17 results on '"Zelentsova, Ekaterina A."'
Search Results
2. Most abundant metabolites in tissues of freshwater fish pike-perch (Sander lucioperca)
- Author
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Tsentalovich, Yuri P., Zelentsova, Ekaterina A., Yanshole, Lyudmila V., Yanshole, Vadim V., and Odud, Iliya M.
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- 2020
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3. Metabolic response of the Siberian wood frog Rana amurensis to extreme hypoxia
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Shekhovtsov, Sergei V., Bulakhova, Nina A., Tsentalovich, Yuri P., Zelentsova, Ekaterina A., Yanshole, Lyudmila V., Meshcheryakova, Ekaterina N., and Berman, Daniil I.
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- 2020
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4. Metabolomic Profiling Reveals Differences in Hypoxia Response between Far Eastern and Siberian Frogs.
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Shekhovtsov, Sergei V., Bulakhova, Nina A., Tsentalovich, Yuri P., Zelentsova, Ekaterina A., Osik, Nataliya A., Meshcheryakova, Ekaterina N., Poluboyarova, Tatiana V., and Berman, Daniil I.
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FROGS ,ANOXIC waters ,METABOLOMICS ,HYPOXEMIA ,OXYGEN in water ,HEART - Abstract
Simple Summary: The lack of oxygen is a significant challenge for most animals, which can lead to tissue damage and death. The Siberian frog Rana amurensis is so far the only known amphibian capable of surviving water anoxia for a long time. We compared metabolomic profiles of the liver, brain, and heart under hypoxia for the Siberian frog and the Far Eastern (Rana dybowskii) frog, which is highly susceptible to the lack of oxygen. One of the most interesting findings was that the organs of the Far Eastern frog had more lactate (glycolysis end product) than those of the Siberian frog despite a much shorter exposure time. The amounts of succinate were similar between the two species. Interestingly, glycerol and 2,3-butanediol were found to be abundant under hypoxia in the Siberian frog, but not in the Far Eastern frog. The role of these substances are still unclear. Based on the obtained data, we suggest a bioenergetic pathway for metabolic changes in the Siberian frog under anoxia. Anoxia is a significant challenge for most animals, as it can lead to tissue damage and death. Among amphibians, the Siberian frog Rana amurensis is the only known species capable of surviving near-zero levels of oxygen in water for a prolonged period. In this study, we aimed to compare metabolomic profiles of the liver, brain, and heart of the Siberian frog exposed to long-term oxygen deprivation (approximately 0.2 mg/L water) with those of the susceptible Far Eastern frog (Rana dybowskii) subjected to short-term hypoxia to the limits of its tolerance. One of the most pronounced features was that the organs of the Far Eastern frog contained more lactate than those of the Siberian frog despite a much shorter exposure time. The amounts of succinate were similar between the two species. Interestingly, glycerol and 2,3-butanediol were found to be significantly accumulated under hypoxia in the Siberian frog, but not in the Far Eastern frog. The role and biosynthesis of these substances are still unclear, but they are most likely formed in certain side pathways of glycolysis. Based on the obtained data, we suggest a pathway for metabolic changes in the Siberian frog under anoxia. [ABSTRACT FROM AUTHOR]
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- 2023
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5. Animal Metabolite Database: Metabolite Concentrations in Animal Tissues and Convenient Comparison of Quantitative Metabolomic Data.
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Yanshole, Vadim V., Melnikov, Arsenty D., Yanshole, Lyudmila V., Zelentsova, Ekaterina A., Snytnikova, Olga A., Osik, Nataliya A., Fomenko, Maxim V., Savina, Ekaterina D., Kalinina, Anastasia V., Sharshov, Kirill A., Dubovitskiy, Nikita A., Kobtsev, Mikhail S., Zaikovskii, Anatolii A., Mariasina, Sofia S., and Tsentalovich, Yuri P.
