

Cruz, L. A., Barral-Netto, M., & Andrade, B. B. (2018). Distinct inflammatory profile underlies pathological increases in creatinine levels associated with Plasmodium vivax malaria clinical severity. PLoS neglected tropical diseases, 12(3), e0006306. Assay: Heme in human blood.

Cueno, M. E., & Ochiai, K. (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: Heme in wistar rat blood.

Mooney, J. P., Barry, A., Goncalves, B. P., Tiono, A. B., Awandu, S. S., Grignard, L. & Riley, E. M. (2018). Haemolysis and haem oxygenase-1 induction during persistent "asymptomatic" malaria infection in Burkinabe children. Malaria journal, 17(1), 253. Assay: Heme in human plasma.

Santiago, R. P., Guarda, C. C., Figueiredo, C. V. B., Fiuza, L. M., Aleluia, M. M., Adanho, C. S. A. & Nascimento, V. M. L. (2018). Serum haptoglobin and hemopexin levels are depleted in pediatric sickle cell disease patients. Blood Cells Mol Dis. 72:34-36. Assay: Heme in human blood.

Abhishek, S., Gupta, A. K., & Singh, A. (2017). Kinetic Models Demonstrate Ability of Staphylococcus aureus to Uptake Heme from Beta vulgaris Proteins. Journal of Pure and Applied Microbiology, 11(4), 1713-1719. Assay: Heme in beetroot juice.

Dalko, E., Tchitchek, N., Pays, L., Herbert, F., Cazenave, P. A., Ravindran, B. & Pied, S. (2016). Erythropoietin levels increase during cerebral malaria and correlate with heme, interleukin-10 and tumor necrosis factor-alpha in India. PloS one, 11(7), e0158420. Assay: Heme in human plasma.

Luz, N. F., Balaji, S., Okuda, K., Barreto, A. S., Bertin, J., Gough, P. J. & Chan, F. K. M. (2016). RIPK1 and PGAM5 control Leishmania replication through distinct mechanisms. The Journal of Immunology, 196(12), 5056-5063. Assay: Heme in human plasma.

Ndisang JF, et al (2010). Up-regulating the heme oxygenase system with hemin improves insulin sensitivity and glucose metabolism in adult spontaneously hypertensive rats. Endocrinology 151(2):549-60. Assay: Heme in rat plasma.

Ndisang JF, Jadhav A (2010). The heme oxygenase system attenuates pancreatic lesions and improves insulin sensitivity and glucose metabolism in deoxycorticosterone acetate hypertension. American Journal of Physiolgy, Regululatory Integrative and Comparative Physiology. 298(1):R211-23. Assay: Heme in rat tissue.

Aldag C et al (2009). Probing the role of the proximal heme ligand in cytochrome P450cam by recombinant incorporation of selenocysteine. PNAS 106(14):5481-6. Assay: Heme in bacteria p450 enzymes.

Huang ML et al (2009). Elucidation of the mechanism of mitochondrial iron loading in Friedreich's ataxia by analysis of a mouse mutant. PNAS 106(38):16381-6. Assay: Heme in mouse heart.

Zwart SR, et al (2009). Body iron stores and oxidative damage in humans increased during and after a 10- to 12-day undersea dive. J Nutr. 139(1):90-5. Assay: Heme in human plasma.

Pamplona, A. et al (2007). Heme oxygenase-1 and carbon monoxide suppress the pathogenesis of experimental cerebral malaria. Nature Med. 13(6): 703-710. Assay: Heme in mouse tissue.