[Enzymatic synthesis of electroconductive biocomposites based on DNA and optically active polyaniline].

Electroconductive interpolymer polyaniline complexes are synthesized on the DNA matrix, using the method of oxidative polymerization of aniline with two different biocatalyzers: horseradish root peroxidase and micropiroxidase-11 biomimetic. The spectral characteristics and morphology of the acquired biocomposites have been studied. The stereospecificity of the acquired samples of interpolymer complexes is shown, depending on the biocatalyzers used. The results acquired indicate the important role of a biocatalyzer in the formation of the twist direction of an electroconductive polymer spiral on the DNA matrix; i.e., the optical activity of the polymer samples acquired is apparently associated with the biocatalyzer properties.

[Synthesis of electroconductive polyaniline using immobilized laccase].

A new method for synthesis of the conductive complex between polyaniline (PANI) and poly(2-acrylamido-2-methyl-1-propanosulfonic acid) (PAMPS) was proposed; in this method, the immobilized laccase from the basidiomycete Trametes hirsuta is used as a biocatalyst for aniline oxidative polymerization. The conditions for laccase immobilization on CM cellulose by bifunctional Woodward's reagent were optimized. The catalytic properties of immobilized and native laccases were compared. The immobilized laccase appeared an efficient catalyst for the oxidative radical polymerization of aniline on polysulfonic acid matrix at 4 degrees C. It was demonstrated that the immobilized enzyme could be repeatedly used for enzymatic synthesis of this polymer. Several spectral characteristics of the PANI/PAMPS-complexes synthesized at various pH values were studied. The conductance of PANI specimens produced using immobilized laccase as a catalyst was 13 mS/cm.

[Micellar laccase-catalyzed synthesis of electroconductive polyaniline].

A method of enzymatic synthesis of electroconductive polyaniline on the micelles of dodecylben-zenesulfonic acid sodium salt (DBSNa) is proposed. The high potential laccase from the basidiomycete Trametes hirsuta was used as a biocatalyst. The conditions for polyaniline synthesis were optimized (pH 4.0; reagent concentrations, 10-20 mM; and aniline/DBSNa ratio, 2: 1). The resulting product was electrochemically active in the range of potentials from -200 to 600 mV, electroconductive, and capable of reversible dedoping with a change in pH of solution.

[Laccase-mediator systems and their applications: a review].

The mechanism of operation of laccase-mediator systems (LMSs) in xenobiotic degradation mediated by "true" redox mediators and laccase enhancing agents is considered. Structural formulae of most common laccase mediators and compounds that can be used as agents enhancing the enzyme operation are presented. Examples of LMS application in biotechnology are described.

[Oxygen can be replaced by artificial electron acceptors in reactions catalyzed by alcohol oxidase].

For the first time, spectrometric and electrochemical studies demonstrated the possibility of using artificial electron acceptors in reactions catalyzed by alcohol oxidase. We report kinetic parameters of homogenous catalytic oxidation of formaldehyde by organic redox compounds belonging to different structural classes (toluidine blue, methylene blue, 2,6-dichlorophenolindo-phenol, and p-benzoquinone) and replacing dioxygen in these reactions. p-Benzoquinone, having the highest redox potential, proved to be the most efficient artificial electron acceptor of all compounds studied.

[The dynamics of oxidase activity during cultivation of basidiomycetes from the genus Trametes Fr].

Twenty strains of the wood-degrading fungi from the genus Trametes Fr., capable of synthesizing laccases, were screened according to the changes in the oxidase activity in a submerged culture. The range of maximal efficiency of various species with respect to extracellular oxidase activity was determined. The absence of correlation between the oxidase activity in a submerged culture and the size of colored zone on agar media (Bavendamm reaction) was demonstrated. The most efficient strains, T. hirsita 56 and T. ochracea 92-78, were used to produce laccases, homogeneous according to SDS electrophoresis data. A number of biochemical parameters characteristic of these enzymes were determined.

[An electrochemical method for measuring metabolic activity and counting cells].

