Immobilization of glycoenzymes through carbohydrate side chains.

Glucoamylase, peroxidase, glucose oxidase, and carboxypeptidase Y were covalently bound to water-insoluble supports through their carbohydrate side chains. Two approaches were used. First, the carbohydrate portions of the enzymes were oxidized with periodate to generate aldehyde groups. Treatment with amines (ethylenediamine or glycyltyrosine) and borohydride provided groups through which the protein could be immobilized. Ethylenediamine was attached to glucoamylase, peroxidase, glucose oxidase, and carboxypeptidase Y to the extent of 24, 20, 30, and 15 mol/mol of enzyme, respectively. These derivatives were coupled to an aminocaproate adduct of CL-Sepharose via an N-hydroxysuccinimide ester or to CNBr-activated Sepharose. Coupling yields were in the range of 37–50%. Retained activities of the bound aminoalkyl-enzymes were 41% (glucoamylase), 79% (peroxidase), 71% (glucose oxidase), 83% (carboxypeptidase Y). A glycyltyrosine derivative of carboxypeptidase Y was bound to diazotized arylamine-glass. Coupling yield was 42% and retained esterase activity was 84%. In the second approach, the enzyme was adsorbed to immobilized concanavalin A and the complex was crosslinked. Adsorption of carboxypeptidase Y on immobilized concanavalin A followed by crosslinking with glutaraldehyde was also effective. The bound enzyme retained 96% of the native esterase activity and showed very good operational stability.