Lactate oxidase was freeze-dried and stored in DEAE-dextran/ lactitol
for 355 days at 25 degrees C. By this time the activity of the enzyme
had fallen to about 64% of its initial activity, whereas that stored w
ithout polymer had fallen to about 2%. The enzyme was also incorporate
d into electrodes with various polymers: hydroxyethyl cellulose, DEAE-
dextran/lactitol, a neutral form of Gafquat, a cationic form and a mix
ture of the cationic form and lactitol, the electrodes being stored at
25 degrees C for 172 days. The highest currents at the end of the sto
rage period were developed by those electrodes based on the cationic f
orm of Gafquat, either by itself or mixed with lactitol. This work ind
icates that lactate oxidase may be stabilized by readily available pol
ymers for periods approaching commercially feasible shelf-lives. (C) 1
996 Elsevier Science Limited