Authors: Pinheiro, MP; Monteiro, RRC; Silva, FFM; Lemos, TLG; Fernandez-Lafuente, R; Goncalves, LRB; dos Santos, JCS

Article.
Process Biochem.. vol: 87. page: 1359-5113.
Date: DEC. 2019.
Doi: 10.1016/j.procbio.2019.08.016.

Abstract:
Lecitase Ultra (Leci) was immobilized on Immobead-350 (IB-350) activated with epoxy (EPO), amino-divinylsulfone (DVS) or amino-glutaraldehyde (GLU) groups. Leci-GLU had 27% more activity versus p-nitro-phenyl butyrate (p-NPB) than Leci-EPO, after 3 h of immobilization using 100 mg of enzyme/g of support (immobilization yield was 84.1%, expressed activity versus p-NPB was around 10%), the covalent immobilization was show for Leci-GLU and Leci-DVS. After 10 consecutive cycles of p-NPB hydrolysis, its activity remained unaltered. Leci-GLU was the most stable preparation at 65 degrees C and pH 7 (29 folds more stable than the free enzyme) and in the presence of 30% acetonitrile at 30 degrees C and pH 7 (almost 2 folds more stable than the free enzyme). Very interestingly, the activity versus methyl mandelate and synthesis of benzyl acetate was quite high. Although the other biocatalysts had preference for the S-methyl mandelate, Leci-GLU preferred the R-isomer at pHs 5 (VR/VS = 6.6) and 7 (VR/VS = 3.5). In the enzymatic synthesis of benzyl acetate, the most active biocatalyst was also Leci-GLU (2.1 U/mg), being almost 2 folds more active than Leci-DVS. According to the results, it was concluded that the Lecitase immobilization on IB-350 using different chemistries greatly influenced its catalytic properties..