Recombinant Human IFNGR1 Protein (His tag)

Beta LifeScience SKU/CAT #: BLA-0299P

Recombinant Human IFNGR1 Protein (His tag)

Beta LifeScience SKU/CAT #: BLA-0299P
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Product Overview

Host Species Human
Accession P15260
Synonym Antiviral Protein Type II Antiviral protein, type 2 AVP type II AVP, type 2 CD 119 CD119 CD119 antigen CDw119 FLJ45734 IFN gamma R IFN gamma R alpha IFN gamma R1 IFN-gamma receptor 1 IFN-gamma-R1 IFNG R1 IFNGR IFNGR 1 IFNGR1 Immune interferon receptor 1 Immune interferon receptor for INGR1_HUMAN Interferon gamma receptor 1 Interferon gamma receptor alpha chain Interferon gamma receptor alpha chain precursor
Description Recombinant Human IFNGR1 Protein (His tag) was expressed in Baculovirus infected insect cells. It is a Protein fragment
Source Baculovirus infected insect cells
AA Sequence EMGTADLGPSSVPTPTNVTIESYNMNPIVYWEYQIMPQVPVFTVEVKNYG VKNSEWIDACINISHHYCNISDHVGDPSNSLWVRVKARVGQKESAYAKSE EFAVCRDGKIGPPKLDIRKEEKQIMIDIFHPSVFVNGDEQEVDYDPETTC YIRVYNVYVRMNGSEIQYKILTQKEDDCDEIQCQLAIPVSSLNSQYCVSA EGVLHVWGVTTEKSKEVCITIFNSSIKGHHHHHH
Molecular Weight 27 kDa including tags
Purity >90% purity as determined by SDS-PAGE
Endotoxin < 1.0 EU per μg of the protein as determined by the LAL method
Formulation Liquid Solution
Stability The recombinant protein samples are stable for up to 12 months at -80°C
Reconstitution See related COA
Unit Definition For Research Use Only
Storage Buffer Shipped at 4°C. Store at +4°C short term (1-2 weeks). Store at -20°C or -80°C. Avoid freeze / thaw cycle.

Target Details

Target Function Receptor subunit for interferon gamma/INFG that plays crucial roles in antimicrobial, antiviral, and antitumor responses by activating effector immune cells and enhancing antigen presentation. Associates with transmembrane accessory factor IFNGR2 to form a functional receptor. Upon ligand binding, the intracellular domain of IFNGR1 opens out to allow association of downstream signaling components JAK1 and JAK2. In turn, activated JAK1 phosphorylates IFNGR1 to form a docking site for STAT1. Subsequent phosphorylation of STAT1 leads to dimerization, translocation to the nucleus, and stimulation of target gene transcription. STAT3 can also be activated in a similar manner although activation seems weaker. IFNGR1 intracellular domain phosphorylation also provides a docking site for SOCS1 that regulates the JAK-STAT pathway by competing with STAT1 binding to IFNGR1.
Subcellular Location Cell membrane; Single-pass type I membrane protein.
Protein Families Type II cytokine receptor family
Database References
Associated Diseases Immunodeficiency 27A (IMD27A); Immunodeficiency 27B (IMD27B)

