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Human AGER / RAGE Protein (His Tag)

RAGE

Catalog Number P11629-H08H
Organism Species Human
Host Human Cells
Synonyms RAGE
Molecular Weight The recombinant human AGER consists of 332 amino acids and predicts a molecular mass of 35.5 KDa. It migrates as an approximately 47-53 KDa band in SDS-PAGE under reducing conditions.
predicted N Ala 23
SDS-PAGE
Purity > 98 % as determined by SDS-PAGE
Protein Construction A DNA sequence encoding the mature form of human AGER (NP_001127) extracellular domain (Met1-Ala 344) was expressed with a polyhistidine tag at the C-terminus.
Bio-activity 1. Measured by its binding ability in a functional ELISA.
2. Immobilized recombinant human AGER-His (P11629-H08H) at 10 μg/mL (100 μl/well) can bind biotinylated mouse His-S100A1 (P50266-M07E) with a linear range of 15.6-250 ng/mL.
3. Measured by its ability to bind biotinylated human S100A1 (P10179-HNAE) in functional ELISA.
Research Area Cardiovascular |Atherosclerosis |Vascular Inflammation |Inflammatory mediators
Formulation Lyophilized from sterile PBS, pH 7.4
1. Normally 5 % - 8 % trehalose, mannitol and 0.01% Tween80 are added as protectants before lyophilization. Specific concentrations are included in the hardcopy of COA.
Background Receptor for Advanced Glycosylation End Products (RAGE, or AGER) is a member of the immunoglobulin super-family transmembrane proteins, as a signal transduction receptor which binds advanced glycation endproducts, certain members of the S100/calgranulin family of proteins, high mobility group box 1 (HMGB1), advanced oxidation protein products, and amyloid (beta-sheet fibrils). Initial studies investigating the role of RAGE in renal dysfunction focused on diabetes, neurodegenerative disorders, and inflammatory responses. However, RAGE also has roles in the pathogenesis of renal disorders that are not associated with diabetes, such as obesity-related glomerulopathy, doxorubicin-induced nephropathy, hypertensive nephropathy, lupus nephritis, renal amyloidosis, and ischemic renal injuries. RAGE represents an important factor in innate immunity against pathogens, but it also interacts with endogenous ligands, resulting in chronic inflammation. RAGE signaling has been implicated in multiple human illnesses, including atherosclerosis, arthritis, Alzheimer's disease, atherosclerosis and aging associated diseases.
Reference
  • Zhou Z, et al. (2011) RAGE and its ligands in bone metabolism. Front Biosci (Schol Ed). 3: 768-76.
  • Mosquera JA. (2010) Role of the receptor for advanced glycation end products (RAGE) in inflammation]. Invest Clin. 51(2): 257-68.
  • D'Agati V, et al. (2010) RAGE and the pathogenesis of chronic kidney disease. Nat Rev Nephrol. 6(6): 352-60.