[The influence of enzymatic removal of chlorpyrifos from feed grain-mixture on the biochemical parameters of rat blood]. / Vliianie fermentativnoi obrabotki kormovoi zernosmesi ot khlorpirifosa na biokhimicheskie pokazateli krovi krys.

Organophosphorus pesticides (OP) are used to protect crops from pests. Treatment of plants and animals with pesticides can be done during their growth or creation of conditions necessary for the long-shelf life of the agricultural products. Currently, there are many remedies for prevention and removal of intoxication consequences developed under the action of OP in living organisms. The development of biologics for the degradation of OP and biotechnologies for their application in agriculture is relevant. New biologics based on the stabilized forms of such enzyme as hexahistidine-tagged organophosphorus hydrolase (His6-OPH) in the form of nano-sized particles were tried for OP detoxification. These biologics (enzyme-polyelectrolyte complexes, EPC) were obtained in accordance to previously developed procedure by mixing solutions of His6-OPH and polyanion under certain conditions. The main purpose of this work was to evaluate the usage efficiency of EPC based on His6-OPH and polyglutamic acid for OP detoxification by analyzing biochemical blood parameters of rats consumed the grain-mixture containing chlorpyrifos. The experiment was conducted using female Sprague Dawley albino rats. Treatment of feeding grain-mixture initially containing chlopyrifos (48 mg/kg of the mixture) with EPC based on His6-OPH (1000 U/kg of the mixture) for 24 h was the most effective. The results showed that rats from the group consuming food after enzymatic removal of chlorpyrifos, had comparable acetyl cholinesterase activity in blood of rats consuming pure food (without any OP intoxication).

[STUDY OF GLUTATHIONE AND ENZYMES OF ITS METABOLISM UNDER THE INFLUENCE OF ENRICHED DAIRY PRODUCTS FOR PROPHYLACTIC USE IN CONDITIONS OF OXIDATIVE STRESS CAUSED BY EXCESSIVE EXERCISE].

There was performed the study of the activity of the antioxidant system of glutathione under regular taking of enriched with micronutrients dairy products "Bifidin " and "Prolacta" in conditions ofsimulation of xcessive exercise loads. Target of research: white outbred male rats weighing 180-200 g (n = 68). Research methods and equipment: information retrieval, biochemical, and statistical. In the subacute experiment there was established that in conditions of excessive exercise loads (CEEL) the body of the rat meets with significant oxidative stress, causing the suppression of the activity of glutathione system: the number of reduced glutathione and the activity of selenium-dependent glutathione-peroxidase decline. Regular taking of dairy products "Bifidin" and "Prolacta" in conditions of CEEL (active training process) allows effectively to neutralize lipid peroxidation processes and normalize indices of the system of glutathione. There is established an increase in the activity ofglutathione-S-transferase in the homogenates of liver tissue in the simulation CEEL in combination with the use ofproduct "Bifidin".

[Biosensors based on the luminous bacteria Photobaterium phosphoreum immobilized in polyvinyl alcohol cryogel for the monitoring of ecotoxicants].

Immobilization of Photobacterium phosphoreum bacteria in polyvinyl alcohol cryogel was performed in order to develop biosensors used for ecotoxicant biomonitoring. The immobilization procedure, storage, and application of the immobilized cells for biomonitoring were optimized. It was shown that the immobilized cells demonstrate significantly higher stability and a longer duration of light emission than free bacteria. A discrete analysis of heavy metals and chlorophenols was conducted using the obtained biosensor samples.

[ATP pool and bioluminescence in psychrophilic bacteria Photobacterium phosphoreum].

Bioluminescence activity and ATP pool were investigated in the culture of psychrophilic bacteria Photobacterium phosphoreum collected-from the exponential and stationary growth phases, as well as immobilized in polyvinyl alcohol (PVA) cryogel. In liquid culture, ATP pool remained at an almost a constant level throughout the luminescence cycle (over 100 h). The ATP pool in the stationary-phase and PVA-immobilizedl cells remained constant throughout their incubation in the medium (over 200 h) and in 3% NaCl solution (over 100 h): Quantitative assessment of integral photon yield and ATP pool indicated that bioluminescence decay in growing or stationary cells was not caused by limitation by the energy substrates of the luciferase reaction. Kinetic and quantitative parameters of emission activity and ATP pool excluded the possibility of formation of the aldehyde substrate for luciferase via reduction of the relevant fatty acids in NADPH and ATP-dependent reductase reaction and its oxidation in the monooxygenase reaction. Our results indicate that the aliphatic aldehyde is not utilized in the process of light emission.

