[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. An analysis of the substrate specificity of these enzymes and their sensitivity to synthetic and protein inhibitors allowed us to refer them to trypsin- and subtilisin-like proteinases. The correlation between the trypsin- and subtilisin-like proteinases depended on the composition of the culture medium, particularly on the form of the nitrogen source. A phylogenetic analysis was carried out. In contrast to basidiomycetes R. solani, ascomycetes F. culmorum and oomycetes P. infestans produced a similar set of exoproteinases, although they had more distant phylogenetic positions. This indicated that the secretion of serine proteinases by various phytopathogenic microorganisms also depended on their phylogenetic position. These results allowed us to suggest that exoproteinases from phytopathogenic fungi play a different role in pathogenesis. They may promote the adaptation of fungi if the range of hosts is enlarged. On the other hand, they may play an important role in the survival of microorganisms in hostile environements outside their hosts.

[Chymotrypsin and trypsin inhibitor isolated from potato tubers].

Potato Kunitz-type chymotrypsin inhibitor (PKCI-23) was isolated from potato tubers (Solanum tuberosum L., Zhukov's Jubilee breed) and purified to a homogenous state. The protein was purified by gel-filtration chromatography and ion-exchange chromatography using Sephadex G-75 and CM-Sepharose CL-6B, respectively. PKCI-23 protein has been shown to inhibit both chymotrypsin and trypsin with equal efficacy, forming equimolar complexes with these enzymes. However, much weaker inhibitory effect of PKCI-23 has been observed for Carlsberg subtilisin. The N-terminal 20 amino acid sequence of PKCI-23 has been sequenced. PKCI-23 has been shown to suppress, with different efficacy, the growth and development of pathogenic microorganisms Fusarium culmorum (Wm. G. Sm.) Sacc. and Phytophtora infestans (Mont.) de Bary that infect potato.

[The influence of cultural medium composition on the proteolytic enzyme secretion of fungus Rhizoctonia solani].

It was shown that change of medium growth composition of photopathogenic fungus Rhizoctonia solani Kühn, especially accessible sources of nutrition, leads to change of both quantity of produced proteinases and their action specificity. The mineral source of nitrogen suppressed the fungus proteinase secretion on cultivation medium containing potato thermostable proteins but an organic source of nitrogen accelerated mycelium growth and increased proteinase secretion. On the basis of an analysis of a fungus extracellular proteinase substrate-specificity, it is established that the presence of thermostable proteins of a potato in the cultural liquid induces the secretion of trypsin-like proteinases mainly, and the addition of yeast extract to this growth medium induces the secretion of subtilisin-like ones, thus suppressing the trypsin-like enzymes production. This fact can indicate that mycelium of fungus R. solani loses pathogenic properties and becomes saprophytes when the growth medium was enriched by an organic source of nitrogen.

Protein trypsin inhibitor from potato tubers.

A protein of 22 kDa designated as PKTI-22 was isolated from potato tubers (Solanum tuberosum L., cv. Istrinskii) and purified to homogeneity using CM-Sepharose CL-6B ion-exchange chromatography. The protein efficiently suppressed the activity of trypsin, affected chymotrypsin less, and did not affect subtilisin Carlsberg. The N-terminal sequence of PKTI-22 (20 amino acid residues) was found to be highly homologous with the amino acid sequences of the potato Kunitz-type proteinase inhibitors of group B (PKPI-B) that were aligned from the corresponding gene sequences and was identical to the sequence (from the 2nd to the 20th residue) of the recombinant protein PKPI-B10. These data together with the observed similarity of the properties of two proteins indicate that the PKTI-22 protein is encoded by the PKPI-B10 gene.

[Interaction between proteinases secreted by the fungal plant pathogen Rhizoctonia solani and natural proteinase inhibitors produced by plants].

