Biocatalytic properties of native and immobilized subtilisin 72 in aqueous-organic and low water media

Abstract

Subtilisin 72 was immobilized on cryogel of poly(vinyl alcohol), the macroporous carrier prepared by the freeze-thaw-treatment of concentrated aqueous solution of the polymer. The obtained biocatalyst was active and stable in aqueous, aqueous-organic, as well as in low water media. The stability of immobilized biocatalyst was substantially higher than that of native enzyme in all mixtures especially in aqueous buffer containing 5–8 M Urea and in acetonitrile/60–90%DMF mixtures. The ability of native and immobilized subtilisin to catalyze peptide bond formation between Z-Ala-Ala-Leu-OMe and Phe-pNA was studied in non-aqueous media. Considerable enzyme stabilization in acetonitrile/90%DMF mixture, induced by the immobilization, resulted in higher product yield (57%) than in case of native subtilisin suspension (32%). Detailed study of synthesis reaction revealed that notable increase in product yield could be reached using increase in both substrate concentrations up to 200 mM.