Mouse AGER Protein 3826

$270.00 – $900.00

Summary

Expression: HEK293
Pure: Yes (HPLC)
Amino Acid Range: Gly23- Ala342

SKU: 3826parent Categories: proteins, Recombinant proteins Tag: active proteins

Weight	1 lbs
Dimensions	9 × 5 × 2 in
accession	Q62151
express system	HEK293
product tag	C-His
purity	> 95% as determined by Tris-Bis PAGE;> 95% as determined by HPLC
background	The receptor for advanced glycation end products (AGER) is an oncogenic transmembranous receptor up-regulated in various human cancers. AGER promotes proliferation, migration, and inhibits apoptosis of squamous cervical cancer and might function as a tumor promoter in cervical cancer. Our study provides novel evidence for a potential role of AGER in bridging human papillomavirus (HPV)-induced inflammation and cervical cancer.
molecular weight	The protein has a predicted MW of 35 kDa. Due to glycosylation, the protein migrates to 45-50 kDa based on Tris-Bis PAGE result.
available size	100 µg, 500 µg
endotoxin	Less than 1EU per μg by the LAL method.

Mouse AGER Protein 3826

protein

Size and concentration 100, 500µg and lyophilized
Form Lyophilized
Storage Instructions Valid for 12 months from date of receipt when stored at -80°C. Recommend to aliquot the protein into smaller quantities for optimal storage. Please minimize freeze-thaw cycles.
Storage buffer Shipped at ambient temperature.
Purity > 95% as determined by Tris-Bis PAGE

target relevance
The receptor for advanced glycation end products (AGER) is an oncogenic transmembranous receptor up-regulated in various human cancers. AGER promotes proliferation, migration, and inhibits apoptosis of squamous cervical cancer and might function as a tumor promoter in cervical cancer. Our study provides novel evidence for a potential role of AGER in bridging human papillomavirus (HPV)-induced inflammation and cervical cancer.
Protein names Advanced glycosylation end product-specific receptor (Receptor for advanced glycosylation end products)
Gene names Ager,Ager Rage
Mass 10090Da
Function Cell surface pattern recognition receptor that senses endogenous stress signals with a broad ligand repertoire including advanced glycation end products, S100 proteins, high-mobility group box 1 protein/HMGB1, amyloid beta/APP oligomers, nucleic acids, phospholipids and glycosaminoglycans (PubMed:21270403, PubMed:32670276). Advanced glycosylation end products are nonenzymatically glycosylated proteins which accumulate in vascular tissue in aging and at an accelerated rate in diabetes. These ligands accumulate at inflammatory sites during the pathogenesis of various diseases, including diabetes, vascular complications, neurodegenerative disorders, and cancers and RAGE transduces their binding into pro-inflammatory responses. Upon ligand binding, uses TIRAP and MYD88 as adapters to transduce the signal ultimately leading to the induction or inflammatory cytokines IL6, IL8 and TNFalpha through activation of NF-kappa-B. Interaction with S100A12 on endothelium, mononuclear phagocytes, and lymphocytes triggers cellular activation, with generation of key pro-inflammatory mediators (By similarity). Interaction with S100B after myocardial infarction may play a role in myocyte apoptosis by activating ERK1/2 and p53/TP53 signaling (By similarity). Contributes to the translocation of amyloid-beta peptide (ABPP) across the cell membrane from the extracellular to the intracellular space in cortical neurons (PubMed:19901339). ABPP-initiated RAGE signaling, especially stimulation of p38 mitogen-activated protein kinase (MAPK), has the capacity to drive a transport system delivering ABPP as a complex with RAGE to the intraneuronal space. Participates in endothelial albumin transcytosis together with HMGB1 through the RAGE/SRC/Caveolin-1 pathway, leading to endothelial hyperpermeability (By similarity). Mediates the loading of HMGB1 in extracellular vesicles (EVs) that shuttle HMGB1 to hepatocytes by transferrin-mediated endocytosis and subsequently promote hepatocyte pyroptosis by activating the NLRP3 inflammasome (By similarity). Promotes also extracellular hypomethylated DNA (CpG DNA) uptake by cells via the endosomal route to activate inflammatory responses (By similarity).; [Isoform 2]: Is able to advanced glycosylation end product (AGE)-induce nuclear factor NF-kappa-B activation.; [Isoform 10]: Down-regulates receptor for advanced glycosylation end products (RAGE)-ligand induced signaling through various MAPK pathways including ERK1/2, p38 and SAPK/JNK. Significantly affects tumor cell properties through decreasing cell migration, invasion, adhesion and proliferation, and increasing cellular apoptosis. Exhibits drastic inhibition on tumorigenesis in vitro.
Catalytic activity #N/A
Subellular location [Isoform 1]: Membrane; Single-pass type I membrane protein.; [Isoform 2]: Secreted .; [Isoform 10]: Cell membrane ; Single-pass membrane protein .
Tissues Isoform 1: Expressed at higher levels in the coronary arterioles in type 2 diabetic mice (at protein level). Endothelial cells (PubMed:18539754). Expressed in lung, kidney, brain and heart. Most prevalent isoform with the highest level in heart (PubMed:19164451). Isoform 2: Expressed in brain, lung, kidney and small intestine with the highest level in lung. Expressed in brain, lung, kidney and small intestine with the highest level in small intestine (at protein level). Detected in neurons of the cerebrum, bronchial epithelium, endothelial cells, tubular cells of kidney and epithelial cells of small intestine (at protein level). Expression is increased in the kidney of diabetic wild-type mice (at protein level), but not in the other tissues (PubMed:16503878). Expressed only in kidney. Expression is increased in the kidney of diabetic mice (PubMed:19164451). Isoform 3: Expressed in lung, kidney and heart. The second most prevalent isoform with the highest level in lung. Not expressed in brain (PubMed:19164451). Isoform 4: Expressed at very low level in lung only (PubMed:19164451). Isoform 5: Expressed at very low level in lung only (PubMed:19164451). Isoform 6: Expressed at very low level in lung only (PubMed:19164451). Isoform 7: Expressed at very low level in heart only (PubMed:19164451). Isoform 8: Expressed at very low level in lung only (PubMed:19164451). Isoform 9: Expressed at very low level in heart only (PubMed:19164451). Isoform 10: Expressed in lung, brain, heart and kidney with a very high level in kidney (PubMed:24260107). Isoform 11: Expressed in brain, kidney and heart. Not expressed in lung (PubMed:19164451). Isoform 12: Expressed at very low level in lung and kidney (PubMed:19164451). Isoform 13: Expressed at very low level in lung only (PubMed:19164451).
Structure Constitutive homodimer; disulfide-linked. Forms homooligomers (By similarity). Interacts with S100A1 and APP (PubMed:19901339). Interacts with S100B, S100A12 and S100A14 (PubMed:10399917). Interacts with TIRAP (By similarity). Interacts with HMGB1 (By similarity).
Post-translational modification Phosphorylated on its cytoplasmic domain by PKCzeta/PRKCZ upon ligand binding.; Targeted by the ubiquitin E3 ligase subunit FBXO10 to mediate its ubiquitination and degradation.
Target Relevance information above includes information from UniProt accession: Q62151
The UniProt Consortium

Data

The purity of Mouse AGER is greater than 95% as determined by SEC-HPLC.

Mouse AGER on Tris-Bis PAGE under reduced condition. The purity is greater than 95%.

Publications

pmid	title	authors	citation
We haven't added any publications to our database yet.

Published literature highly relevant to the biological target of this product and referencing this antibody or clone are retrieved from PubMed database provided by The United States National Library of Medicine at the National Institutes of Health.