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Tag: Calnexin antobody

All About Calnexin Antibody

Calnexin (also known as IP90 or p88), is an integral membrane protein that measures approximately 90 kDa in the endoplasmic reticulum. Many resident ER proteins serve as molecular chaperones, and help in the proper folding and assembly of polypeptides into multisubunit proteins. 

Calnexin is associated with the major histocompatibility complicated (MHC) class 1 heavy chains, partial complexes, and the B cell membrane immunoglobulin but not with complete receptor complexes. Calnexin, a chaperone, is known to retain incompletely or incorrectly folded proteins in ER. Calnexin is detected in a paraffin-embedded section.


Calnexin is an integral membrane ER resident protein that lacks the KDEL sequence, but has positively charged cytosolic residues that allow for ER retention. Calnexin has a large ER luminal region (461 amino acid), a transmembrane segment (22.2 amino acids) and a cytoplasmic trail (89 amino acids).

Calnexin, chaperone proteins, is found in the membrane of endoplasmic retina. Calnexin, along with the calreticulin related protein, work together to ensure proper folding of glycoproteins. Calnexin is an important quality control monitor that ensures proper folding of proteins bound for the plasma membrane and secretion. 

Calnexin has a lectin-site that recognizes substrate proteins using a transient intermediate oligosaccharide with a terminal glucose residue. Calnexin participates in most, if not all, glycoprotein folding through this interaction. Calnexin has binding sites for its cofactors ATP, Ca2+, and can recruit enzymes that facilitate disulfide bond formation. 

Calnexin binding keeps substrate proteins in the ER till they are fully mature. The intermediate oligosaccharide of these substrate proteins is cleaved glucosidase I, or until they are ready for destruction. Calnexin can be used to survive in cells, but mice have severe neurological problems. This indicates that calnexin plays a role in other developmental processes such as regulation of Ca2+ homeostasis and protein folding.