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DATABASES ,METABOLOMICS ,CRYSTALLINE lens ,LABORATORY rodents ,TISSUES ,HEART - Abstract
The Animal Metabolite Database (AMDB, https://amdb.online) is a freely accessible database with built-in statistical analysis tools, allowing one to browse and compare quantitative metabolomics data and raw NMR and MS data, as well as sample metadata, with a focus on the metabolite concentrations rather than on the raw data itself. AMDB also functions as a platform for the metabolomics community, providing convenient deposition and exchange of quantitative metabolomic data. To date, the majority of the data in AMDB relate to the metabolite content of the eye lens and blood of vertebrates, primarily wild species from Siberia, Russia and laboratory rodents. However, data on other tissues (muscle, heart, liver, brain, and more) are also present, and the list of species and tissues is constantly growing. Typically, every sample in AMDB contains concentrations of 60–90 of the most abundant metabolites, provided in nanomoles per gram of wet tissue weight (nmol/g). We believe that AMDB will become a widely used tool in the community, as typical metabolite baseline concentrations in tissues of animal models will aid in a wide variety of fundamental and applied scientific fields, including, but not limited to, animal modeling of human diseases, assessment of medical formulations, and evolutionary and environmental studies. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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6. Quantitative Metabolomic Dataset of Avian Eye Lenses.
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Zelentsova, Ekaterina A., Mariasina, Sofia S., Yanshole, Vadim V., Yanshole, Lyudmila V., Osik, Nataliya A., Sharshov, Kirill A., and Tsentalovich, Yuri P.
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CRYSTALLINE lens ,BIOLOGICAL systems ,METABOLOMICS ,PLANT breeding ,ANIMAL diversity - Abstract
Metabolomics is a powerful set of methods that uses analytical techniques to identify and quantify metabolites in biological samples, providing a snapshot of the metabolic state of a biological system. In medicine, metabolomics may help to reveal the molecular basis of a disease, make a diagnosis, and monitor treatment responses, while in agriculture, it can improve crop yields and plant breeding. However, animal metabolomics faces several challenges due to the complexity and diversity of animal metabolomes, the lack of standardized protocols, and the difficulty in interpreting metabolomic data. The current dataset includes quantitative metabolomic profiles of eye lenses from 26 bird species (111 specimens) that can aid researchers in developing new experiments, mathematical models, and integrating with other "-omics" data. The dataset includes raw
1 H NMR spectra, protocols for sample preparation, and data preprocessing, with the final table containing information on the abundance of 89 reliably identified and quantified metabolites. The dataset is quantitative, making it relevant for supplementing with new specimens or comparison groups, followed by data mining and expected new interpretations. The data were obtained using the bird specimens collected in compliance with ethical standards and revealed potential differences in metabolic pathways due to phylogenetic differences or environmental exposure. Dataset: The dataset, including NMR raw data, metabolite concentrations, and experimental protocols, has been deposited in the MetaboLights repository, study identifier MTBLS7739 (https://www.ebi.ac.uk/metabolights/MTBLS7739 (accessed on 30 June 2023)). DOI: 10.1093/nar/gkz1019, PMID: 31691833. This dataset is now also available through the laboratory's own database, accessible via the following links: amdb.online/amdb/experiments/145/; amdb.online/amdb/experiments/199/; amdb.online/amdb/experiments/255/; amdb.online/amdb/experiments/248/. Dataset License: CC0 [ABSTRACT FROM AUTHOR]- Published
- 2023
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7. Influence of Ecological Factors on the Metabolomic Composition of Fish Lenses.
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Tsentalovich, Yuri P., Zelentsova, Ekaterina A., Savina, Ekaterina D., Yanshole, Vadim V., and Sagdeev, Renad Z.
