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The aim of the study was the IR spectroscopic and chromatographic analysis of products formed during the ozonation of fish oil. Fish oil samples were ozonized using an ozone therapy apparatus with an ozone destructor "Medozons - O3" (Nizhny Novgorod, Russia). The study of the chemical composition of fish oil ozonolysis products was performed on a Shimadzu IR Prestige 21 (Japan) infrared Fourier spectrophotometer in the region of wave numbers 4000 - 400 cm–1 in the form of liquid films in KBr, NaCl, or ZnSe windows. Chromatographic study of the composition of fatty acids was carried out on an Agilent 7890B gas chromatograph with a mass-selective detector 5977A. Qualitative and quantitative determination of propionic acid was carried out on the gas chromatographic complex "Chromosome GC – 1000". Chromatographic data processing was performed on the hardware and software complex "Chromatek-Analyst". The dynamics of IR spectra and quantitative composition of fatty acids (chromatographically) of the studied samples before and after ozonation were evaluated. The concentration of reactive oxygen species was controlled by iodometric titration according to the interstate standard GOST ISO 3900 – 2013. The acid number and saponification number of reaction products were determined by chemical methods. It was found that during the processing of fish oil, the reaction with ozone mainly proceeds locally along the ω–3 double bonds, leading to the formation of hydroperoxyesters and hydroperxy acids, as well as propionic acid. It is shown that the number of fragments of ω-6, ω-7 and ω-9 fatty acids practically does not change.

A study was made of the general condition, changes in the relative mass of internal organs and blood parameters of C57Bl/6 mice 3 months after local irradiation of the chest. Irradiation was carried out in five equal fractions with total doses of 5, 10 and 20 Gy. Single cases of death of irradiated animals were noted in each group 2 months after irradiation. 90 days after irradiation, an increase in the relative mass of the lung was noted in all groups of irradiated animals, as well as a decrease in the relative mass of the spleen and liver. A decrease in the number of platelets in all groups after irradiation was established, as well as a change in erythrocyte indices, which was most pronounced in groups irradiated at doses of 10 and 20 Gy. An increase in the activity of transaminase enzymes in the blood serum of animals depending on the dose of irradiation, an increase in the activity of LDH and phosphatases, as well as a decrease in the level of total protein were noted, which indicates damage to the organs of the thoracic region and liver and persistent metabolic disorders in animals 90days after local irradiation.

For a long time, the strains Bifidobacterium bifidum 1, Bifidobacterium bifidum 791, and Bifidobacterium longum 379 have been successfully used as probiotic producers; the conclusions about the possibility of their use, their role and functions in the human body were made empirically based on indirect signs. At present, high-tech equipment and modern research methods allow to conduct a complete study of the properties and characterization of strains; it is regulated by modern regulatory documents. In our work we applied the classical bacteriological method, MALDI TOF mass spectrometry method, NGS whole genome sequencing. The analysis of 27 clones of the strains revealed that they have typical morphological properties and stable biochemical profiles; the lists of ionized protein masses (so-called "strain markers") were determined. The whole genomes of strains deposited by us in GenBank in 2015-2017 were analyzed for the first time; we found that they do not contain pathogenicity genes, integrated plasmids, determinants of transmissible antibiotic resistance, and belong to phylogenetic clusters formed by probiotic-producing strains. It was shown that B. bifidum 1 and B. bifidum 791 have a pronounced ability to consume glycans of intestinal mucus, while B. longum 379 can efficiently consume plant glycans. The genomes of B. bifidum 791 and B. longum 379 strains contain genes for the synthesis of the most important neurometabolites of tryptophan and folic acid; the genome of B. bifidum 791 strain contains genes for the synthesis of lasso peptide and flavucin, class I lantibiotics with a wide spectrum of antimicrobial and antiviral activity.

Cataract remains the leading cause of reversible blindness worldwide. Inflammatory postoperative complications remain a significant challenge associated with cataract phacoemulsification. These include corneal melting, also known as aseptic keratomalacia, a sight-threatening inflammatory condition that precedes corneal perforation. Case description: a 70-year-old patient underwent cataract phacoemulsification and subsequently developed indomethacin induced corneal erosion. Despite 2 months of conservative treatment, the erosion progressed to a corneal ulcer. To prevent corneal perforation, a prophylactic conjunctival flap was performed. Dry eye disease and Sjogren's syndrome were diagnosed postoperatively. Follow-up was 5 years. Conclusions: the presented case demonstrates for the first time the role of indomethacin as a trigger of corneal melting after cataract phacoemulsification. Corneal melting, potentially leading to corneal perforation, may occur after successful surgery not only in patients with diagnosed dry eye disease and systemic collagenosis but also in asymptomatic patients. Torpid progression, resistance to conventional therapy and a high risk of corneal perforation require a specialist to select appropriate therapeutic and surgical treatment methods as soon as possible. Treatment begins with withdrawal of NSAIDs, local and systemic steroid therapy, intensive corneal lubrication and objective monitoring using anterior segment optical coherence tomography.

