Toll-like Receptor 9 Antibody #2254
Filter:
- WB
- IP
Supporting Data
| REACTIVITY | H |
| SENSITIVITY | Endogenous |
| MW (kDa) | 130 |
| SOURCE | Rabbit |
Application Key:
- WB-Western Blotting
- IP-Immunoprecipitation
Species Cross-Reactivity Key:
- H-Human
Product Information
Product Usage Information
| Application | Dilution |
|---|---|
| Western Blotting | 1:1000 |
| Immunoprecipitation | 1:50 |
Storage
Supplied in 10 mM sodium HEPES (pH 7.5), 150 mM NaCl, 100 µg/ml BSA and 50% glycerol. Store at –20°C. Do not aliquot the antibody.
Protocol
Specificity / Sensitivity
Toll-like Receptor 9 Antibody detects endogenous levels of total TLR9 protein. Cross reactivity was not detected with other family members at physiological conditions. This antibody is predicted to react with isoforms A and B of human TLR9, based on homology.
Species Reactivity:
Human
Source / Purification
Polyclonal antibodies are produced by immunizing animals with a synthetic peptide corresponding to residues surrounding Gly442 of human TLR9 protein. Antibodies are purified by protein A and peptide affinity chromatography.
Background
Members of the Toll-like receptor (TLR) family, named for the closely related Toll receptor in Drosophila, play a pivotal role in innate immune responses (1-4). TLRs recognize conserved motifs found in various pathogens and mediate defense responses (5-7). Triggering of the TLR pathway leads to the activation of NF-κB and subsequent regulation of immune and inflammatory genes (4). The TLRs and members of the IL-1 receptor family share a conserved stretch of approximately 200 amino acids known as the Toll/Interleukin-1 receptor (TIR) domain (1). Upon activation, TLRs associate with a number of cytoplasmic adapter proteins containing TIR domains, including myeloid differentiation factor 88 (MyD88), MyD88-adapter-like/TIR-associated protein (MAL/TIRAP), TIR domain-containing adapter-inducing IFN-β (TRIF), and Toll-receptor-associated molecule (TRAM) (8-10). This association leads to the recruitment and activation of IRAK1 and IRAK4, which form a complex with TRAF6 to activate TAK1 and IKK (8,11-14). Activation of IKK leads to the degradation of IκB, which normally maintains NF-κB in an inactive state by sequestering it in the cytoplasm.
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- Beutler, B. (2004) Nature 430, 257-63.
- Dunne, A. and O'Neill, L.A. (2003) Sci STKE 2003, re3.
- Medzhitov, R. et al. (1997) Nature 388, 394-7.
- Schwandner, R. et al. (1999) J Biol Chem 274, 17406-9.
- Takeuchi, O. et al. (1999) Immunity 11, 443-51.
- Alexopoulou, L. et al. (2001) Nature 413, 732-8.
- Zhang, F.X. et al. (1999) J Biol Chem 274, 7611-4.
- Horng, T. et al. (2001) Nat Immunol 2, 835-41.
- Oshiumi, H. et al. (2003) Nat Immunol 4, 161-7.
- Muzio, M. et al. (1997) Science 278, 1612-5.
- Wesche, H. et al. (1997) Immunity 7, 837-47.
- Suzuki, N. et al. (2002) Nature 416, 750-6.
- Irie, T. et al. (2000) FEBS Lett 467, 160-4.
限制使用
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For Research Use Only. Not For Use In Diagnostic Procedures.
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