An express electrochemical method for determining the metabolic activity of live cells based on the possibility of an electron exchange between an electrode and elements of the biological electron transfer chain in the presence of a mediator is proposed. This method is useful for studying any live cells (animal, plant, and microbial), including anaerobic, dormant, and spore cells. The sample preparation and measurement itself does not take more than 30 min. The detection limit in a volume of 15 ml amounts to 10-5 cells/ml. The applicability of the assessment method of the metabolic activity level during the transition of the bacteria Mycobacterium smegmatis into an uncultivable dormant state was demonstrated. This method is of special value for medicine and environmental control, detecting latent forms of pathogens. An optimal combination of the methods for the express analysis of latent pathogens is proposed.

[Enzymatic synthesis of a conducting complex of polyaniline and poly(2-arcylamido-2-methyl-1-propanesulfonic ACID) using palm tree peroxidase and its properties].

An enzymatic method of producing a conducting polyelectrolyte complex of polyaniline (PANI) and poly(2-acrylamido-2-methyl-1-propanesulfonic acid) (PAMPS) was developed. Acidic stable peroxidase isolated from royal palm tree (Roystonea regia L.) leaves was used as a catalyst in the oxidative polymerization of aniline at pH 2.8. The synthesis procedure was optimized. Spectroscopic and electrochemical characteristics of nanoparticles of obtained PANI/PAMPS complexes at different pH were studied. It was shown that the acidity of the medium affects their properties.

[Phenyl pyrazolones--novel oxidoreductase redox-mediators for degradation of xenobiotics]. / Fenil-pirazolony--novyi klass redox-mediatorov oksidoreduktaz dlia degradatsii ksenobiotikov.

An approach was developed to screening organic compounds for putative activity of redox mediators of oxidoreductases, including laccases and peroxidases, applicable for xenobiotic degradation. The study was carried out with a homogenous laccase preparation from the basidiomycete Trametes hirsuta and horse-radish root peroxidase. Compounds belonging to 1-phenyl-3-methylpyrazolones were selected. Spectroscopic and electrochemical investigation of two of the compounds, sodium 1-phenyl-2,3-dimethyl-4-aminopyrazolon 5n(4)-methanesulfonate (PPNa) and 1-(3'-sulfophenyl)-3-methylpyrazolone (SPP), was performed. Electrochemical oxidation of both PPNa and SPP gave rise to high-potential intermediates capable of oxidizing veratryl alcohol; a lignin-modeling compound. Kinetic indices of these compounds were determined in enzymatic reactions with the presence of laccase. It was shown that enzymatic oxidation of SPP by laccase produced high-potential intermediates capable of oxidizing veratryl alcohol to veratric acid. Veratryl alcohol did not oxidize during enzymatic oxidation of SPP by peroxidase. This points to a difference between the mechanisms of enzymatic oxidation of PPNa and SPP by laccase and peroxidase.

[Optimization of conditions for cultivation of the basidiomycete Coriolus hirsutus--producer of extracellular laccase]. / Optimizatsiia uslovii glubinnogo kul'tivirovaniia bazidiomitseta Coriolus hirsutus--produtsenta vnekletochnoi lakkazy.

The effects of various factors on the biosynthesis of extracellular laccase (EC 1.14.18.1) by the basidiomycete Coriolus hirsutus (Wulf.: Fr.) Quel. no. 072 during submerged cultivation were examined. Optimal parameters for cultivation in a fermenter of 10 l were determined: temperature, 28 degrees C; stirrer rotation speed, 160 rpm; and the inoculum volume, 15% of the working volume of the fermenter. The filtrate contained peroxidase, laccase, and phenol oxidase activities and displayed a high thermal stability.

[Study of kinetic parameters of glucose oxidase and alpha-chymotrypsin, immobilized in polymeric matrices, using a light-addressable sensor]. / Issledovanie s pomoshch'iu svetoadresuemogo sensora kinetichskikh parametrov gliukozooksidazy i alpha-khimotripsina, immobilizovannykh v polimernye matritsy.

