Improving the catalytic potential and substrate tolerance of Gibberella intermedia nitrilase by whole-cell immobilization.

Comparative studies of immobilized and free cells of Gibberella intermedia CA3-1 in bioconversion of 3-cyanopyridine to nicotinic acid were performed. Entrapping method was chosen based on the advantages in enzymatic activity recovery, mechanical strength and preparation procedure. Four entrapment matrices were investigated and sodium alginate was screened to be the most suitable material. Maximal nitrilase activity of alginate immobilized cells was obtained under conditions of 2 % alginate, 0.6 % CaCl2, 0.4 g cell/g alginate, 1.8 mm bead size. The immobilized cells showed excellent substrate tolerance even when the 3-cyanopyridine concentration was 700 mM. The half-lives of immobilized cells at 30, 40 and 50 °C were 315, 117.5 and 10.9 h, respectively, correspondingly 1.4, 1.6 and 1.7-fold compared with that of the free cells. Efficient reusability of immobilized cells up to 28 batches was achieved and 205.7 g/(g dcw) nicotinic acid was obtained with 80.55 % enzyme activity preserved.