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The bilateral asymmetry of the m1 morphotypes of the root vole Alexandromys oeconomus Pallas, 1776 from different parts of the range was analyzed from morphogenetic positions. The material from the collection of the Institute of Systematics and Ecology of Animals, Siberian Branch, Russian Academy of Sciences, Novosibirsk was used. A total of 2314 pairs of m1 morphotypes were studied on the left and right rami of the mandible of voles. 17 different morphotypes and 70 different combinations of them were identified, of which 13 are symmetrical and 57 are asymmetrical. The data of bilateral asymmetry of morphotypes for each sample was presented in the form of square contingency tables. Based on these tables, the information-entropy parameters of the samples were calculated, in accordance with which the eco-geographic factors of the habitat were put. The 2B-PLS method was applied to the matrices after standardization. Two significant directions of contingency variability of the information-entropy parameters of the samples and eco-geographic factors of the environment have been identified. The first direction, latitudinal, is associated with a decrease in the Shannon entropy and fluctuating asymmetry in the northern samples of the root vole. Thus, the northern samples have a higher degree of morphogenetic stability compared to the southern ones. The second - the longitude direction - is highly correlated with the increase in altitude above sea level in the direction “west - east” and is accompanied by a decrease in the values of the Cohen coefficient, Shannon information, and an increase in fluctuating asymmetry. This indicates a lower degree of morphogenetic stability of the eastern samples compared to the western ones. The approach we use complements the classical concept of the “epigenetic landscape” with the ability to take into account the influence of the environment. This is important in the practical use of asymmetry indicators for assessing the “health of the environment”, especially when determining the natural background for populations of the “ecological periphery” of the areal.

The results on the phenology study of 78 species of perennial plants over 20-year period 1996-2015 in the Western Siberia forest-steppe are discussed. Against the background of the detected meteorological trends of the warm season in Novosibirsk, the timing shift in phenological events of individual species and their ecological groups were analyzed using linear trends. It was found that vegetation start in the vast majority of perennials delayed on +3 … +7 days, and the terms of vegetation end changed differently within -4 … +1 days, while the duration of vegetation decreased in all groups. The duration of prefloral period significantly decreased by -6 … -9 days, due to the later vegetation start and an earlier start of flowering on -1 … -2 days. Fruiting trends are differed in direction and magnitude. The rate of seasonal development of the species generally accelerated over the observation period. Trends describe 6-32 % of phenological changes in ecological groups.

We studied influence of precipitation and surface air temperature on the radial growth of Yezo spruce Picea jezoensis (Siebold & Zucc.) Carriere, as well as changes in this influence with increasing altitude in southern Sikhote-Alin. For purpose of the study 444 cores were taken from eight sites located within the small river basin at altitudes from 460 to 1060 m a. s. l. As a result of the study, for the first time for the south of the Russian Far East, 8 tree-ring chronologies were created based on Yezo spruce tree rings measurements with a duration of 171 to 267 years. An analysis of the correlation between the obtained chronologies and climatic variables showed that the radial growth of the Yezo spruce within the southern Sikhote-Alin is influenced by precipitation in July-August of the current year ( r = -0.33 … -0.60), the average maximum temperature in July-August of the previous year ( r = -0.25 … -0.47) and the maximum temperature in November of the previous year (r = -0.34…-0.54). It is shown that the values of the correlation coefficient of chronologies with maximum temperatures quickly decrease with increasing height above sea level. At the same time, there is no significant change in the value of the correlation coefficient of chronologies with precipitation with an increase in altitude above sea level. The obtained results show the complexity of the relationship between the radial growth of Yezo spruce and climatic variables and suggest that climate warming in southern Sikhote-Alin will have the greatest negative impact on the growth the spruce trees at altitudes up to 600-650 m a. s. l. The increase in precipitation will adversely affect Yezo spruce growth in the upper mountain belt.

Biosimilarity and pharmacokinetic descriptors were obtained using SwissADME and ADMETlab 2.0 web services. Analysis of the obtained descriptors shows that, according to Lipinski's rule, quinoxalyl hydrazones of 2-hydroximino-1,3-dioxocompounds may be promising candidates for drug development for oral administration. Analysis of the pharmacokinetic descriptors of the structures studied shows that, according to the in silico predictions, the compounds can penetrate the blood-brain barrier, be absorbed in the gastrointestinal tract, bind to plasma proteins, be rapidly eliminated from target cells and inhibit CYP3A4, CYP1A2, CYP2C19 and CYP2D6 isoenzymes. The antioxidant activity of quinoxalyl hydrazone derivatives with different benzoyl, ester and acetyl moieties has been studied. Pharmacological screening of the obtained compounds was performed in vitro in the model of Fe²⁺-induced lipid peroxidation. The data of pharmacological screening indicate clearly pronounced inhibition of lipid peroxidation in the system of yolk lipoproteins by the compounds obtained, which indicates a significant contribution of quinoxalone scaffold in the manifestation of antioxidant properties. Variations in the structure of the starting 1,3-dicarbonyl compounds did not result in significant changes in the antioxidant activity of the obtained hydrazones. The compounds obtained can be promising compounds with marked antioxidant activity for further in vivo studies, including investigation of acute and chronic toxicity. The leading compound is tolyl-substituted quinoxalyl hydrazone IIb.