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METABOLOMICS ,ORGANIC acids ,WATER acidification ,WATER pollution ,ROACH (Fish) ,EUROPEAN perch ,FISHERY products ,FISH meal - Abstract
Simple Summary: Biological responses to rugged ecological factors causes changes in the metabolic pathways in aquatic organisms, which may manifest as changes in the tissue metabolomic composition. Therefore, establishing a correlation between the metabolite concentrations in aquatic animals and ecological factors is important for understanding the molecular mechanisms of biological responses to ecological stresses. In this work, we determined the concentrations of 57 major metabolites in the lenses of fish from three locations in Siberia (Russia) that differed in levels of dissolved oxygen (LDO) and water purity. We found that the increased due to CO
2 emissions water acidity and the reduced LDO caused significant changes in the fish lenses' metabolomic compositions, including amino acids, organic acids, and energy metabolites. The obtained results can be used in monitoring the ecological state of water bodies. Multiple stressors related to changes in environmental conditions (such as water temperature, salinity, and natural and anthropogenic pollution) may cause biological responses of aquatic organisms that lead to significant variations in the biochemical reactions in their tissues and thereby change the concentrations of metabolites. We used a quantitative NMR-based metabolomic analysis of the fish lens for the evaluation of the influence of environmental factors on metabolic processes in aquatic animals. For this purpose, three species of freshwater fish—Perca fluviatilis, Rutilus rutilus lacustris, and Gymnocephalus cernua—were caught at approximately the same time at three locations in Siberia (Russia) that differed in levels of dissolved oxygen (LDO) and water purity, and the concentrations of 57 major metabolites in the fish lenses were determined. We found that the metabolomic profiles of the fish lenses strongly depended on the location. The obtained data demonstrated that two typical stressors for aquatic animals—a reduced LDO and anthropogenic water pollution—caused a largely similar metabolic response in the fish lenses that led to an increase in the concentrations of several amino acids and a decrease in sarcosine and phosphoethanolamine. At the same time, the composition of the major lens osmolytes depended mostly on the oxygen level, while variations in AMP (decrease) and NAD (increase) corresponded to the water pollution. We suggest that the eye lens is a very convenient tissue for studying the impact of ecological factors on the metabolic state of aquatic animals, fish in particular. [ABSTRACT FROM AUTHOR]- Published
- 2022
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8. Metabolomic Analysis Reveals That the Moor Frog Rana arvalis Uses Both Glucose and Glycerol as Cryoprotectants.
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Shekhovtsov, Sergei V., Bulakhova, Nina A., Tsentalovich, Yuri P., Zelentsova, Ekaterina A., Meshcheryakova, Ekaterina N., Poluboyarova, Tatiana V., and Berman, Daniil I.
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CRYOPROTECTIVE agents ,RANA ,FROGS ,METABOLOMICS ,GLUCOSE ,MONOCARBOXYLATE transporters ,GLYCERIN - Abstract
Simple Summary: The moor frog Rana arvalis can tolerate freezing to low temperatures, up to −16 °C. We performed metabolomic analysis of the liver and hindlimb muscles of frozen and control R. arvalis. We found that the moor frog synthesizes glucose and glycerol in similar concentrations as low molecular weight cryoprotectants. This is the first such case reported for the genus Rana, which was believed to use glucose only. We found that freezing upregulates glycolysis, with the accumulation of several end products: lactate, alanine, ethanol, and, possibly, 2,3-butanediol. To our knowledge, this is also the first report of ethanol as an end product of glycolysis in terrestrial vertebrates. We observed highly increased concentrations of nucleotide degradation products, implying high level of stress. We found almost no signs of adaptations to reoxygenation stress, with overall low levels of antioxidants. We also performed metabolomics analysis of subcutaneous ice that was found to contain glucose, glycerol, and several other substances. The moor frog Rana arvalis is one of a few amphibians that can tolerate freezing to low temperatures, up to −16 °C. In this study, we performed metabolomic analysis of the liver and hindlimb muscles of frozen and control R. arvalis. We found that the moor frog synthesizes glucose and glycerol in similar concentrations as low molecular weight cryoprotectants. This is the first such case reported for the genus Rana, which was believed to use glucose only. We found that freezing upregulates glycolysis, with the accumulation of several end products: lactate, alanine, ethanol, and, possibly, 2,3-butanediol. To our knowledge, this is also the first report of ethanol as an end product of glycolysis in terrestrial vertebrates. We observed highly increased concentrations of nucleotide degradation products, implying high level of stress. The Krebs cycle arrest resulted in high concentrations of succinate, which is common for animals. However, we found almost no signs of adaptations to reoxygenation stress, with overall low levels of antioxidants. We also performed metabolomics analysis of subcutaneous ice that was found to contain glucose, glycerol, and several other substances. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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9. The Application of Quantitative Metabolomics for the Taxonomic Differentiation of Birds.
