Role of Proteolytic Enzymes in the Interaction of Phytopathogenic Microorganisms with Plants.

Various forms of participation of proteolytic enzymes in pathogenesis and defense in plants are reviewed. Along with extracellular proteinases, phytopathogenic microorganisms produce specific effectors having proteolytic activity and capable of acting on proteins inside plant cells. In turn, for defense against pathogens, plants use both extracellular and intracellular proteinases.

[Effect of the Hydrogel Carrier Structure on the Activity of Immobilized Trypsin].

The dependence of the activity of trypsin immobilized in polyacrylamide hydrogel on the hydrogel swelling ratio, the size distribution of its pores, and the means of enzyme binding has been studied. It has been shown that the most favorable conditions for immobilized trypsin are provided upon its binding to hydrogel via trypsin macromonomer copolymerization with acrylamide and a linking agent in the presence of a modifier that limits polymer chain growth.

[Novel antiproteinase hemosorbent].

A method has been developed for producing a biospecific hydrogel hemosorbent by the radical copolymerization of an unsaturated derivative of ovomucoid from duck egg white with acrylamide and N,N'-methylene bisacrylamide in an aqueous solution in the presence of mercaptoacetic acid serving as a chain transfer agent. The use of a chain transfer agent has been shown to result in changes in the structure of the hydrogel formed, namely, an increase in the degree of swelling in aqueous solutions and a decrease in the number of large pores. This creates favorable conditions for the functioning of immobilized ovomucoid and allows for an increase in the serine proteinase absorption capacity of the hemosorbent.

[Secretion of proteolytic enzymes by three phytopathogenic microorganisms].

Serine proteinases from three phytopathogenic microorganisms that belong to different fungal families and cause diseases in potatoes were studied and characterized. The oomycete Phytophthora infestans (Mont.) de Bary and the fungi Rhizoctonia solani and Fusarium culmorum were shown to secrete serine proteinases.

[Thromboresistance of glucose-containing hydrogels].

The thromboresistance of glucose-sensitive polymer hydrogels, modeling one of the functions of the pancreas, namely, the ability to secrete insulin in response to the introduction of glucose into the environment, has been studied. Hydrogels were synthesized by the copolymerization of hydroxyethyl methacrylate with N-acryloyl glucosamine in the presence of a cross-linking agent and subsequently treated with concanavalin A. Introduction of glucose residues into the hydrogel did not result in significant changes in either the number of trombocytes adhered to the hydrogel or the degree of denaturation of blood plasma proteins interacting with the hydrogel.