Mouse Recombinant HRG protein, His Tag (V2LY-0526-LY8404)

Name: Mouse Recombinant HRG protein, His Tag
SKU: V2LY-0526-LY8404
Rating: 5 (1 reviews)

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Datasheet

SDS

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Datasheet Target References Q & As Review & reward Protocols Associated Products

Basic Information

Expressed Host

HEK293 Cells

Protein Species

Mouse

Tag

His Tag

Protein Construction

This product is Mouse Recombinant HRG protein, His Tag consist of Amino Acid: 19-525 and predicts a molecular mass of 58.69 kDa.

Molecule Mass

58.69 kDa

Verified

HPLC

Sequence

Amino Acid: 19-525

Species

Mouse

Formulations & Storage [For reference only, actual COA shall prevail!]

Purity

≥95% as determined by SDS-PAGE. ≥95% as determined by SEC-HPLC.

Endotoxin

Please contact us for more information.

Format

Lyophilized

Reconstitution

Allow the vial and reconstitution buffer to equilibrate to room temperature. Briefly centrifuge or tap down the vial to ensure that all lyophilized powder is collected at the bottom of the vial. For the reconstitution of this product, we recommend adding PBS or sterile water to achieve a final antibody concentration of 1 mg/mL. Allow the vial to reconstitute for 10-15 minutes at room temperature with gentle agitation. Avoid vigorous shaking that can cause foaming and antibody denaturation. Aliquot into volumes based on your experiment and store liquid protein at -20°C or -80°C for long time.

Buffer

Lyophilized from sterile PBS, NaCl

Preservative

None

Storage

Samples are stable for up to twelve months from date of receipt at -20°C to -80°C. Store it under sterile conditions at -20°C to -80°C. It is recommended that the protein be aliquoted for optimal storage. Avoid repeated freeze-thaw cycles.

More Infomation

Target

Full Name

histidine-rich glycoprotein

Function

Plasma glycoprotein that binds a number of ligands such as heme, heparin, heparan sulfate, thrombospondin, plasminogen, and divalent metal ions. Binds heparin and heparin/glycosaminoglycans in a zinc-dependent manner. Binds heparan sulfate on the surface of liver, lung, kidney and heart endothelial cells. Binds to N-sulfated polysaccharide chains on the surface of liver endothelial cells. Inhibits rosette formation. Acts as an adapter protein and is implicated in regulating many processes such as immune complex and pathogen clearance, cell chemotaxis, cell adhesion, angiogenesis, coagulation and fibrinolysis. Mediates clearance of necrotic cells through enhancing the phagocytosis of necrotic cells in a heparan sulfate-dependent pathway. This process can be regulated by the presence of certain HRG ligands such as heparin and zinc ions. Binds to IgG subclasses of immunoglobins containing kappa and lambda light chains with different affinities regulating their clearance and inhibiting the formation of insoluble immune complexes. Tethers plasminogen to the cell surface. Binds T-cells and alters the cell morphology. Modulates angiogenesis by blocking the CD6-mediated antiangiongenic effect of thrombospondins, THBS1 and THBS2. Acts as a regulator of the vascular endothelial growth factor (VEGF) signaling pathway; inhibits endothelial cell motility by reducing VEGF-induced complex formation between PXN/paxillin and ILK/integrin-linked protein kinase and by promoting inhibition of VEGF-induced tyrosine phosphorylation of focal adhesion kinases and alpha-actinins in endothelial cells. Also plays a role in the regulation of tumor angiogenesis and tumor immune surveillance. Normalizes tumor vessels and promotes antitumor immunity by polarizing tumor-associated macrophages, leading to decreased tumor growth and metastasis.

Biological Process

Angiogenesis Source: UniProtKB-KW
Antimicrobial humoral immune response mediated by antimicrobial peptide Source: UniProtKB
Chemotaxis Source: UniProtKB-KW
Cytolysis by host of symbiont cells Source: UniProtKB
Defense response to fungus Source: UniProtKB
Fibrinolysis Source: UniProtKB-KW
Heme transport Source: GO_Central
Negative regulation of angiogenesis Source: UniProtKB
Negative regulation of blood vessel endothelial cell migration Source: UniProtKB
Negative regulation of cell adhesion Source: UniProtKB
Negative regulation of cell adhesion mediated by integrin Source: UniProtKB
Negative regulation of cell growth Source: UniProtKB
Negative regulation of cell population proliferation Source: UniProtKB
Negative regulation of endopeptidase activity Source: GO_Central
Negative regulation of endothelial cell chemotaxis Source: UniProtKB
Negative regulation of fibrinolysis Source: GO_Central
Negative regulation of lamellipodium assembly Source: UniProtKB
Negative regulation of vascular endothelial growth factor signaling pathway Source: UniProtKB
Platelet activation Source: UniProtKB
Positive regulation of apoptotic process Source: UniProtKB
Positive regulation of blood vessel remodeling Source: UniProtKB
Positive regulation of focal adhesion assembly Source: UniProtKB
Positive regulation of immune response to tumor cell Source: UniProtKB
Regulation of actin cytoskeleton organization Source: UniProtKB
Regulation of blood coagulation Source: UniProtKB
Regulation of gene expression Source: UniProtKB
Regulation of peptidyl-tyrosine phosphorylation Source: UniProtKB
Regulation of platelet activation Source: UniProtKB
Regulation of protein-containing complex assembly Source: UniProtKB

Cellular Location

Secreted

Involvement in disease

Thrombophilia due to histidine-rich glycoprotein deficiency (THPH11):
A hemostatic disorder characterized by a tendency to thrombosis.