- Author
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Zelentsova, Ekaterina A., Yanshole, Lyudmila V., Tsentalovich, Yuri P., Sharshov, Kirill A., and Yanshole, Vadim V.
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CROWS , *RNA sequencing , *CORVUS corax , *HIERARCHICAL clustering (Cluster analysis) , *ENGLISH sparrow , *GREAT tit - Abstract
Simple Summary: Modern evolutionary biology offers a wide variety of methods to explore the evolution of species and to describe their relationships. The methods of DNA/RNA sequence analysis have been developing for decades and have become increasingly popular and reasonably reliable. Nevertheless, final phylogenetic trees for many taxa are still under debate because both classical and genomics-based approaches have their own limitations for phylogenetic tree reconstruction. Here, we propose the use of younger 'omics' methods, namely quantitative metabolomics, to aid the phylogeny reconstruction of vertebrates. We show that metabolomics-based hierarchical clustering analysis trees match, although not perfectly, to the genomics-based trees. In the current pilot study, we propose the use of quantitative metabolomics to reconstruct the phylogeny of vertebrates, namely birds. We determined the concentrations of the 67 most abundant metabolites in the eye lenses of the following 14 species from 6 orders of the class Aves (Birds): the Black kite (Milvus migrans), Eurasian magpie (Pica pica), Northern raven (Corvus corax), Eurasian coot (Fulica atra), Godlewski's bunting (Emberiza godlewskii), Great crested grebe (Podiceps cristatus), Great tit (Parus major), Hawfinch (Coccothraustes coccothraustes), Hooded crow (Corvus cornix), House sparrow (Passer domesticus), Rock dove (Columba livia), Rook (Corvus frugilegus), Short-eared owl (Asio flammeus) and Ural owl (Strix uralensis). Further analysis shows that the statistical approaches generally used in metabolomics can be applied for differentiation between species, and the most fruitful results were obtained with hierarchical clustering analysis (HCA). We observed the grouping of conspecific samples independently of the sampling place and date. The HCA tree structure supports the key role of genomics in the formation of the lens metabolome, but it also indicates the influence of the species lifestyle. A combination of genomics-based and metabolomics-based phylogeny could potentially resolve arising issues and yield a more reliable tree of life. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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10. A novel method of sample homogenization with the use of a microtome-cryostat apparatus.
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Zelentsova, Ekaterina A., Yanshole, Vadim V., and Tsentalovich, Yuri P.
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- 2019
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11. Biochemical Response to Freezing in the Siberian Salamander Salamandrella keyserlingii.
- Author
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Shekhovtsov, Sergei V., Bulakhova, Nina A., Tsentalovich, Yuri P., Zelentsova, Ekaterina A., Meshcheryakova, Ekaterina N., Poluboyarova, Tatiana V., and Berman, Daniil I.
