Overview

  • Product nameAnti-GPCR GPR64 antibody
    See all GPCR GPR64 primary antibodies
  • Description
    Mouse polyclonal to GPCR GPR64
  • Tested applicationsSuitable for: WBmore details
  • Species reactivity
    Reacts with: Human
  • Immunogen

    Recombinant fragment corresponding to Human GPCR GPR64. Recombinant fragment corresponding to amino acids (100 fused) 123-142, 242-261, 275-294, 313-332, 570-589 of Human GPCR GPR64.
    Sequence:

    IMFQYDKEST VPQNQHITNG CLADHPRGPP FSSSQSIPVV SFAEPPDYSP VTHNVPSPIG IDMPPQSETI SSPMPQTHVS WDLGRNGGRG GWSDNGCSVK

  • General notes


    This antibody was raised by a genetic immunization technique. Genetic immunization can be used to generate antibodies by directly delivering antigen-coding DNA into the animal, rather than injecting a protein or peptide (Tang et al. PubMed: 1545867; Chambers and Johnston PubMed 12910245; Barry and Johnston PubMed: 9234514). The animal's cells produce the protein, which stimulates the animal's immune system to produce antibodies against that particular protein. A vector coding for a partial fusion protein was used for genetic immunisation of a mouse and the resulting serum was tested in Western blot against an E.coli lysate containing that partial fusion protein. Genetic immunization offers enormous advantages over the traditional protein-based immunization method. DNA is faster, cheaper and easier to produce and can be produced by standard techniques readily amenable to automation. Furthermore, the antibodies generated by genetic immunization are usually of superior quality with regard to specificity, affinity and recognizing the native protein.

Properties

  • FormLiquid
  • Storage instructionsShipped at 4°C. Upon delivery aliquot and store at -20°C. Avoid freeze / thaw cycles.
  • Storage bufferPreservative: None
    Constituents: 50% Glycerol, Whole serum
  • PurityWhole antiserum
  • Primary antibody notesThis antibody was raised by a genetic immunization technique. Genetic immunization can be used to generate antibodies by directly delivering antigen-coding DNA into the animal, rather than injecting a protein or peptide (Tang et al. PubMed: 1545867; Chambers and Johnston PubMed 12910245; Barry and Johnston PubMed: 9234514). The animal's cells produce the protein, which stimulates the animal's immune system to produce antibodies against that particular protein. A vector coding for a partial fusion protein was used for genetic immunisation of a mouse and the resulting serum was tested in Western blot against an E.coli lysate containing that partial fusion protein. Genetic immunization offers enormous advantages over the traditional protein-based immunization method. DNA is faster, cheaper and easier to produce and can be produced by standard techniques readily amenable to automation. Furthermore, the antibodies generated by genetic immunization are usually of superior quality with regard to specificity, affinity and recognizing the native protein.
  • ClonalityPolyclonal
  • IsotypeIgG
  • Research areas

Applications

Our Abpromise guarantee covers the use of ab52801 in the following tested applications.

The application notes include recommended starting dilutions; optimal dilutions/concentrations should be determined by the end user.

Application Abreviews Notes
WB 1/1000. Predicted molecular weight: 112 kDa.

This antibody has been tested in Western blot against an E.coli lysate containing the partial recombinant fusion protein used as an immunogen. We have no data on detection of endogenous protein.

Target

  • RelevanceThis orphan B G-protein coupled receptor could be involved in a signal transduction pathway controlling epidymal function and male fertility: it has been reported in the epididymis. ESTs have been isolated from embryo, kidney, placenta, skeletal muscle and testis libraries.
  • Cellular localizationCell membrane; Multi pass membrane protein.
  • Database links
  • Alternative names
    • Epididymis specific protein 6 antibody
    • FLJ00282 antibody
    • G protein coupled receptor 64 antibody
    • G protein coupled receptor epididymis specific antibody
    • GPR 64 antibody
    • GPR64 antibody
    • HE 6 antibody
    • He 6 receptor antibody
    • HE6 antibody
    • He6 receptor antibody
    • MGC104454 antibody
    • MGC138738 antibody
    • MGC138739 antibody
    • TM7LN2 antibody
    see all

Anti-GPCR GPR64 antibody images

  • All lanes : Anti-GPCR GPR64 antibody (ab52801) at 1/1000 dilution

    Lane 1 : Negative control lane: ~20µg of a total protein extract from E.coli with ~50ng to 100 ng of a fusion protein of an irrelevant antigen.
    Lane 2 : Test lane: ~20µg of a total protein extract from E.coli with ~50ng to 500ng of the antigen (a fusion protein).

    Secondary
    Rabbit anti-mouse IgG + IgM, (H+L) horseradish peroxidase conjugated at 1/5000 dilution

    Predicted band size : 112 kDa
    Observed band size : 38 kDa (why is the actual band size different from the predicted?)

References for Anti-GPCR GPR64 antibody (ab52801)

ab52801 has not yet been referenced specifically in any publications.

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Please note: All products are "FOR RESEARCH USE ONLY AND ARE NOT INTENDED FOR DIAGNOSTIC OR THERAPEUTIC USE"