PTM

Proteolytic cleavage produces several HRG fragments which are mostly disulfide-linked and, therefore, not released. Cleavage by plasmin is inhibited in the presence of heparin, zinc ions or in an acidic environment. Cleavage reduces binding of HRG to heparan sulfate, but enhances the ability of HRG to bind and tether plasminogen to the cell surface. On platelet activation, releases a 33 kDa antiangiogenic peptide which encompasses the HRR. Also cleaved in the C-terminal by plasmin.
N-glycosylated.

Malik, R., Liao, P., Zhou, J., Hussain, R., Fredenburgh, J. C., Hettrick, L., ... & Weitz, J. I. (2023). Histidine-rich glycoprotein attenuates catheter thrombosis. Blood Advances, bloodadvances-2022009236.

Zou, Y., van Breukelen, B., Pronker, M., Reiding, K., & Heck, A. J. (2023). Proteogenomic Features of the Highly Polymorphic Histidine-rich Glycoprotein Arose Late in Evolution. Molecular & Cellular Proteomics, 22(7).

Ackermann, K., Khazaipoul, S., Wort, J. L., Sobczak, A. I., Mkami, H. E., Stewart, A. J., & Bode, B. E. (2023). Investigating Native Metal Ion Binding Sites in Mammalian Histidine-Rich Glycoprotein. Journal of the American Chemical Society, 145(14), 8064-8072.

Truong, T. K., Malik, R. A., Yao, X., Fredenburgh, J. C., Stafford, A. R., Madarati, H. M., ... & Weitz, J. I. (2022). Identification of the histidine‐rich glycoprotein domains responsible for contact pathway inhibition. Journal of Thrombosis and Haemostasis, 20(4), 821-832.

Oiwa, M., Kuroda, K., Kawanoue, N., & Morimatsu, H. (2022). Histidine-rich glycoprotein as a novel predictive biomarker of postoperative complications in intensive care unit patients: a prospective observational study. BMC anesthesiology, 22(1), 1-10.

Kuroda, K., Ishii, K., Mihara, Y., Kawanoue, N., Wake, H., Mori, S., ... & Morimatsu, H. (2021). Histidine-rich glycoprotein as a prognostic biomarker for sepsis. Scientific reports, 11(1), 10223.

Takahashi, Y., Wake, H., Sakaguchi, M., Yoshii, Y., Teshigawara, K., Wang, D., & Nishibori, M. (2021). Histidine-rich glycoprotein stimulates human neutrophil phagocytosis and prolongs survival through CLEC1A. The Journal of Immunology, 206(4), 737-750.

Gao, S., Wake, H., Gao, Y., Wang, D., Mori, S., Liu, K., ... & Nishibori, M. (2019). Histidine‐rich glycoprotein ameliorates endothelial barrier dysfunction through regulation of NF‐κB and MAPK signal pathway. British Journal of Pharmacology, 176(15), 2808-2824.

Wake, H. (2019). Histidine-rich glycoprotein modulates the blood-vascular system in septic condition. Acta Medica Okayama, 73(5), 379-382.

Nishibori, M., Wake, H., & Morimatsu, H. (2018). Histidine-rich glycoprotein as an excellent biomarker for sepsis and beyond. Critical Care, 22, 1-2.

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Please try the standard protocols which include: protocols, troubleshooting and guide.

Enzyme-linked Immunosorbent Assay (ELISA)
Flow Cytometry
Immunofluorescence (IF)
Immunohistochemistry (IHC)
Immunoprecipitation (IP)
Western Blot (WB)
Enzyme Linked Immunospot (ELISpot)
Proteogenomic
Other Protocols

Alternative Versions

Human Recombinant HRG protein, His Tag (CAT#: V2LY-0526-LY4581)

Rat Recombinant HRG protein, His Tag (CAT#: V2LY-0526-LY9423)

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Isotype control

For research use only. Not intended for any clinical use.

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We also offer labeled antibodies developed using our catalog antibody products and nonfluorescent conjugates (HRP, AP, Biotin, etc.) or fluorescent conjugates (Alexa Fluor, FITC, TRITC, Rhodamine, Texas Red, R-PE, APC, Qdot Probes, Pacific Dyes, etc.).

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