Our research has shown that the degree of photosensitivity of the cysteine proteases can be arranged in the following order: bromelain → ficin → papain. After the UV irradiation with 151 J·m intensity of a bromelain solution, the enzyme activity has increased. No decrease in the catalytic capacity and the change in the size of the molecule was recorded in the 151-6040 J·m range of irradiation intensities. A decrease in the catalytic capacity of ficin and the increase of its globule size occurred after exposure to a radiation of 3020 J·m intensity. The decrease in papain activity was observed at the UV irradiation intensity of 453 J·m, and an increase of the papain globule size was detected at 755 J·m. Immobilization on chitosan matrix leads to the increase in the stability of heterogeneous biocatalysts with respect to UV irradiation in comparison with free enzymes. The changes in IR spectra of immobilized cysteine proteases practically do not affect the bands due to the protein component of the system: amide I, amide II, amide III. Therefore, it can be postulated that the chitosan matrix acts as photoprotector for immobilized ficin, bromelain and papain. The obtained results can be helpful for development of drugs based on chitosan and cysteine proteases in combination with phototherapy, as well as for choosing their sterilization conditions.
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