Anti-SLC2A11 (GLUT11) (Human) pAb

  • Applications
    • FCM
    • ICC
    • IHC
    • WB
  • Target SLC2A11
  • Host Species Rabbit
  • Species Reactivities Human
  • Code # BMP025
  • Size 50 μl
  • Price
    $306.33
Specifications

Background

SLC2A11, also known as GLUT11, is a member of the facilitative glucose transporter family, and has the highest similarity with fructose transporter SLC2A5/GLUT5 (about 42%). GLUT11 has at least three splice variants (GLUT11-A, GLUT11-B, and GLUT11-C) that differ in their N-termini region. The three GLUT11 isoforms are distributed in a tissue specific manner. GLUT11-A is expressed in heart, skeletal muscle, and kidney, GLUT11-B in kidney, adipose tissue, and placenta, and GLUT11-C in adipose tissue, heart, skeletal muscle. Functional differences among these isoforms as a sugar transporter for glucose and fructose, however, have not been found.
  • Antibody Type:
    Polyclonal
  • Application:
    FCM, ICC, IHC, WB
  • Conjugate:
    Unlabeled
  • Description:
    Polyclonal antibody of 50 μL targeting SLC2A11 for FCM, ICC, IHC, WB.
  • Formulation:
    50 µl volume of PBS containing50% glycerol, pH 7.2. No preservative is contained.
  • Gene ID (Human):
  • Host Species:
    Rabbit
  • Immunogen:
    Synthetic peptide derived from human SLC2A11
  • Isotype:
    IgG
  • Product Type:
    Antibody
  • Reactivity:
    This antibody can be used to stain endogenous antigen in paraffin embedded human tissues including brain by immunohistochemistry. The reactivity of this antibody has been confirmed by Western blotting, Immunocytochemistry and intr acellular Flow cytometry
  • Research Area:
    Cell Biology
  • Short Description:
    Polyclonal antibody of 50 μL targeting SLC2A11 for FCM, ICC, IHC, WB.
  • Size:
    50 μl
  • Species Reactivity:
    Human
  • Storage Temperature:
    -20°C
  • Target:
    SLC2A11
Citations
  1. Scheepers, A.,et al., Mol. Membr Biol.22, 339-351 (2005)
  2. Wu, X., et al., Mol. Genet. Metab. 76, 37-45 (2002)
  3. Doege, H., et al., Biochem. J,359, 443-449 (2001)
  4. Sasaki, T., et al., BBRC 289 , 1218-1224 (2001)
References
  1. Scheepers, A.,et al., Mol. Membr Biol.22, 339-351 (2005)
  2. Wu, X., et al., Mol. Genet. Metab. 76, 37-45 (2002)
  3. Doege, H., et al., Biochem. J,359, 443-449 (2001)
  4. Sasaki, T., et al., BBRC 289 , 1218-1224 (2001)