In-depth studies of the etiology and consequences of brain damage induced by chronic prenatal hypoxia are now urgently needed to improve the therapeutic strategies and reinforcing the adaptive capacity of nerve cells to oxygen deficiency. Here, we analyzed the characteristics of spontaneous calcium activity of primary hippocampal cultures obtained from mouse embryos exposed to chronic prenatal hypoxia in a late period of development in vitro (DIV 15 - DIV 21) and the adaptive capabilities of neuron-glial networks to the acute hypoxic injury. Chronic hypoxic stress caused several delays in the functional development of primary hippocampal cultures. On DIV 15, the cultures exhibited the spontaneous calcium activity with a decreased number of active cells and duration of Ca²⁺ oscillations. The reduced values of network characteristics (DIV 15) in the presence of partial destruction of the functional architecture of neuron-glial networks with a reduced force of correlated connections between cells during entire observation period were also shown. Chronic hypoxic stress altered the functional culture's response to acute oxygen deficiency. On day 7 after acute hypoxia modelling, against the background of significant decrease in the number of functionally active cells, the frequency and duration of Ca²⁺ oscillations did not differ from the intact values. Nevertheless, significant decrease in the network characteristics accompanied by substantial rearrangements in the functional architecture of neuron-glial networks indicate the death of significant part of the network elements and increase the risk of aggravation the synaptic transmission impairments leading to loss of network functionality in more distant post-hypoxic period.

We have analyzed the distribution of alleles and genotypes of three polymorphic variants: rs11385942 of the LZTFL1 gene, rs657152 of the AB0 gene, and rs2109069 of the DPP9 gene previously associated with COVID-19 in a sample of 80 presumably healthy individuals of the Permsky Bashkirs from the Permsky region of Russia, 48 representatives of the Burzyan region and 47 representatives of the Arkhangelsky district of the Republic of Bashkortostan of Russia.   No statistically significant differences were shown between the Burzyan Bashkirs and the populations of Southern Siberia in the rs11385942 LZTFL1 locus, in contrast to the subpopulations of the Permsky and Arkhangelsky Bashkirs. We also revealed statistically significant differences in the frequency of the minor allele, the rs11385942 LZTFL1 and rs657152 loci of the ABO gene between Burzyan Bashkirs and a mixed sample of Komi and Udmurts. In turn, the subpopulations of the Permsky and Arkhangelsky Bashkirs in the rs657152 locus of the ABO gene were statistically significantly different from the Tatars.

The effect of therapeutic technologies used in the treatment of burns on the parameters of nitrogen metabolism has not been sufficiently studied. In this regard, the assessment of the level of nitrites and nitrates of blood and tissues in combined thermal trauma (CTT) under the influence of NO is of scientific and practical interest. The aim of the study was to determine the concentration of nitric oxide metabolites in the blood and organs under the influence of NO during CTT. The experiment was carried out on white male rats of the Wistar line. CTT (contact burn on the area of 20% of the body surface and thermal inhalation exposure for 20-30 seconds) was applied under anesthesia. Animals with CTT were treated daily with intraperitoneal injections of a 10% dinitrosyl iron complexes (DNIC) solution or were inhaled with NO (20ppm). The concentration of nitrites and nitrates was determined in the blood plasma and homogenate of the liver, heart, kidneys, and lungs. CTT was accompanied by hyperproduction of NO in blood plasma on the 1st, 7th and 10th days after injury with a maximum growth on the 1st day. The largest decrease in NO_2- and NO_3- levels during CTT was observed in the kidneys > liver > lungs > heart. The use of DNIC in CTT led to an increase in NO_2- and NO_3- in the organs. Inhalations of NO during CTT increased the concentration of NO_2- and NO_3-  in the homogenate of the lungs > kidneys > heart > liver.

Physico-chemical characteristics of optical-induced break-down depend weakly on the protein concentration. This factor distinguishes lysozyme from other aqueous solutions which contain objects with nano-size. The laser radiation of the lysozyme aqueous solution during different time periods shows patterns that are quite similar to the classical patterns. In this particular paper, it has been observed that the catalytic activity of lysozyme is decreasing after the laser radiation. The optical density of the protein solutions is increasing. The fluorescence intensity of the lysozyme solution is determined by the amino-acid residues. It decreases before and after the laser light influence. The position of the maximum of the excitation and emission did not change. The shape of the fluorescence signal on the 3D maps also does not change significantly. This observation suggests the degradation of the amino-acid residues. The viscosity and the pseudo plasticity of the lysozyme aqueous solutions increased. However, there is no massive damage of the polypeptide chain. On the contrary, the optical break-down shows the intensive forming of the lysozyme aggregates.

The high risk of ovarian cancer is primarily associated with mutations in BRCA1 and BRCA2 genes. However, mutations in these explain only a small proportion of cases. Mutations in other genes are also involved in the disease. As a result of previous exome sequencing of DNA samples from breast cancer Germany patients with clinical signs of a hereditary form of the disease without major mutations in the BRCA1, BRCA2, CHEK2 and NBN genes, potentially pathogenic genetic variants in new breast and ovarian cancer candidate genes were selected. Selected as a result of bioinformatics analysis genes are involved in vital cell signaling pathways such as repair, apoptosis, cell cycle regulation, cell proliferation, migration, differentiation, as well as immune response and inflammation. Recently, biological microarray technologies have been widely used to study the general genetic variability throughout the human genome in order to determine genetic associations with the disease and search for genes involved in the pathogenesis of multifactorial pathologies. The use of such approaches can be very useful for identifying risk markers for the development and severity of diseases. Our case-control study is aimed at researching potentially pathogenic variants selected as a result of exome sequencing of DNA samples from Caucasian patients using microarray technology Fluidigm to assess their contribution to ovarian cancer pathogenesis in Bashkortostan. Most of the researched alleles were found with different frequencies among cases and controls; however, our data indicate that the researched potentially pathogenic variants do not contribute to ovarian cancer pathogenesis in Bashkortostan populations.