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Antigenic Specificity | Calnexin-NT |
Clone | polyclonal |
Host Species | Rabbit |
Reactive Species | human, mouse, rat, bovine, chicken, dog, guinea pig, hamster, porcine, monkey, rabbit, sheep, Xenopus |
Isotype | n/a |
Format | APC-Cy7 conjugate |
Size | 0.2 mL |
Concentration | n/a |
Applications | Western Blot (WB), Immunohistochemistry (IHC), Immunocytochemistry (ICC), Immunofluorescence (IF), Immunoprecipitation (IP) |
Reviews / Ratings | If you have used this antibody, please help fellow researchers by submitting reviews to pAbmAbs and antYbuddY. |
Description | Detects the N-terminal domain of Calnexin ~90 kDa. Calnexin, an abundant ~90kDa integral protein of the endoplasmic reticulum, is also referred to as IP90, p88 and p90 (1). It consists of a large 50kDa N-terminal calcium-binding luminal domain, a single transmembrane helix and a short acidic cytoplasmic tail (2, 3). Unlike its ER counterparts which have a KDEL sequence on their C-terminus to ensure ER retention (4), calnexin has positively charged cytosolic residues that do the same thing (3). Most ER proteins act as molecular chaperones and participate in the proper folding of polypeptides and their assembly into mulit-subunit proteins. Calnexin together with calreticulin, plays a key role in glycoprotein folding and its control within the |
Immunogen | Immunogen: A 19 residue synthetic peptide based on dog calnexin and the peptide coupled to KLH |
Other Names | [Rabbit Human Calnexin-NT; Calnexin; CALX_HUMAN; CANX; CNX; FLJ26570; Histocompatibility complex class I antigen binding protein p88; IP90; Major histocompatibility complex class I antigen-binding protein p88; P90; Calnexin] |
Gene, Accession # | [CNX], Gene ID: 403908, NCBI: NP_001003232.1, UniProt: P24643 |
Catalog # | MBS8004169 |
Price | $670 |
Order / More Info | Calnexin-NT Antibody from MYBIOSOURCE INC. |
Product Specific References | 1. Rajagopalan S., Xu Y., and Brenner M.B. (1994) Science 263(5145): 387-90. 2. Tjoelker L.W., et al. (1994) Biochemistry 33:3229. 3. Schrag J. et al. (2001) Molecular Cell 8(3): 633-644. 4. Janiszewski M. (2005) J. Biol Chem. 280(49):40813-40819. 5. Elagoz A., Callejo M., Armstrong J., and Rokeach L. A. (1999) J. Cell Sci. 112: 4449-4460. 6. Otteken A. and Moss B. (1996) J Bio Chem. 271(1): 97-103. 7. Galvin K. et al. (1992) Proc Natl Acad Sci USA. 89(18): 8452-6. 8. Raggo C., et al. (2002) Mol Cell Biol. 22: 5639-5649. 9. Rubio M.E., and Wenthold R.J. (1999) J Neurochem. 73: 942-948. |