Render Target: SSR
Render Timestamp: 2024-12-19T21:19:07.892Z
Commit: f2d32940205a64f990b886d724ccee2c9935daff
XML generation date: 2024-08-01 15:26:11.919
Product last modified at: 2024-12-17T18:51:45.034Z
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PDP - Template Name: Monoclonal Antibody
PDP - Template ID: *******c5e4b77
R Recombinant
Recombinant: Superior lot-to-lot consistency, continuous supply, and animal-free manufacturing.

IKKε (D20G4) Rabbit mAb #2905

Filter:
  • WB
  • IP

    Supporting Data

    REACTIVITY H
    SENSITIVITY Endogenous
    MW (kDa) 80
    Source/Isotype Rabbit IgG
    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 1:100

    Storage

    Supplied in 10 mM sodium HEPES (pH 7.5), 150 mM NaCl, 100 µg/ml BSA, 50% glycerol and less than 0.02% sodium azide. Store at –20°C. Do not aliquot the antibody.

    Protocol

    Specificity / Sensitivity

    IKKε (D20G4) Rabbit mAb detects endogenous levels of total IKK-epsilon protein. This antibody does not cross-react with other IKKs or with TBK1/NAK.

    Species Reactivity:

    Human

    The antigen sequence used to produce this antibody shares 100% sequence homology with the species listed here, but reactivity has not been tested or confirmed to work by CST. Use of this product with these species is not covered under our Product Performance Guarantee.

    Species predicted to react based on 100% sequence homology:

    Monkey

    Source / Purification

    Monoclonal antibody is produced by immunizing animals with a synthetic peptide corresponding to residues surrounding Val345 of human IKK-epsilon.

    Background

    The NF-κB/Rel transcription factors are present in the cytosol in an inactive state, complexed with the inhibitory IκB proteins (1-3). Most agents that activate NF-κB do so through a common pathway based on phosphorylation-induced, proteasome-mediated degradation of IκB (3-7). The key regulatory step in this pathway involves activation of a high molecular weight IκB kinase (IKK) complex whose catalysis is generally carried out by three tightly associated IKK subunits. IKKα and IKKβ serve as the catalytic subunits of the kinase and IKKγ serves as the regulatory subunit (8,9). Activation of IKK depends upon phosphorylation at Ser177 and Ser181 in the activation loop of IKKβ (Ser176 and Ser180 in IKKα), which causes conformational changes, resulting in kinase activation (10-13).
    Recently, two homologs of IKKα and IKKβ have been described, called IKKε (also known as IKK-i) and TBK-1 (also known as T2K or NAK), and activation of either of these kinases results in NF-κB activation. IKKε contains the kinase domain in its amino terminus, which shares 30% identity to that of IKKα or IKKβ. IKKε is expressed mainly in immune cells, and may play a special role in the immune response (14-18).
    1. Baeuerle, P.A. and Baltimore, D. (1988) Science 242, 540-6.
    2. Beg, A.A. and Baldwin, A.S. (1993) Genes Dev 7, 2064-70.
    3. Finco, T.S. et al. (1994) Proc Natl Acad Sci USA 91, 11884-8.
    4. Brown, K. et al. (1995) Science 267, 1485-8.
    5. Brockman, J.A. et al. (1995) Mol Cell Biol 15, 2809-18.
    6. Traenckner, E.B. et al. (1995) EMBO J 14, 2876-83.
    7. Chen, Z.J. et al. (1996) Cell 84, 853-62.
    8. Zandi, E. et al. (1997) Cell 91, 243-52.
    9. Karin, M. (1999) Oncogene 18, 6867-74.
    10. DiDonato, J.A. et al. (1997) Nature 388, 548-54.
    11. Mercurio, F. et al. (1997) Science 278, 860-6.
    12. Johnson, L.N. et al. (1996) Cell 85, 149-58.
    13. Delhase, M. et al. (1999) Science 284, 309-13.
    14. Shimada, T. et al. (1999) Int Immunol 11, 1357-62.
    15. Peters, R.T. et al. (2000) Mol Cell 5, 513-22.
    16. Tojima, Y. et al. (2000) Nature 404, 778-82.
    17. Bonnard, M. et al. (2000) EMBO J 19, 4976-85.
    18. Peters, R.T. and Maniatis, T. (2001) Biochim Biophys Acta 1471, M57-62.
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