Development And Optimization Of Biological Treatment Of Quarry Waters From Mineral Nitrogen In The Subarctic

The new concept of bioremediation  of anthropogenic water bodies and quarry wastewaters treatment by phytoextraction and phytotransformation in the Subarctic conditions is presented.  This technology is based on transformating  the man-caused water reservoirs  into nature-like  marsh ecosystems.  At the first stage,  a new patented method for advanced waste treatment using floating bioplate was developed and implemented. After implementing  the bioplate, the concentration of ammonium ions in water decreased by 53-90%, nitrate nitrogen reduced by 15-20%. At the second stage, the floating bioplate technology was modified into the highly efficient purificating marsh ecosystem, which allowed to cover the waterbody  territory to the greatest possible extent. The technology is based on the creation of phytomats enabling in the accelerated mode to form plant blocks of three different types. They are aimed both at local grassing down, and at swamping deep and shallow areas of sediment ponds. In forming phytomats, two soil substitutional substrates (thermovermiculite  and wood sawdust) and regionally-optimized  assortment of 24 plant species are used. The proposed technology does not require energy, chemicals and soil components which are scarce in the region. The predominance of natural ecosystem  processes in the formed phytocenoses allows to achieve maximum efficiency, and the use of available materials contributes to minimizing the costs of creating and maintaining the system. The introduction of this technology and formation of the artificial phytocenosis  with the area of about 30% of the man-caused  reservoirs territory made it possible to increase the efficiency of wastewater treating from mineral nitrogen compounds  by 22%

OIL BIODEGRADATION BY CONSORTIUM OF OIL DEGRADING MICROORGANISMS IN LABORATORY MODEL SYSTEMS

Abstract. Aim. To evaluate the effectiveness of a consortium of hydrocarbon oxidizing bacteria in various model systems. Methods. Two types of model systems were used for carrying out the experiments: with a liquid mineral medium and with non-sterile soil. To determine the number of microorganisms, a standard method of serial dilutions with seeding to individual colonies was used. Individual strains in the consortium were distinguished using selective media with antibiotics. Oil degradation was assessed by IR spectrometry. Results. The consortium was capable to effective oil destruction in a liquid medium at 4°C and at 24°C, and with respect to control, oil loss is higher at low temperature. At 50°C, the consortium was inactive. In model non-sterile soil systems, the stimulation of native microorganisms by introducing mineral fertilizers did not lead to significant changes in the number of oil-degrading microorganisms but the degree of oil degradation increased. With the joint introduction of the microbial consortium and fertilization, the greatest number of both heterotrophic and oil-degrading strains was observed in the soil system. The degree of oil destruction in this system was also the highest: 59% at 42 days at room temperature. Main conclusions. The developed bacterial consortium has a high oil-degrading activity both at low (4°C) and moderate (18-25°C) temperatures. In non-sterile soil systems, the consortium's microorganisms do not inhibit the local biota, maintaining their numbers at about constant levels, but at the same time they make the main contribution to pollution degradation

Association of the Apolipoprotein E 2 Allele with Concurrent Occurrence of Endometrial Hyperplasia and Endometrial Carcinoma

Genes encoding proteins with antioxidant properties may influence susceptibility to endometrial hyperplasia (EH) and endometrial carcinoma (ECa). Patients with EH (n = 89), EH concurrent with ECa (n = 76), ECa (n = 186), and healthy controls (n = 1110) were genotyped for five polymorphic variants in the genes involved in metabolism of lipoproteins (APOE Cys112Arg and Arg158Cys), iron (HFE Cys282Tyr and His63Asp), and catecholamines (COMT Val158Met). Patients and controls were matched by ethnicity (all Caucasians), age, body mass index (BMI), and incidence of hypertension and diabetes. The frequency of the APOE E 2 allele (158Cys) was higher in patients with EH + ECa than in controls (P = 0.0012, PBonferroni = 0.018, OR = 2.58, 95% CI 1.49–4.45). The APOE E 4 allele (112Arg) was more frequently found in patients with EH than in controls and HFE minor allele G (63Asp) had a protective effect in the ECa group, though these results appeared to be nonsignificant after correction for multiple comparisons. The results of the study indicate that E 2 allele might be associated with concurrent occurrence of EH and ECa

Hyperprolactinemia and CYP2D6, DRD2 and HTR2C genes polymorphism in patients with schizophrenia

Introduction: Hyperprolactinemia is a common serious side effect of antipsychotic medications that are currently used in the treatment of patients with schizophrenia. Pharmacogenetic approaches offer the possibility of identifying patient-specific biomarkers for predicting the risk of this side effect. We investigated a possible relationship between variants (SNPs) in genes for cytochrome 2D6 (CYP2D6), dopamine-2 receptor (DRD2) and serotonin-2C receptor (HTR2C) and antipsychotic drug-induced hyperprolactinemia in patients with schizophrenia. Methods: Overall, 128 Russian patients with paranoid schizophrenia (61F/67M, aged 18-65 y) were included. Serum prolactin concentration was measured with ELISA. DNA analysis and genotyping of CYP2D6 (rs3892097), DRD2 (rs6275) and HTR2C (rs6318) genes was done with StepOnePlus Real-Time PCR System using TaqMan® SNP Genotyping Assays (Applied Biosystems, USA). Results: Our study showed an association of the CYP2D6 (rs3892097) and HTR2C (rs6318) gene polymorphism with hyperprolactinemia in patients with schizophrenia on the background of therapy. No associations were identified between the DRD2 (rs6275) gene polymorphism and the risk of antipsychotic-induced hyperprolactinemia in patients with schizophrenia. Conclusion: Our study confirms a contribution of genetic factors to the antipsychoticinduced hyperprolactinemia in patients with schizophrenia. Further studies are required to unravel the genetic predictors of antipsychotic-induced side effects and to develop the personalized treatment strategies for patients with schizophrenia

