V. A. Khomenko

Seasonal changes in growth rate, morphology and alginate content in Undaria pinnatifida at the northern limit in the Sea of Japan (Russia)

The growth, morphology, alginate yield and composition of Undaria pinnatifidawas studied from March to August in 2000 and 2001 at the northern limit of distribution of the species in Peter the Great Bay, the Sea of Japan (Russia). The changes in morphology, alginate yield and composition were caused by sporophyte growth and sporulation. The average rate of biomass change was 2–5% d−1. The highest alginate content (51% d.wt) was obtained from blades, with lower values for sporophylls and midribs. An increase in alginate content was detected before sporulation. The conditions seem favourable for farming the alga in this region, with June the optimum month for harvesting.

[Isolation and characterization of recombinant OmpF-like porin from the Yersinia pseudotuberculosis outer membrane].

The encoding sequence of the pore-forming OmpF-like protein from the Yersinia pseudotuberculosis outer membrane was cloned and expressed in Escherichia coli cells. Conditions for isolation and refolding of recombinant monomer and porin trimer were selected. Their spatial structures were characterized by the intrinsic protein fluorescence and CD spectroscopy. It was shown that recombinant porins are similar in the composition of secondary structure elements to isolated porins, but have a considerably less compact tertiary structure. The pore-forming activities of the recombinant proteins are similar to those of Y. pseudotuberculosis native porins.

Influence of cultivation conditions on spatial structure and functional activity of OmpF-like porin from outer membrane of Yersinia pseudotuberculosis

The influence of cultivation conditions of pseudotuberculosis bacteria on the spatial structure and the functional activity of nonspecific OmpF-like porin was studied by means of optical spectroscopy, scanning microcalorimetry, and bilayer lipid membrane technique. With this goal, porin samples isolated from microbial masses grown at different temperatures, nutrient medium densities, and growth phases were characterized. According to CD data, the porin samples under investigation represent β-sheet proteins. It was found that the protein isolated from the colonial culture of pseudotuberculosis bacteria grown at low temperature has the most compact structure. Using intrinsic protein fluorescence, it was shown that different conditions of pseudotuberculosis bacteria cultivation (temperature, medium, growth phase) led to the changes in spectral properties of porin fluorescence due to the redistribution of the contributions of tyrosine and different classes of tryptophan residues to the total protein emission. Heat inactivation of porin samples was studied using CD spectroscopy, intrinsic protein fluorescence, and scanning microcalorimetry. Spatial features of the porin samples were found to affect their functional activities. Considering all these data, it is possible to correlate the spatial structure and functional activity of porin samples isolated under different cultivation conditions of bacteria and the composition of the outer membrane lipid matrix.

OmpC-like porin from Yersinia pseudotuberculosis: Molecular characteristics, physico-chemical and functional properties

Pore-forming protein from the outer membrane of Yersinia pseudotuberculosis cultured at 37°C has been isolated and characterized. Comparative analysis of the primary and three-dimensional structures of this protein and of OmpC porin from E. coli was carried out, functional properties of these proteins have been studied using bilayer lipid membranes (BLM) technique. The degree of homology, molecular mass and pore-forming properties of the isolated porin was found to be closer to those of OmpC porin from E. coli than OmpF porin from Y. pseudotuberculosis. The value of the most probable conductivity of OmpC porin from Y. pseudotuberculosis (0.18 pS) in BLM corresponded to the conductivity of the native trimer of this protein. Using CD spectroscopy, the porins investigated were shown to belong to the β-structured proteins. Data of the primary structure and intrinsic protein fluorescence revealed essential differences in localization and microenvironment of tryptophan residues in the porins investigated. Participation of external loops L2 and L6 in the formation of the antigenic structure of OmpC porin from Y. pseudotuberculosis was demonstrated. On the basis of crystal structure of osmoporin from Klebsiella pneumoniae, three-dimensional models of the monomer and trimer of the Y. pseudotuberculosis porin were obtained. Using Web server AGGRESCAN, the localization of protein structure sites with the increased aggregation capability (hot spots) has been deter-mined. It turned out that some of these zones localize in the region of intramonomeric contacts in the porin trimer; however, a large part of them is located on the external surface of the β-barrel. The process of thermal denaturation has been studied and the melting points of the porins were determined. It was found that significant changes in the microenvironment of the indole fluorophores (especially tryptophan residues of spectral class I) took place in the process of the thermodenaturation of the proteins. These changes preceded the irreversible conformational transition observed for the E. coli porin at 77°C and for the Y. pseudotuberculosis porin at 70°C.

Single channel activity of OmpF-like porin from Yersinia pseudotuberculosis.

To gain a mechanistic insight in the functioning of the OmpF-like porin from Yersinia pseudotuberculosis (YOmpF), we compared the effect of pH variation on the ion channel activity of the protein in planar lipid bilayers and its binding to lipid membranes. The behavior of YOmpF channels upon acidification was similar to that previously described for Escherichia coli OmpF. In particular, a decrease in pH of the bathing solution resulted in a substantial reduction of YOmpF single channel conductance, accompanied by the emergence of subconductance states. Similar subconductance substates were elicited by the addition of lysophosphatidylcholine. This observation, made with porin channels for the first time, pointed to the relevance of lipid-protein interactions, in particular, the lipid curvature stress, to the appearance of subconductance states at acidic pH. Binding of YOmpF to membranes displayed rather modest dependence on pH, whereas the channel-forming potency of the protein tremendously decreased upon acidification.