Production of biofuels from pretreated microalgae biomass by anaerobic fermentation with immobilized Clostridium acetobutylicum cells.

The purpose of this work was to study the possible use of pretreated biomass of various microalgae and cyanobacteria as substrates for acetone-butanol-ethanol (ABE) fermentation by Clostridium acetobutylicum cells immobilized into poly(vinyl alcohol) cryogel. To this end, the biochemical composition of photosynthetic microorganisms cultivated under various conditions was studied. The most efficient technique for pretreating microalgal biomass for its subsequent conversion into biofuels appeared to be thermal decomposition at 108 °C. For the first time the maximum productivity of the ABE fermentation in terms of hydrogen (8.5 mmol/L medium/day) was obtained using pretreated biomass of Nannochloropsis sp. Maximum yields of butanol and ethanol were observed with Arthrospira platensis biomass used as the substrate. Immobilized Clostridium cells were demonstrated to be suitable for multiple reuses (for a minimum of five cycles) in ABE fermentation for producing biofuels from pretreated microalgal biomass.

[Effect of light-isotope water on growth of bacterial culture].

The stimulating effect of light-isotope water on microbial growth was demonstrated in bacterial culture Pseudomonas esterophilus. Nutrient medium was prepared of mineral salts and ethyl acetate as a source of carbon dissolved in light-isotope water with ppm 35 and 70; the control medium contained same components dissolved in distilled water. The investigation showed an increase in the number of bacterial cells in the exponential stage of growth in static culture in light-isotope water as compared with the control. Specifically, accretion made up 87.3 and 35.2% in light-isotope water with ppm 35 and 70, respectively. In an hour, the number of cell divisions increased by 6.7% and 3.3%, respectively. Therefore, light-isotope water stimulates the metabolic activity and, consequently, growth of bacterial cells.

[The effect of long-term preservation of microbial cells immobilized in poly(vinyl alcohol) cryogel on their viability and biosynthesis of target metabolites].

The effect of cell storage at -18 degrees C for 18-24 months on reproductive capacity was investigated for various microorganisms (gram-positive and gram-negative bacteria, yeasts, and filamentous fungi) immobilized in poly(vinyl alcohol) cryogel. To examine the viability of immobilized cells after defrosting, the bioluminescent method of intracellular ATP determination was used. A high level of metabolic activity of immobilized cells after various periods of storage was recorded for Streptomyces anulatus, Rhizopus orvzae, and Escherichia coli, which are producers of the antibiotic aurantin, L(+)-lactic acid, and the recombinant enzyme organophosphate hydrolase, respectively. It was shown that the initial concentration of immobilized cells in cryogel granules plays an important role in the survival of Str. anulatus and Pseudomonas putida after 1.5 years of storage. It was found that, after slow defrosting in the storage medium at 50C for 18 h of immobilized cells of the yeast Saccharomvces cerevisiae that had been stored for nine months, the number of reproductive cells increased due to the formation of ascospores.

Rhizopus oryzae fungus cells producing L(+)-lactic acid: kinetic and metabolic parameters of free and PVA-cryogel-entrapped mycelium.

Spores of the filamentous fungus Rhizopus oryzae were entrapped in macroporous poly(vinyl alcohol) cryogel (PVA-cryogel). To prepare immobilised biocatalyst capable of producing L(+)-lactic acid (LA), the fungus cells were cultivated inside the carrier beads. The growth parameters and metabolic activity of the suspended (free) and immobilised cells producing LA in a batch process were comparatively investigated. The immobilised cells possessed increased resistance to high concentrations of accumulated product and gave much higher yields of LA in the iterative working cycle than the free cells did. Detailed kinetic analysis of the changes in the intracellular adenosine triphosphate concentration, specific rate of growth, substrate consumption and LA production showed that the fungus cells entrapped in PVA-cryogel are more attractive for biotechnological applications compared to the free cells.

Properties of hexahistidine-tagged organophosphate hydrolase.