Light-addressable potentiometric sensors were prepared by immobilizing glucose oxidase or alpha-chymotrypsin on the surface of a pH-sensitive electrode. Two methods of immobilization were used: incorporation into a hydrophilic matrix of bovine serum albumin and incorporation into a hydrophobic matrix of modified polyethylenimine. The glucose oxidase and alpha-chymotrypsin preparations immobilized in the polyethylenimine matrix were characterized by the Michaelis constant values of 6.0 and 3.1. mM, respectively, and by pH optimums at 6.0-7.2 and 7.0-8.0, respectively. These values are consistent with results obtained by other methods. Therefore, light-addressable potentiometric sensors can be used in combination with both hydrophilic and hydrophobic matrices. The ability to combine light-addressable potentiometric sensors with hydrophobic matrices provides an opportunity for the development of potentiometric biosensors for detecting substances poorly soluble in water.

[Selection of optimal conditions for synthesis of protein A-laccase conjugates and their use in different variants of immunoenzyme analysis]. / Podbor optimal'nykh uslovii sinteza kon''iugatov belok A-lakkaza i ikh ispol'zovanie v razlichnykh variantakh immunofermentnogo analiza.

A study to determine optimal molar ratios of Protein A to laccase for the synthesis of their conjugate by periodate method is presented. No loss of enzymatic or immunological activity of the conjugate developed was observed during 6 month. The conjugate could be effectively used in various techniques of enzyme immunoassay (competitive or sandwich techniques, dot immunoblotting) for immunoglobulin G. The detection limits of the assays for immunoglobulins were better than 1 ng/ml.

[Immunoenzyme analysis based on laccase conjugates with fluorometric detection of the enzymatic reaction product]. / Immunofermentnyi analiz na osnove lakkaznykh kon''iugatov s fluorimetricheskoi detektsiei produkta fermentativnoi reaktsii.

The possibility of using homovanillic acid as a substrate of laccase (produced by the basidiomycete Coryolus hirsutus) has been demonstrated for the first time. The reaction was shown to result in the formation of a fluorescent product. Several kinetic parameters and optimal conditions were determined for this enzymatic reaction. The use of homovanillic acid as the substrate was found to increase the enzyme immunoassay sensitivity by an order of magnitude, compared to conventional substrates.

[Study of physiological functions of human ceruloplasmin. The effect of ceruloplasmin on immunocytes in a normal state and in pathology]. / Issledovanie fiziologicheskikh funktsii tseruloplazmina cheloveka. Vliianie tseruloplazmina na immunotsity v norme i pri patologii.

The immunomodulating effect of ceruloplasmin (CP) on the major components of the immunocompetent system of the organism--the natural resistance system and the specific immune response--has been established. CP can exert various influences on the level of expression of specific markers of T- and B-lymphocytes (as determined by various modifications of the rosette-forming test), on the phagocytic activity of neutrophils and monocytes as well as on the activity of "respiratory burst" enzymes. CP modulation was found to depend predominantly on the initial level of the immunological parameters to be determined, i. e., on the extent of immune inflammation in human patients. Thus, it was found that CP not only plays the roles of an antioxidant and a copper-transporting protein, but is also capable to interact with immunocytes, altering their biological activities. The observed immunotropicity of CP, its ability to directly interact with immunocytes and to model the immune function at the cell level provides evidence for the existence of a universal molecular language of information exchange between the macroorganism cells of various nature and origin.

[The effect of conditions of synthesis of immunolaccase conjugates on characteristics and composition of the compounds obtained]. / Vliianie uslovii sinteza immunolakkaznykh kon''iugatov na kharakteristiki i sostav poluchaemykh soedinenii.

Optimal conditions for preparing laccase conjugates by the periodate method have been selected. The effect of the initial molar ratio of IgG to laccase and pH of the medium on the composition of laccase conjugates was studied by the HPLC method. The maximum yield of the conjugates was observed, when laccase was oxidized with 0.12 M sodium periodate the pH of the medium was 8.5, and the initial molar ratio of IgG to laccase was 2:1. The conjugates can be stored for one year without any loss in immunological activity.

[Laccase from Coriolus hirsutus--a new marker enzyme for immunoenzyme analysis]. / Lakkaza Coriolus hirsutus--novyi ferment-marker dlia immunofermentnogo analiza.

