Leucocyte Myeloperoxidase from Human Sputum

<strong>Leucocyte Myeloperoxidase from Human Sputum</strong>_x000D_ <strong>Catalog number:</strong> B2019075_x000D_ <strong>Lot number:</strong> Batch Dependent_x000D_ <strong>Expiration Date:</strong> Batch dependent_x000D_ <strong>Amount:</strong> 0.5 mg_x000D_ <strong>Molecular Weight or Concentration:</strong> N/A_x000D_ <strong>Supplied as:</strong> Powder_x000D_ <strong>Applications:</strong> a molecular tool for various biochemical applications_x000D_ <strong>Storage:</strong> 2-8°C_x000D_ <strong>Keywords:</strong> Leucocyte Myeloperoxidase, Human Sputum_x000D_ <strong>Grade:</strong> Biotechnology grade. All products are highly pure. All solutions are made with Type I ultrapure water (resistivity &gt;18 MΩ-cm) and are filtered through 0.22 um._x000D_ _x000D_ <strong>References:</strong>_x000D_ 1: Muefong CN, Owolabi O, Donkor S, Charalambous S, Mendy J, Sey ICM, Bakuli A, Rachow A, Geldmacher C, Sutherland JS. Major Neutrophil-Derived Soluble Mediators Associate With Baseline Lung Pathology and Post-Treatment Recovery in Tuberculosis Patients Front Immunol. 2021 Nov 23;12:740933._x000D_ 2: Loh LC, Vyas B, Kanabar V, Kemeny DM, O'Connor BJ. Inhaled endotoxin in healthy human subjects: a dose-related study on systemic effects and peripheral CD4+ and CD8+ T cells Respir Med. 2006 Mar;100(3):519-28._x000D_ 3: Smyth LCD, Murray HC, Hill M, van Leeuwen E, Highet B, Magon NJ, Osanlouy M, Mathiesen SN, Mockett B, Singh-Bains MK, Morris VK, Clarkson AN, Curtis MA, Abraham WC, Hughes SM, Faull RLM, Kettle AJ, Dragunow M, Hampton MB. Neutrophil-vascular interactions drive myeloperoxidase accumulation in the brain in Alzheimer's disease Acta Neuropathol Commun. 2022 Mar 24;10(1):38._x000D_ 4: Sobitan A, Edwards W, Jalal MS, Kolawole A, Ullah H, Duttaroy A, Li J, Teng S. Prediction of the Effects of Missense Mutations on Human Myeloperoxidase Protein Stability Using In Silico Saturation Mutagenesis Genes (Basel). 2022 Aug 8;13(8):1412._x000D_ 5: Vasilyev VB, Sokolov AV, Kostevich VA, Elizarova AY, Gorbunov NP, Panasenko OM. Binding of lactoferrin to the surface of low-density lipoproteins modified by myeloperoxidase prevents intracellular cholesterol accumulation by human blood monocytes Biochem Cell Biol. 2021 Feb;99(1):109-116._x000D_ 6: Sundqvist M, Gibson KM, Bowers SM, Niemietz I, Brown KL. Anti-neutrophil cytoplasmic antibodies (ANCA): Antigen interactions and downstream effects J Leukoc Biol. 2020 Aug;108(2):617-626._x000D_ 7: Garai D, Pálinkás Z, Balla J, Kettle AJ, Nagy P. Measurements for Sulfide-Mediated Inhibition of Myeloperoxidase Activity Methods Mol Biol. 2019;2007:179-203._x000D_ 8: Bacchetti T, Ferretti G, Carbone F, Ministrini S, Montecucco F, Jamialahmadi T, Sahebkar A. Dysfunctional High-density Lipoprotein: The Role of Myeloperoxidase and Paraoxonase-1 Curr Med Chem. 2021;28(14):2842-2850._x000D_ 9: Gorudko IV, Grigorieva DV, Sokolov AV, Shamova EV, Kostevich VA, Kudryavtsev IV, Syromiatnikova ED, Vasilyev VB, Cherenkevich SN, Panasenko OM. Neutrophil activation in response to monomeric myeloperoxidase Biochem Cell Biol. 2018 Oct;96(5):592-601._x000D_ <a href="https://pubmed.ncbi.nlm.nih.gov/34489949">10: Amunugama K, Kolar GR, Ford DA. Neutrophil Myeloperoxidase Derived Chlorolipid Production During Bacteria Exposure Front Immunol. 2021 Aug 13;12:701227. </a>_x000D_ _x000D_ <strong>Products Related to Leucocyte Myeloperoxidase from Human Sputum can be found at</strong> <a href="https://moleculardepot.com/product-category/Proteins/"> Proteins</a>