The catalytic properties of organophosphate hydrolase (OPH) containing a hexahistidine tag His6 (His6-OPH) and purified to 98% homogeneity were investigated. The pH optimum of enzymatic activity and isoelectric point of His6-OPH, which were shown to be 10.5 and 8.5, respectively, are shifted to the alkaline range as compared to the same parameters of the native OPH. The recombinant enzyme possessed improved catalytic activity towards S-containing substrates: the catalytic efficiency of methylparathion hydrolysis by His6-OPH is 4.2 x 10(6) M(-1) x sec(-1), whereas by native OPH it is 3.5 x 10(5) M(-1) x sec(-1).

Purification of His6-organophosphate hydrolase using monolithic supermacroporous polyacrylamide cryogels developed for immobilized metal affinity chromatography.

Organophosphate hydrolase containing hexahistidine tag at the N-terminus of recombinant protein (His6-OPH) and expressed in Escherichia coli cells was purified using supermacroporous polyacrylamide-based monolith columns with immobilized metal affinity matrices [Me2+-iminodiacetic acid (IDA)-polyacrylamide cryogel (PAA) and Me2+-N,N,N'-tris (carboxymethyl) ethylendiamine (TED)-PAA]. Enzyme preparation with 50% purity was obtained by direct chromatography of nonclarified cell homogenate, whereas the combination of addition of 10 mM imidazole to buffers for cell sonication and sample loading, the use of precolumn with IDA-PAA matrix noncharged with metal ions, and the application of high flow rate provided the 99% purity of enzyme isolated directly from crude cell homogenate. Co2+-IDA-PAA provided the highest level of selectivity for His6-OPH. Comparative analysis of purification using Co2+-IDA-PAA and Ni-nitrilotriacetic acid-agarose showed obvious advantages of the former in process time, specific activity of purified enzyme, and simplicity of adsorbent regeneration.

[Determination of minimal concentrations of biocorrosion inhibitors by a bioluminescence method in relation to bacteria, participating in biocorrosion].

By using a bioluminescence ATP assay, we have determined the minimal concentrations of some biocorrosion inhibitors (Katon, Khazar, VFIKS-82, Nitro-1, Kaspii-2, and Kaspii-4) suppressing most common microbial corrosion agents: Desulfovibrio desulfuricans, Desulfovibrio vulgaris, Pseudomonas putida, Pseudomonas fluorescens, and Acidithiobacillus ferrooxidans. The cell titers determined by the bioluminescence method, including not only dividing cells but also their dormant living counterparts, are two- to sixfold greater than the values determined microbiologically. It is shown that the bioluminescence method can be applied to determination of cell titers in samples of oil-field waters in the presence of iron ions (up to 260 mM) and iron sulfide (to 186 mg/l) and in the absence or presence of biocidal corrosion inhibitors.

Kinetic analysis of maturation and denaturation of DsRed, a coral-derived red fluorescent protein.

The red fluorescent protein DsRed recently cloned from Discosoma coral, with its significantly red-shifted excitation and emission maxima (558 and 583 nm, respectively), has attracted great interest because of its spectral complementation to other fluorescent proteins, including the green fluorescent protein and its enhanced mutant EGFP. We demonstrated that the much slower DsRed fluorescence development could be described by a three-step kinetic model, in contrast to the fast EGFP maturation, which was fitted by a one-step model. At pH below 5.0 DsRed fluorescence gradually decreased, and the rate and degree of this fluorescence inactivation depended on the pH value. The kinetics of fluorescence inactivation under acidic conditions was fitted by a two-exponential function where the initial inactivation rate was proportional to the fourth power of proton concentration. Subsequent DsRed alkalization resulted in partial fluorescence recovery, and the rate and degree of such recovery depended on the incubation time in the acid. Recovery kinetics had a lag-time and was fitted minimally by three exponential functions. The DsRed absorbance and circular dichroism spectra revealed that the fluorescence loss was accompanied by protein denaturation. We developed a kinetic mechanism for DsRed denaturation that includes consecutive conversion of the initial state of the protein, protonated by four hydrogen ions, to the denatured one through three intermediates. The first intermediate still emits fluorescence, and the last one is subjected to irreversible inactivation. Because of tight DsRed tetramerization we have suggested that obligatory protonation of each monomer results in the fluorescence inactivation of the whole tetramer.