Gene Functions References

  1. discovered that a rare variant c.G40A in interferon gamma receptor 1 potentially contributes to the myasthenia gravis pathogenesis PMID: 29441481
  2. Positive reaction in interferon-gamma release tests is not associated with IFNGR1 SNPs. PMID: 29209098
  3. All known mutations, as well as 287 other variations, have been deposited in the online IFNGR1 variation database . In this article, we review the function of IFN-gammaR1 and molecular genetics of human IFNGR1. PMID: 28744922
  4. results showed a significant correlation between IFNGR1- T-56CSNP and Nontuberculous mycobacteria infection among studied populations PMID: 28719321
  5. B cell type 1 IFN receptor signals accelerate, but are not required for, lupus development. PMID: 27069113
  6. The study did not provide enough powerful evidence to identify a significant association between IFNGR1 -56C/T polymorphism and tuberculosis susceptibility (meta-analysis). PMID: 25382336
  7. All patients tested were positive for mycobacteria; one was heterozygous for the IFNGR1 exon 5 single-nucleotide-missense substitution PMID: 27356097
  8. The deletion of IFNGR1 causes complete IFN-gammaR1 deficiency. Despite the deletion ending very close to the IL22RA2 gene, it does not appear to affect IL22RA2 transcription. PMID: 26931784
  9. A significant association of IFN-gammaR1 and P2X7 genes polymorphisms with risk of developing TB in Iranian population. PMID: 27020872
  10. Mendelian susceptibility to mycobacteria due to a partial dominant mutation of the interferon gamma receptor 1 gene. PMID: 26251056
  11. Targeted deep sequencing identifies rare loss-of-function variants in IFNGR1 for risk of atopic dermatitis complicated by eczema herpeticum PMID: 26343451
  12. Statistical analyses revealed that four genetic variants in IFNGR1 were marginally associated with the risk of Tuberculosis (P = 0.02-0.04), while other single nucleotide polymorphisms in IFNGR1 and IFNGR2 did not exhibit any associations PMID: 25815589
  13. FcgammaRIIa cross-talk with TLRs, IL-1R, and IFNgammaR selectively modulates cytokine production in human myeloid cells. PMID: 25108563
  14. In an African-American population, a significant difference in IFNGR1 expression between patients with RA and controls. However, IFNGR1 expression levels were not statistically significantly associated with erosion status or other radiographic outcomes. PMID: 25708927
  15. Intact IFN-gammaR1 expression and function distinguishes Langerhans cell histiocytosis from mendelian susceptibility to mycobacterial disease. PMID: 24254535
  16. Genetic polymorphisms in IFNGR1 gene are involved in the risk of tuberculosis in the Chinese population. PMID: 24680779
  17. work aimed to evaluate single nucleotide polymorphisms (SNPs) of IFNGR1, GSTT1, and GSTP1 genes samples in gastric cancer PMID: 24453034
  18. A novel heterozygous frameshift mutation (805delT) encoding the IFN-gamma receptor 1 (IFNGR1) was identified, presenting in a case of Mycobacterium intracellulare infection. PMID: 24220318
  19. An association study of functional polymorphic genes .... IFNGR-1, ...... with disease progression, aspartate aminotransferase, alanine aminotransferase, and viral load in chronic hepatitis B and C. PMID: 23040881
  20. Interaction of IFNgammaR1 with TRAF6 regulates NF-kappaB activation and IFNlambdaR1 stability. PMID: 22644879
  21. A novel endocytosis motif shares characteristics of tyrosine-based and dileucine-based internalization sequences and is highly conserved in IFN-gamma receptors across species. PMID: 22595141
  22. IFNGR1 is a modifier gene of cystic fibrosis disease. PMID: 21731057
  23. The Japanese patients with a genetic mutation in the IFN-gamma-R1 gene were more susceptible to developing recurrent disseminated mycobacterial infections. PMID: 21221749
  24. Single nucleotide polymorphism in IFNGR1 gene is associated with rectal cancer. PMID: 21859832
  25. CD74 gene over-expression in TEC can increase IFN-gammaR mRNA expression PMID: 21722521
  26. The autosomal recessive disorder, because of a single mutation in interferon-gamma receptor-1(IFNGR1) at position -56, was found to be associated with susceptibility to leprosy in children of the same family. PMID: 21460021
  27. IL-29 up-regulated, whereas IFNalpha down-regulated, the surface expression of the IFNgamma receptor 1 chain on macrophages, thereby resulting in differential responsiveness of TLR-challenged macrophages to IFNgamma. PMID: 21190998
  28. results do not show an implication of IFNGR1gene polymorphisms in the susceptibility to and clinical expression of giant cell arteritis PMID: 20412699
  29. Clinical trial of gene-disease association. (HuGE Navigator) PMID: 20399512
  30. study showed a positive association between -56C/C genotype of IFNGR1 (OR = 1.7; 95% CI = 1.1-2.7) and pre-eclampsia. PMID: 20070287
  31. Functional analysis of naturally occurring amino acid substitutions in human IFN-gammaR1. PMID: 20015550
  32. A case-control association analysis failed to detect significant association between the IFNGR1 polymorphisms and cerebral malaria in the Thai population PMID: 19712753
  33. partial IFNGR1 mutations in Japanese patients with BCG osteomyelitis PMID: 11865431
  34. IFNGR1 gene promoter polymorphisms may be assocaited with susceptibility to cerebral malaria PMID: 12023780
  35. Mutations in interferon-gamma receptor 1. PMID: 12027427
  36. This study identified a further role of IFN-gamma on IL-4 responses, including reduced IL-4R surface expression by human monocytes. PMID: 12034035
  37. Lipid microdomains are required sites for the selective endocytosis and nuclear translocation of IFN-gamma receptor-1. PMID: 12165521
  38. Partial deficiency of IFN-gamma receptor 1 results in abrogation of IFN-gamma-induced killing of Salmonella typhimurium and Toxoplasma gondii due to IFN-gamma unresponsiveness of patients' cells of the monocyte/macrophage lineage. PMID: 12244188
  39. FRET was used to demonstrate that the IFNGR chains were preassembled on the cell membrane. PMID: 12438563
  40. suppressed by 2- to 3-fold in B-cell chronic lymphocytic leukemia cells, which is expected to increase CLL cell survival PMID: 12454749
  41. Genome analysis identified polymorphism in the human interferon gamma receptor affecting Helicobacter pylori infection. PMID: 12516030
  42. Mutations have no association with the susceptibility to lepromatous leprosy in the Korean population. PMID: 12743658
  43. Unidentified allelic variations in the IFNGR1 gene might elevate or decrease the risk in the Croatian population, as a part of the multigenic predisposition to tuberculosis. PMID: 12753505
  44. In this study, although IFN-gamma production in the allergic patients with L467P was equivalent to that in the non-allergic subjects, their serum IgE levels were high and they had allergic diseases PMID: 12851715
  45. IFN-gamma receptor deficiency alters the epitope hierarchy of the pool of lymphocytic choriomeningitis virus-specific memory CD8 T cells without significantly affecting the immunodominance of the primary CD8 T cell response in an acute infection. PMID: 14734726
  46. disease susceptibility in Schistosoma mansoni infection to hepatic fibrosis is linked to a SNP in the interferon gamma receptor locus (P=0.000001). PMID: 15756299
  47. The IFN-GammaR2 Arg64/Arg64 genotype does not determine susceptibility to SLE in Chinese people, and the combination of IFN-Gamma R2 Arg64/Arg64 genotype and IFN-Gamma R1 Val14/Val14 genotype does not, either. PMID: 15952126
  48. The relationship between polymorphisms at IFNGR1 and susceptibility to pulmonary tuberculosis is reported in Iranian patients. PMID: 16233916
  49. IFNGR1 does not contribute to susceptibility to rheumatoid arthritis in Caucasians, although a single nucleotide polymorphisms exist in this disease. PMID: 16563189
  50. Novel tuberculosis association was found with the 56CC genotype of the IFNGR1 promotor. PMID: 16690980