Prospects for using pine nut products in the dairy industry

Functional products are currently attracting a lot of research interest. Modern people’s diet does not satisfy their need for nutrients, vitamins and minerals, and functional products can make it more balanced. In particular, our diet is lacking in protein. This paper discusses the prospects for enriching dairy products with plant protein derived from pine nuts and their products. Pine nut paste, fat-free milk and oil cake are a valuable source of fatty acids, vitamins, and microelements. The protein, lipid, vitamin, and mineral content of these products makes them suitable for combining with milk. Their water-holding and fat-emulsifying capacities allow their use as stabilizers and emulsifiers. Siberian pine nuts grow wild in the Kemerovo Region, which makes their use as a raw material economically feasible. The article introduces a number of functional dairy products enriched with pine nut products, such as cheese, ice cream, and cottage cheese. Further, it describes the production process and the products’ nutritional value. The chemical composition of new types of dairy products shows that using pine nut oil cake, fat-free flour, paste and oil enriches them with plant proteins, vegetable fats, vitamins as well as macro- and microelements. Replacing dairy raw materials with plants does not reduce the nutritional value of new dairy products. Dairy foods are rich in protein, fat, and minerals. The vitamin content of new dairy products with functional ingredients is similar to that of dairy-based products. Moreover, using functional products (pine nut oil cake, fat-free flour, paste and oil) enriches new types of dairy products with tocopherols

Studying the influence of Solcoseryl drug and vitamin C on the inflammatory reaction and proliferation of fibroblastic cells in the filed of polypropylene endoprosthesis implantation

Introduction: Applying a coating on hernia endoprosthesis prevents recurrent anterior abdominal wall hernias, reduces inflammatory response and stimulates reparative processes in the area of its implantation. The aim of investigation was to study the effect of Solcoseryl and Vitamin C in a collagen-stimulating coating of hernioendoprosthesis on a morphological picture in anterior abdominal wall plastic surgery. Materials and methods: The study was performed on 180 laboratory mice divided into three groups of 60 animals each: the first group animals were implanted with polypropylene endoprostheses without a collagen-stimulating coating, the second group animals – polypropylene endoprostheses with a collagen-stimulating coating with Vitamin C, and the third group animals – polypropylene endoprostheses with a collagen-stimulating coating with Solcoseryl. The laboratory animals were withdrawn from the experiment on the 10th, 30th, 60th, and 90th days. The excised sections of the abdominal wall were stained with G+E to determine the nature of inflammation and the number of cell elements. Results and discussion: When using endoprostheses with a collagen-stimulating coating, the stages of inflammatory process proceeded more quickly, which was confirmed by a reliable (р ≤ 0.05) decrease in the number of neutrophils, macrophages and lymphocytes at all stages of the study. By the 90th day of the experiment, the number of fibroblasts in the control group was by 22.64% less than in the study groups with a coating. Conclusion: A cytological and histological analysis in the control group determined a consistent decrease in an exudative phase of inflammatory reaction. When using endoprosthesis with coatings, its acceleration and lower intensity was noted throughout the study. In the group with Solcoseryl, the formation of a dense connective capsule around the endoprosthesis indicates its quality and better adaptation of the endoprosthesis in body tissues

Calcifying Bacteria Flexibility in Induction of CaCO3 Mineralization

Microbially induced CaCO3 precipitation (MICP) is considered as an alternative green technology for cement self-healing and a basis for the development of new biomaterials. However, some issues about the role of bacteria in the induction of biogenic CaCO3 crystal nucleation, growth and aggregation are still debatable. Our aims were to screen for ureolytic calcifying microorganisms and analyze their MICP abilities during their growth in urea-supplemented and urea-deficient media. Nine candidates showed a high level of urease specific activity, and a sharp increase in the urea-containing medium pH resulted in efficient CaCO3 biomineralization. In the urea-deficient medium, all ureolytic bacteria also induced CaCO3 precipitation although at lower pH values. Five strains (B. licheniformis DSMZ 8782, B. cereus 4b, S. epidermidis 4a, M. luteus BS52, M. luteus 6) were found to completely repair micro-cracks in the cement samples. Detailed studies of the most promising strain B. licheniformis DSMZ 8782 revealed a slower rate of the polymorph transformation in the urea-deficient medium than in urea-containing one. We suppose that a ureolytic microorganism retains its ability to induce CaCO3 biomineralization regardless the origin of carbonate ions in a cell environment by switching between mechanisms of urea-degradation and metabolism of calcium organic salts