The validation of a standard certified method for measuring the mass fraction of oil products in soils and bottom sediments by IR spectrometry for measuring the content of oil products in sorbent samples based on ash and slag waste from thermal power engineering, and changes in the method of sample preparation in order to improve the metrological characteristics of the method are proposed. To calculate the metrological characteristics of the method to be validated, 48 measurements were carried out according to the recommendations set out in RMG 61-2010 (Appendix E). The assessment of the repeatability index was carried out according to the Cochran criterion. Grubbs statistics were used to evaluate the intralaboratory precision index. The correctness score was determined using a two-sample Student's t -test. The assessment of the accuracy indicator was performed by the selective relative standard deviation of the measurement results of the control sample. Quality indicators of the standard methodology PND F 16.1:2.2.22-98 (2005 edition): repeatability rate 8 %; index of intralaboratory precision 10 %; correctness score 15 %; accuracy rate 25 %. Quality indicators of the method being validated: repeatability rate 2.7 %; index of intralaboratory precision 2.7 %; correctness score 1.3 %; accuracy rate 5.3 %. The measurement results obtained using the developed validated method for measuring the oil product content in the samples of modified sorbent based on ash and slag wastes are more reproducible in terms of repeatability and precision, as well as more correct and accurate in comparison with the results obtained when measuring using the standard PND F method 16.1:2.2.22-98 (2005 edition).

The effect of basalt fibres on the rheometric, physical-mechanical, performance and dynamic (vibration absorbing) properties of rubber used for rail fastenings is investigated. The rubber mixture based on butadiene-methylstyrene (SKMS-30ARK), isoprene (SKI-3) and butadiene-nitrile (SKN 2655) caoutchoucs contained also vulcanising agents (sulphur, N,N′ -dithiodimorpholine, tetramethylthiuram disulphide), vulcanisation accelerator ( N-cyclohexyl-2-benzothiazole sulphenamide), vulcanisation activators (zinc oxide, stearic acid), softeners (industrial oil I-12A, rosin), antioxidants ( N-phenyl- N'-isopropyl-para-phenylenediamine, wax ZV-P, acetonanil N), fillers (kaolin, carbon black of N 220 and P 514 grades, silicon dioxide Zeosil 1165 MP) and other ingredients. The strength properties and hardness of the vulcanisates are observed to increase with an increase in the content of basalt fibres in the rubber mixture. Basalt fibres reduce changes in the elastic-strength parameters of vulcanisates after daily thermal aging in air and under the action of the standard petroleum fluid SZhR-1. The improved dynamic (vibration damping) properties are exhibited by vulcanised rubber containing 12.0 phr basalt fibres.

Physicochemical and pharmacological properties of the humic substances from the Kansk-Achinsk coal basin, the Pereyaslovskoe deposit, have been studied. The presence of polycyclic aromatic structures and aliphatic fragments with various functional groups as substituents (carboxyl, carbonyl and quinoid, phenolic, alcoholic, ether and ester, amino and amide) was established by means of UV, IR, ¹³C NMR spectroscopy, fluorimetry, and elemental analysis. It has been determined using HPLC that coal humic substances are highly hydrophilic polydisperse biopolymers with medium molecular weights. According to the indicator of microbiological purity (category 3B), the content of microorganisms does not exceed the indicators required by the State Pharmacopeia of the Russian Federation (SPh XIV edition). The content of radionuclides, toxic metals (lead, cadmium, mercury, arsenic) corresponds to the norms (according to SPh XIV edition). The presence of 11 essential elements has been established. The studied humic substances belong to the V class of hazard (low-hazard substances, according to GOST 32644-2014), do not have allergising properties and cytotoxic effect within a broad concentration range. Antioxidant, immunotropic, cytoprotective properties were established in the studies of specific pharmacological activity with various experimental models. The ability to inhibit free radicals such as hydroxyl radical (HO^•) and superoxide-anion radical (O₂^-•) should be noted, as these radicals are able to bypass the endogenous antioxidant defense systems of the body. It is concluded that the studied humic substances of the Kansk-Achinsk coal basin, the Pereyaslovskoe deposit, are safe and effective biologically active substances of natural origin for use as a promising biologically active substance in the food and pharmaceutical industries.