A new immunochemical reagent is proposed which contains laccase, isolated from the culture liquid of the basidial fungus Coriolus hirsutus, as a marker enzyme. The feasibility of immunolaccase conjugates for different variants of immunoassay, i.e. "sandwich", competitive and indirect, is demonstrated. The comparison of immunolaccase and immunoperoxidase conjugates showed that the absolute sensitivity of laccase-antibody conjugates was 3 times higher than that of antibody-peroxidase conjugates (7.7 x 10(-11) M and 2.3 x 10(-10) M, respectively). The assay based on antibody-laccase conjugates is simpler than that employing antibody-peroxidase conjugates, since in the former case air oxygen in used as the second substrate of the enzymatic reaction.

[Aldose reductase: physiological role, properties and prospects for regulating activity]. / Al'dozoreduktaza: fiziologicheskaia rol', svoistva i vozmozhnosti reguliatsii aktivnosti.

Some properties of aldose reductase isolated from various sources and possible ways of regulation of the enzyme catalytic activity are reviewed. Mammalian aldose reductases are monomeric enzymes with M(r) of 30-40 kDa and a broad substrate specificity towards aldoses. The physiological role of this enzyme consists, apparently, in providing an additional pathway for utilization of glucose and removing toxic compounds carrying an aldehyde group from the cell. Aldose reductase is thought to play a key role in various hyperglycemic states, including diabetic cataract. The kinetics of the aldose reductase reaction is hyperbolic with NADPH and nonhyperbolic with glucose. The rate of the enzyme-catalyzed reaction is determined by the effector binding in the active of inhibitory center of the enzyme. Incubation with substrates leads to the activation of the enzyme which is accompanied by a decrease of the effector binding in the enzyme inhibitory center with a sharp decrease in the sensitivity of the activated enzyme to NADPH concentration changes in the presence of glucose excess. A mechanism underlying the catalytic effect of both native and activated forms of the enzyme is proposed.

[Regulation of aldose reductase activity. Mechanism of action of an activated form of the enzyme]. / Reguliatsiia aktivnosti al'dozoreductazy. Mekhanizm deistviia aktivirovannoi formy fermenta.

Activation of bovine eye lens aldose reductase during its incubation with NADPH and glucose was studied. The activated form of the enzyme was isolated, and the rate of glucose reduction measured within a broad range of substrate concentrations. Spectrophotometric titration and equilibrium gel-filtration were used to study the interaction of the enzyme active center with substrates. It was found that the reaction kinetics obeys the mechanism of a quasi-equilibrium binding of substrates with isomerization of the enzyme complexes with nicotinamide dinucleotide phosphates. This activation is accompanied by a transition from non-ordered to highly ordered binding of the substrates. The effect of ligands in the catalytic and inhibitory centers of the activated enzyme on the catalytic reaction was examined. It was found that the activated form of aldose reductase is characterized by a lower affinity of the inhibitory center for the flavonoid, morin. Morin binding not only inhibits the reaction but also prevents the activation of the enzyme.

[Regulation of aldose reductase activity. The influence of effectors on reverse isomerization of the enzyme]. / Reguliatsiia aktivnosti al'dozoreduktaz. Vliianie éffektorov na obratimuiu izomerizatsiiu fermenta.

The effects of ligands of active and inhibitory centers of homogeneous aldose reductase from cattle eye lens on glucose reduction were studied. Using spectrophotometric titration and equilibrium gel filtration, the interaction of the enzyme active center with substrates was investigated. It was shown that the reaction kinetics obeys a mechanism with a quasi-equilibrium non-ordered attachment of substrates and isomerization of enzyme complexes with nicotinamide dinucleotide phosphates in the course of the catalytic act. It was found that the NADPH in equilibrium NADP equilibrium in the enzyme active center is shifted to the right; however, NADP dissociation may occur only as a result of the aldehyde reduction. The mechanisms of regulation of the enzyme activity by NADP, ADP and alpha-glycerol phosphate were proposed. It was shown that the binding of catalin and morine to the enzyme results in the inhibition of the enzymatic reaction and in the isomerization blocking. It was found that the inhibitory site of the isomeric form of aldose reductase displays a lower affinity for morine.