Mutant OmpF porins of Yersinia pseudotuberculosis with deletions of external loops: Structure–functional and immunochemical properties

Recombinant mutant OmpF porins from Yersinia pseudotuberculosis outer membrane were obtained using site-directed mutagenesis. Here we used four OmpF mutants where single extracellular loops L1, L4, L6, and L8 were deleted one at a time. The proteins were expressed in Escherichia coli at levels comparable to full-sized recombinant OmpF porin and isolated from the inclusion bodies. Purified trimers of the mutant porins were obtained after dialysis and consequent ion-exchange chromatography. Changes in molecular and spatial structure of the mutants obtained were studied using SDS-PAGE and optical spectroscopy (circular dichroism and intrinsic protein fluorescence). Secondary and tertiary structure of the mutant proteins was found to have some features in comparison with that of the full-sized recombinant OmpF. As shown by bilayer lipid membrane technique, the pore-forming activity of purified mutant porins was identical to OmpF porin isolated from the bacterial outer membrane. Lacking of the external loops mentioned above influenced significantly upon the antigenic structure of the porin as demonstrated using ELISA.

Study of Yersinia Pseudotuberculosis Surface Antigen Epitopes Using Monoclonal Antibodies

A study of the influence of exogenous factors on the immunochemical activity of the bacterium Yersinia pseudotuberculosis and lipopolysaccharide preparations isolated from bacteria was performed using monoclonal antibodies. It was shown that the hybridomas that were obtained in this work produce antibodies against different and, most likely, species-specific epitopes associated with lipopolysaccharide O-side chains. The concentration of these epitopes increased with a decrease in the temperature, at which the bacteria were cultivated. An inhibitory effect of proteinase K, pepsin, and trypsin on the immunochemical activity of bacterial cells, determined using a solid-phase enzyme immunoassay, was demonstrated. Treatment with sodium periodate showed no uniform effect on the reactions between monoclonal antibodies and antigens (lipopolysaccharides and microbial cells), as adjudged by an immunoassay, which is most likely a consequence of the different localization of lipopolysaccharide epitopes recognized by the antibodies from four hybridomas.

Yersinia pseudotuberculosis mutant OmpF porins with deletions of the external loops: genetic constructions design, expression, isolation and refolding

Yersinia pseudotuberculosis outer membrane (OM) recombinant mutant OmpF porins with deletions of the external loops L1, L6 and L8 were obtained using site-directed mutagenesis of the recombinant plasmid including ompF gene. Heterologeous expression of the mutant proteins was carried out in strain Rosetta of Escherichia coli (Novagen, USA), porins with the deletions were isolated from the inclusion bodies. Oligomers of mutant porins were obtained as result of dialysis and ion-exchange chromatography. Spatial structure of the mutant proteins was found to have special features in comparison with that of the full-structured OmpF porin on the level of both secondary and tertiary structure. As shown using bilayer lipid membrane (BLM) technique the absence of the loops L1, L6 and L8 didn’t affect the conductivity level of Y. pseudotuberculosis porin channel. The absence of the loops mentioned above has a significant influence on the antigenic structure of the mutant porins as demonstrated using immunoblotting technique and ELISA.

Immunochemical Properties of Recombinant Ompf Porin from Outer Membrane of Yersinia pseudotuberculosis

Porins from outer membranes (OM) of Gram-negative bacteria exist in intact membranes as homotrimers forming water-filled pores or channels that provide low-molecular compounds transportation. Surface localization of the porins and their structural peculiarities determine multiplicity of their functions except for the transport one. On the one hand, porins are targets for the host immune system. As the targets they activate factors of the organism fast protection and are involved in the formation of specific immune response. On the other hand, porins serve as the factors of pathogenesis and virulence inhibiting the first stage of the host immune system and providing survival of a pathogen in macroorganism. Porins are speciesand genus-specific antigens of Gram-negative bacteria and belong to the highly immunogenic OM components. The antibodies against the porins are found in blood sera both after vaccination and after natural development of infection.

Isolation and characterization of OmpF-like porin from Yersinia ruckeri

The polypeptide profile of the porin protein fraction of Yersinia ruckeri, a Gram-negative bacterium causing yersiniosis in fish, has been shown to depend on cultivation temperature. OmpF-like porins are expressed mainly in the outer membrane (OM) of the “cold” variant (4°C) of the microorganism and OmpC-like proteins are expressed in the OM of the “warm” variant (37°C). Both types of porins are present in the OM of Y. ruckeri at room temperature. The OmpF-like porin of the “cold” variant was isolated and characterized. The molecular weight and primary structure of the protein were determined. The methods of optical spectroscopy (circular dichroism and intrinsic protein fluorescence) have shown that the protein has a spatial structure typical of β-structured porins from the OM of Gram-negative bacteria. The functional activity of isolated protein was characterized by the bilayer lipid membrane (BLM) technique. The most probable level of channel conductivity was 320 ± 60 pS, corresponding to the channel conductivity of OmpF porins of the genus Yersinia. The distinctive feature of OmpF porin from Y. ruckeri is high thermostability of its functionally active conformation: the protein forms stable pores in the BLM even after heating to 85°C.