Abstract
Formation of a protease C—polyhexamethyleneguanidine hydrochloride polyelectrolyte complex was demonstrated by nephelometry and an analysis of the activity, stability, and physicochemical properties of immobilized protease C. The effect of the composition of the polymer composite used for modification of fibre polymer supports on the properties of the materials obtained was investigated. It was shown that cellulose and polyester fibre materials fabricated by the method developed and containing immobilized protease C and the high-molecular-weight antimicrobial polyhexamethyleneguanidine hydrochloride have prolonged enzyme and antimicrobial activity.
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