Recombinant Human IL-27 Ra/WSX-1/TCCR Fc Biotin Protein, CF New
Recombinant Human IL-27 Ra/WSX-1/TCCR Fc Biotin Protein, CF Summary
Product Specifications
Human IL-27Ra (Gly34-Lys516) Accession # Q6UWB1.2 | IEGRMD | Human IgG1 (Pro100-Lys330) |
N-terminus | C-terminus | |
Analysis
Product Datasheets
Carrier Free
CF stands for Carrier Free (CF). We typically add Bovine Serum Albumin (BSA) as a carrier protein to our recombinant proteins. Adding a carrier protein enhances protein stability, increases shelf-life, and allows the recombinant protein to be stored at a more dilute concentration. The carrier free version does not contain BSA.
In general, we advise purchasing the recombinant protein with BSA for use in cell or tissue culture, or as an ELISA standard. In contrast, the carrier free protein is recommended for applications, in which the presence of BSA could interfere.
BT1479
Formulation | Lyophilized from a 0.2 μm filtered solution in PBS with Trehalose. |
Reconstitution | Reconstitute at 500 μg/mL in PBS. |
Shipping | The product is shipped at ambient temperature. Upon receipt, store it immediately at the temperature recommended below. |
Stability & Storage: | Use a manual defrost freezer and avoid repeated freeze-thaw cycles.
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Scientific Data
Biotinylated Recombinant Human IL-27 R alpha /WSX-1/TCCR Fc Chimera Protein (Catalog # BT1479) binds Recombinant Human IL-27 (2526-IL/CF) with an ED50 of 12.0‑160 ng/mL.
2 μg/lane of Biotinylated Recombinant Human IL‑27 R alpha /WSX‑1/TCCR Fc Chimera Protein (Catalog # BT1479) was resolved with SDS-PAGE under reducing (R) and non-reducing (NR) conditions and visualized by Coomassie® Blue staining, showing bands at 95-110 kDa and 190-220 kDa, respectively.
Reconstitution Calculator
Background: IL-27 R alpha/WSX-1/TCCR
IL‑27 R alpha (also known as WSX‑1 and TCCR) is a 96 ‑ 100 kDa member of the type I, group 2 cytokine receptor family (1, 2, 3, 4, 5, 6). Mature IL‑27 R alpha is a type I transmembrane glycoprotein that contains a 484 amino acid (aa) extracellular region, a 21 aa transmembrane segment and a 99 aa cytoplasmic domain. Consistent with type I cytokine receptors, the extracellular region contains four positionally conserved cysteine residues, a WSxWS motif (for receptor folding and ligand binding), and three fibronectin type III repeats. The intracellular domain contains a "box‑1" motif that may be involved with Janus kinases (3). One potential alternate splice form has been hypothesized that involves a 58 aa addition to the cytoplasmic domain and, based on mouse, a soluble 33 kDa splice form that shows a 20 aa substitution for aa 257 ‑ 636 may also occur in human (3, 7). The human IL‑27 R alpha extracellular region shares 63% amino acid identity with the mouse IL‑27 R alpha extracellular domain (2, 3). IL‑27 R alpha is expressed in mast cells, endothelial cells, NK cells, macrophages, monocytes, B cells, dendritic cells, and naïve T cells (1, 2, 4, 8). Typical of other class I cytokine receptor chains, the ligand binding IL‑27 R alpha molecule is known to heterodimerize with a signal‑transducing subunit (gp130) to form a functional IL‑27 receptor (9, 10). In addition, IL‑27 R alpha is reported to complex with CNTFR alpha and gp130 form a humanin receptor on neurons (7, 11), and to complex with gp130 and IL‑6 R to form a receptor for a p28:CLF heterodimeric cytokine on lymphocytes (12). Studies using IL‑27 R alpha /WSX‑1‑/‑ mice reveal that IL‑27 has the ability to suppress T cell activity during infection, and to mediate an inhibition of both type 1 and type 2 T cell immunity (4, 13, 14). In particular, IL‑27 is known to act on naïve T cells, blocking their differentiation into a Th17 phenotype. Notably, cells committed to a Th17 phenotype, although they express a functional IL‑27 receptor, are unresponsive to the effects of IL‑27 (15). Activated T cells that are CD4+ and CD8+, and which express the IL‑27 receptor, can be induced by
IL‑27 to form a double‑positive CD25+ FoxP3‑ IFN‑ gamma plus IL‑10 secreting phenotype that both promotes and suppresses the inflammatory response (16).
- Villarino, A.V. et al. (2004) J. Immunol. 173:715.
- Chen, Q. et al. (2000) Nature 407:916.
- Sprecher, C.A. et al. (1998) Biochem. Biophys. Res. Commun. 246:82.
- Artis, D. et al. (2004) J. Immunol. 173:5626.
- Yoshida, H. & Y. Miyazaki (2008) Int. J. Biochem. Cell Biol. 40:2379.
- Yoshida, H. & M. Yoshiyuki (2008) Immunol. Rev. 226:234.
- Hashimoto, Y. et al. (2009) Biochem. Biophys. Res. Commun. 389:95.
- Holscher, C. et al. (2005) J. Immunol. 174:3534.
- Pflanz, S. et al. (2004) J. Immunol. 172:2225.
- Scheller, J. et al. (2005) Biochem. Biophys. Res. Commun. 326:724.
- Hashimoto, Y. et al. (2009) Mol. Biol. Cell 20:2864.
- Crabe, S. et al. (2009) J. Immunol. 183:7692.
- Villarino, A. et al. (2003) J. Immunol. 170:645.
- Hamano., S. et al. (2003) Immunity 19:657.
- El-behi, M. et al. (2009) J. Immunol. 183:4957.
- Fitzgerald, D.C. et al. (2007) Nat. Immunol. 8:1372.
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