Bashkir linden honey is known not only for its unique aroma and delicate taste, but also for its medicinal antibacterial properties. One of the components responsible for the bactericidal properties of honey is hydrogen peroxide, which is formed as a result of enzymatic oxidation of glucose to gluconic acid by glucose oxidase, the enzyme produced by bees. However, there are no data in the literature on the studies of the peroxide antibacterial properties of Bashkir honey. The present study deals with the quantitative determination of the hydrogen peroxide content in Bashkir linden honey collected from various natural and agricultural zones of the Republic of Bashkortostan. According to the results of the melissopalynological analysis, all the studied 39 honey samples are floral monofloral linden honey. The concentration of hydrogen peroxide in all samples ranges within 0-51.97 mg/kg · h. The high diversity in the sensitivity of the investigated strains of opportunistic microorganisms Staphylococcus aureus , Escherichia coli and Pseudomonas aeruginosa to the tested samples of linden honey suggests the presence of both peroxide and non-peroxide mechanisms of antibacterial activity. Non-peroxide antibacterial activity can be represented by the honey components of bee, plant and microbial origin: organic acids, antimicrobial proteins and peptides, as well as bacteriocins.

The influence of low molecular weight nitrogenous bases (by the example of quinoline) on the composition and colloidal stability of asphaltenes in solutions and oil dispersed systems is investigated. The objects of study were model oil systems with the basic nitrogen content of 1.0-3.0 wt. %, obtained by mixing the original oil and quinoline. The content of basic nitrogen (N_bas) was determined using the method of non-aqueous potentiometric titration. Analysis of the colloidal stability of asphaltenes in solutions and oil systems was carried out by spectrophotometry. It is shown that the content of asphaltenes in oil systems is reduced by 0.22 wt. % with an increase in the content of basic nitrogen (quinoline) up to 3 wt. %. At the same time, the content of resins increases by almost 8 wt. %. With an increase in the content of quinoline in oil systems, the proportion of basic nitrogen in the asphaltenes isolated from them increases from 1.71 to 3.60 wt. %, which indicates the active participation of quinoline in the formation of supramolecular structures of asphaltenes during their precipitation with n-hexane. The presence of low molecular weight nitrogenous bases (quinoline) in oil contributes to a significant increase in the growth rate of aggregates and a decrease in the colloidal stability of oil systems.

The content of phenolic compounds (flavonols, flavans (catechins), tannins), polysaccharides (pectins, protopectins), tetraterpenes (carotenoids) and the antioxidant activity have been studied in Inula helenium L., Antennaria dioica (L.) Graertn., Ligularia macrophylla (Ledeb.) DC Echinacea purpurea (L.) Moench. cultivated in Western Siberia. Flavonol content in the leaves and inflorescences of the studied species of the Asteraceae family was determined to be 0.75-1.98 wt. %, the maximum amount was detected in the inflorescences of I. helenium. Tannins are present in the amount of 9.62-14.86 wt. %, the maximum content is observed in the leaves of A. dioica and inflorescences of E. purpurea. The amount of catechins ranges from 0.02 ( A. dioica, L. macrophylla ) to 0.13 wt. % ( E. purpurea, I. helenium ). Pectins are present at the level of 1.20 %, somewhat lower content is detected in the leaves of I. helenium and inflorescences of L. macrophylla (0.43 and 0.59 wt. %, respectively), a fairly high content of protopectins (7.89-11.88 %) in the leaves and inflorescences of the studied species exhibits no significant differences. The concentration of carotenoids in the leaves and inflorescences of L. macrophylla is almost at the same level, while in I. helenium and E. purpurea it is significantly higher in leaves, in A. dioica - in inflorescences. The indicators of the total content of phenolic antioxidants in the leaves and inflorescences of I. helenium, A. dioica, and L. macrophylla have no significant differences. According to the results of a comparison of the antioxidant capacity of the studied extracts by means of DPPH, the highest radical-binding activity is exhibited by the extracts from the leaves of I. helenium (0.46 mg/mL) and inflorescences of A. dioica (0.47 mg/mL), somewhat lower activity is exhibited by the extracts of E. purpurea (0.70-0.92 mg/mL) and L. macrophylla (1.00-1.25 mg/mL).