FAQs

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Proteins are sensitive to heat, and freeze-drying can preserve the activity of the majority of proteins. It improves protein stability, extends storage time, and reduces shipping costs. However, freeze-drying can also lead to the loss of the active portion of the protein and cause aggregation and denaturation issues. Nonetheless, these adverse effects can be minimized by incorporating protective agents such as stabilizers, additives, and excipients, and by carefully controlling various lyophilization conditions.

Commonly used protectant include saccharides, polyols, polymers, surfactants, some proteins and amino acids etc. We usually add 8% (mass ratio by volume) of trehalose and mannitol as lyoprotectant. Trehalose can significantly prevent the alter of the protein secondary structure, the extension and aggregation of proteins during freeze-drying process; mannitol is also a universal applied protectant and fillers, which can reduce the aggregation of certain proteins after lyophilization.

Our protein products do not contain carrier protein or other additives (such as bovine serum albumin (BSA), human serum albumin (HSA) and sucrose, etc., and when lyophilized with the solution with the lowest salt content, they often cannot form A white grid structure, but a small amount of protein is deposited in the tube during the freeze-drying process, forming a thin or invisible transparent protein layer.

Reminder: Before opening the tube cap, we recommend that you quickly centrifuge for 20-30 seconds in a small centrifuge, so that the protein attached to the tube cap or the tube wall can be aggregated at the bottom of the tube. Our quality control procedures ensure that each tube contains the correct amount of protein, and although sometimes you can't see the protein powder, the amount of protein in the tube is still very precise.

To learn more about how to properly dissolve the lyophilized recombinant protein, please visit Lyophilization FAQs.

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