Affinity purified Phaseolus vulgaris lectin (PHA-E) is tetrameric glycoprotein and responsible for the erythroagglutinating properties of the PHA fraction. It has a carbohydrate specificity towards oligosaccharides and elutes with bovine thyroglobulin or acetic acid. PHA-E will bind to both human erythrocytes and lymphocytes, with a specificity towards blood group A (-SA). There are five times more PHA-E receptors on normal human lymphocytes than there are on erythrocytes. The crystal structure of a ligand-free PHA-E has a typical legume lectin fold characterized by two anti-parallel β-sheets and two short α-helices, and contains one GlcNAc residue of the N-linked glycan. Asparagine linked erythrocytes glycopeptide is an inhibitor of PHA-E induced agglutination and mitogenicity, and becomes inactive if treated with β-galactosidase. PHA-E binds di-galactosylated and bisected N-glycan. This lectin is widely used as a biochemical tool for detecting bisecting GlcNAc- and Gal-bearing glycoproteins.
Alkaline phosphatase (AP) is conjugated to Phaseolus vulgaris Lectin (PHA-E) to show the binding of PHA-E in many applications including Western blotting and ELISA. Alkaline phosphatase is a large protein (140 kDa) that catalyzes the hydrolysis of phosphate groups from a substrate resulting in a colored or fluorescent product. The optimal enzymatic activity of this protein is between pH 8 and 10, and its reaction rate remains linear, improving sensitivity over time.