The fungal plant pathogen Rhizoctonia solani Kuhn. grown in a medium containing thermostable potato tuber proteins produced proteinases active at moderately alkaline pH values. Electrophoretic analysis in polyacrylamide gel with SDS and copolymerized gelatin showed that the extracellular proteinase complex contained four components that differed in molecular weight. Studies on the action of the exoenzymes on various synthetic substrates indicated that the culture liquid of R. solani contained mainly trypsin-like proteinases. The exoproteinase activity was virtually completely suppressed by trypsin inhibitor proteins isolated from potato tubers and seeds of various legume species. The results suggest that the extracellular proteinases produced by R. solani play a significant role in attacking plant tissue, and natural inhibitors contribute to the protection of Solanaceae and Leguminosae from this fungal pathogen.

[Exoproteinases of the oomycete Phytophthora infestans]. / Ekzoproteinazy oomitseta Phytophthora infestans.

When grown in a medium containing heat-stable potato tuber proteins, the oomycete Phytophthora infestans (Mont.) de Bary produces a set of exoproteinases active at neutral and mildly basic pH values. These extracellular proteinases have been shown by SDS-PAGE with the presence of gelatin to include at least six components differing in molecular weight. Inhibitory analysis and study of the effects of the enzymes on various synthetic substrates show that the culture liquid of P. infestans contains mainly serine proteinases specific to trypsin and subtilisin and metalloproteinases. Their activity is suppressed by proteinase-inhibitor proteins from potato tubers. It is suggested that P. infestans exoproteinases may be the metabolic target for natural proteinase inhibitors from potato.

[Role of proteinase inhibitors in potato protection]. / Rol' ingibitorov proteinaz v zashchite kartofelia.

Mechanical damage or infection of potatoes with Phytophthora infestans caused an accumulation of only serine protease inhibitors in exudates of potato tubers. Among them, proteins prevailed that are structurally similar to those present in healthy tubers: a 22-kDa trypsin inhibitor, a 21-kDa serine protease inhibitor consisting of two polypeptide chains, and a 8-kDa potato chymotrypsin I inhibitor produced de novo. The accumulated proteins inhibited the growth of hyphae and germination of zoospores of P. infestans. Treatment with elicitors, jasmonic and arachidonic acids, intensified the accumulation of these inhibitors in tubers in response to the wound stress, whereas salicylic acid blocked this process. These results suggest that the lipoxygenase metabolism plays a substantial role in signal transduction of the protective system of resting potato tubers.

[Effect of elicitors on accumulation of protease inhibitors in injured potato tubers]. / Vliinie élisitorov na nakoplenie ingibitorov proteinaz v poranennykh klubniakh kartofelia.

The time course of accumulation and the composition of proteinase-inhibiting proteins in diffusates from potato tubers treated with elicitors such as salicylic, jasmonic, and arachidonic acids were studied. The 40-kDa reserve protein patatin and the chymotrypsin inhibitors, among which proteins of 24.6, 22.0, and 16.0 kDa were prevalent, accumulated in diffusates from potato tubers. Jasmonic and arachidonic acids activated the accumulation of the chymotrypsin inhibitors in tubers in response to the injury stress, whereas salicylic acid inhibited this process. The effects of jasmonic and arachidonic acids increased when their concentrations decreased to 10(-6) M. The data suggest an important role of the lipoxygenase metabolism in signal transduction of the anti-injury defense system in the dormant potato tubers.

Enzymatic activity of aphroproteins.

Chitinase and proteinase activities were found in aphroproteins excreted by larvae of the cicada Aphrophora costalis Mats; this accounts for their fungicidal effect. Aphroproteins did not show DNase or RNase activities and did not exhibit properties of proteinase inhibitors. The data suggest that larval foam protects the larva and host plant from entomogenous and phytopathogenic fungi.

Enzymatic oxidation of the bifunctional wheat inhibitor of subtilisin and endogenous alpha-amylase.

Oxidation of the bifunctional wheat inhibitor of subtilisin and endogenous alpha-amylase catalyzed by horseradish peroxidase results in the loss of the inhibitory activity against both enzymes. The enzymatic oxidation is accompanied by modification of one methionine and two tryptophan residues in the protein. The results obtained, together with data on chemical modification and limited proteolysis, allow us to conclude that Met34-Ala35 is the reactive site of the inhibitor responsible for the interaction with subtilisin. It is supposed that the reactive site of the inhibitor responsible for the interaction with alpha-amylase contains one or two tryptophan residues.