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Render Timestamp: 2024-12-20T11:38:38.141Z
Commit: f2d32940205a64f990b886d724ccee2c9935daff
XML generation date: 2024-11-18 18:01:08.916
Product last modified at: 2024-12-17T18:55:36.351Z
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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.

SIRPα/SHPS1 (D6I3M) Rabbit mAb (BSA and Azide Free) #47027

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  • WB
  • IHC
  • IF
  • F

    Supporting Data

    REACTIVITY H M R Mk
    SENSITIVITY Endogenous
    MW (kDa) 85 (human, monkey), 100 (rat), 120 (murine isoform 1), 55 (murine isoform 2)
    Source/Isotype Rabbit IgG
    Application Key:
    • WB-Western Blotting 
    • IHC-Immunohistochemistry 
    • IF-Immunofluorescence 
    • F-Flow Cytometry 
    Species Cross-Reactivity Key:
    • H-Human 
    • M-Mouse 
    • R-Rat 
    • Mk-Monkey 

    Product Information

    Product Usage Information

    This product is the carrier free version of product #13379. All data were generated using the same antibody clone in the standard formulation which contains BSA and glycerol.

    This formulation is ideal for use with technologies requiring specialized or custom antibody labeling, including fluorophores, metals, lanthanides, and oligonucleotides. It is not recommended for ChIP, ChIP-seq, CUT&RUN, or CUT&Tag assays. If you require a carrier-free formulation for chromatin profiling, please contact us. Optimal dilutions/concentrations should be determined by the end user.

    BSA and Azide Free antibodies are quality control tested by size exclusion chromatography (SEC) to determine antibody integrity.

    Formulation

    Supplied in 1X PBS (10 mM Na2HPO4, 3 mM KCl, 2 mM KH2PO4, and 140 mM NaCl (pH 7.8)). BSA and Azide Free.

    For standard formulation of this product see product #13379.

    Storage

    Store at -20°C. This product will freeze at -20°C so it is recommended to aliquot into single-use vials to avoid multiple freeze/thaw cycles. A slight precipitate may be present and can be dissolved by gently vortexing. This will not interfere with antibody performance.

    Specificity / Sensitivity

    SIRPα/SHPS1 (D6I3M) Rabbit mAb (BSA and Azide Free) recognizes endogenous levels of total SHPS1 protein. This antibody recognizes both large and small isoforms of murine mSHPS1/SIRPα.

    Species Reactivity:

    Human, Mouse, Rat, Monkey

    Source / Purification

    Monoclonal antibody is produced by immunizing animals with a synthetic peptide corresponding to residues surrounding Pro413 of human SIRPα/SHPS1 protein.

    Background

    SHP-substrate 1 (SHPS1, SIRPα) is a single-pass membrane protein and member of both the immunoglobulin superfamily and the signal regulatory protein (SIRP) family. Following growth hormone stimulation or integrin binding, SHPS1 is phosphorylated at several tyrosine residues within its cytoplasmic tail. These phosphorylation events promote association between SHPS1 and multiple signaling proteins, including SHP-1, SHP-2, Grb2 and Shc via their SH2 domains (1-4). Recruitment of SHP-1 and SHP-2 results in SHPS1 dephosphorylation and suppression of tyrosine kinase signaling (1-3,5). The tyrosine kinase JAK2 associates with SHPS1 via its carboxy terminus and phosphorylates SHPS1 in response to extracellular stimuli (5). Research studies show that Src associates with and may phosphorylate SHPS1 in response to insulin (4). In macrophages, SHPS1 can form a complex with the Src pathway adaptor protein SKAP2, Fyn-binding protein FYB, and the tyrosine kinase PYK2 (6). The SHPS1 extracellular domain contains at least three IgG-like domains that interact with CD47, a ubiquitously expressed, integrin-associated protein that acts as a repressive cue in both immune and neuronal cells (7,8). The interaction between CD47 and SHPS1 on opposing cells can inhibit cellular migration (9), promote "tethering" between macrophages and target cells during engulfment (10), facilitate self versus non-self recognition (11), and maintain immune homeostasis (12). SHPS1 plays a critical role in modulating the immune response and inflammation, and may play a role in neuronal development (13,14). The interaction between SHPS1 and CD47 may be an exploitable target in cancer therapy (15-17).
    1. Kharitonenkov, A. et al. (1997) Nature 386, 181-6.
    2. Ochi, F. et al. (1997) Biochem Biophys Res Commun 239, 483-7.
    3. Takada, T. et al. (1998) J Biol Chem 273, 9234-42.
    4. Shen, X. et al. (2009) Mol Cell Proteomics 8, 1539-51.
    5. Stofega, M.R. et al. (2000) J Biol Chem 275, 28222-9.
    6. Timms, J.F. et al. (1999) Curr Biol 9, 927-30.
    7. Seiffert, M. et al. (1999) Blood 94, 3633-43.
    8. Vernon-Wilson, E.F. et al. (2000) Eur J Immunol 30, 2130-7.
    9. Motegi, S. et al. (2003) EMBO J 22, 2634-44.
    10. Tada, K. et al. (2003) J Immunol 171, 5718-26.
    11. van Beek, E.M. et al. (2005) J Immunol 175, 7781-7.
    12. Legrand, N. et al. (2011) Proc Natl Acad Sci U S A 108, 13224-9.
    13. Sarfati, M. et al. (2008) Curr Drug Targets 9, 842-50.
    14. Matozaki, T. et al. (2009) Trends Cell Biol 19, 72-80.
    15. Hara, K. et al. (2011) Cancer Res 71, 1229-34.
    16. Willingham, S.B. et al. (2012) Proc Natl Acad Sci U S A 109, 6662-7.
    17. Weiskopf, K. et al. (2013) Science 341, 88-91.
    For Research Use Only. Not For Use In Diagnostic Procedures.
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