Increased trypsin resilience in aqueous-acetonitrile environment when immobilized on glyoxyl-agarose may improve its applicability

Abstract

Although trypsin is a protease naturally applicable in many processes, it is still possible to increase its efficiency and forms of use. Processes that increase their resilience to different conditions in the reaction medium can expand and/or refine their range of applications. Its performance in the presence of organic solvents, such as acetonitrile (ACN), has been indicated as a promising way to increase the efficiency of digestion processes, such as in sample treatment for MALDI-MS peptide mapping. The maintenance of the activity of trypsin immobilized on glyoxyl-agarose was herein demonstrated in different temperature and ACN ranges. Compared to the soluble, the immobilized enzyme was able to remain active above 50% ACN, where the soluble trypsin showed no activity. Although low, it was still possible to detect about 7% activity at 70% ACN when immobilized form was used. With 7.5% of ACN, the soluble enzyme has already shown loss of activity. The same only occurred with immobilized trypsin at 20% or more. Although the immobilized enzyme may have lower specific activity compared to the soluble one, as confirmed by the determined kinetic parameters, its possibility of reuse was confirmed, with no loss of activity for 5 cycles at 0% and 5% ACN. Added to this is the simplicity that the reaction can be interrupted, through the removal of the enzyme from the medium. What could prevent its own protein chain from contaminating the final product. With these characteristics added, trypsin in its immobilized form presents itself as a promising biocatalyst.