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FREEZES (Meteorology) ,ADENOSINE monophosphate ,SALAMANDERS ,FREEZING ,MOLECULAR weights ,CHOLINE ,MONOCARBOXYLATE transporters - Abstract
Simple Summary: The Siberian salamander is a unique amphibian that is capable to survive long-term freezing at −55 °C. We used
1 H-NMR analysis to study quantitative changes of multiple metabolites in liver and hindlimb muscle of the Siberian salamander in response to freezing. For the majority of molecules we observed significant changes in concentrations. Glycerol content in frozen organs was as high as 2% w/w, which confirms its role as a cryoprotectant. No other putative cryoprotectants were detected. Freezing resulted in increased concentrations of glycolysis products: lactate and alanine. Unexpectedly, we detected no increase in concentrations of succinate, which accumulates under ischemia in various tetrapods. Freezing proved to be a dramatic stress with high levels of nucleotide degradation products. There was also significant increase in the concentrations of choline and glycerophosphocholine, which may be interpreted as the degradation of biomembranes. Thus, we found that freezing results not only in macroscopical damage due to ice formation, but also to degradation of DNA and biomembranes. The Siberian salamander Salamandrella keyserlingii Dybowski, 1870 is a unique amphibian that is capable to survive long-term freezing at −55 °C. Nothing is known on the biochemical basis of this remarkable freezing tolerance, except for the fact that it uses glycerol as a low molecular weight cryoprotectant. We used1 H-NMR analysis to study quantitative changes of multiple metabolites in liver and hindlimb muscle of S. keyserlingii in response to freezing. For the majority of molecules we observed significant changes in concentrations. Glycerol content in frozen organs was as high as 2% w/w, which confirms its role as a cryoprotectant. No other putative cryoprotectants were detected. Freezing resulted in ischemia manifested as increased concentrations of glycolysis products: lactate and alanine. Unexpectedly, we detected no increase in concentrations of succinate, which accumulates under ischemia in various tetrapods. Freezing proved to be a dramatic stress with reduced adenosine phosphate pool and high levels of nucleotide degradation products (hypoxanthine, β-alanine, and β-aminoisobutyrate). There was also significant increase in the concentrations of choline and glycerophosphocholine, which may be interpreted as the degradation of biomembranes. Thus, we found that freezing results not only in macroscopical damage due to ice formation, but also to degradation of DNA and biomembranes. [ABSTRACT FROM AUTHOR]- Published
- 2021
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12. Kinetic Studies of Antioxidant Properties of Ovothiol A.
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Osik, Nataliya A., Zelentsova, Ekaterina A., and Tsentalovich, Yuri P.
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GLUTATHIONE ,ANTIOXIDANTS ,BIOLOGICAL systems ,MARINE invertebrates ,ABSORPTION spectra ,IRRADIATION - Abstract
Ovothiol A (OSH) is one of the strongest natural antioxidants. So far, its presence was found in tissues of marine invertebrates, algae and fish. Due to very low pKa value of the SH group, under physiological conditions, this compound is almost entirely present in chemically active thiolate form and reacts with ROS and radicals significantly faster than other natural thiols. In biological systems, OSH acts in tandem with glutathione GSH, with OSH neutralizing oxidants and GSH maintaining ovothiol in the reduced state. In the present work, we report the rate constants of OSH oxidation by H
2 O2 and of reduction of oxidized ovothiol OSSO by GSH and we estimate the Arrhenius parameters for these rate constants. The absorption spectra of reaction intermediates, adduct OSSG and sulfenic acid OSOH, were obtained. We also found that OSH effectively quenches the triplet state of kynurenic acid with an almost diffusion-controlled rate constant. This finding indicates that OSH may serve as a good photoprotector to inhibit the deleterious effect of solar UV irradiation; this assumption explains the high concentrations of OSH in the fish lens. The unique antioxidant and photoprotecting properties of OSH open promising perspectives for its use in the treatment of human diseases. [ABSTRACT FROM AUTHOR]- Published
- 2021
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13. Influence of Caudovirales Phages on Humoral Immunity in Mice.
- Author
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Chechushkov, Anton, Kozlova, Yuliya, Baykov, Ivan, Morozova, Vera, Kravchuk, Bogdana, Ushakova, Tatyana, Bardasheva, Alevtina, Zelentsova, Ekaterina, Allaf, Lina Al, Tikunov, Artem, Vlassov, Valentin, and Tikunova, Nina
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IMMUNOGLOBULIN M ,HUMORAL immunity ,BACTERIOPHAGES ,WESTERN immunoblotting ,EUKARYOTIC cells ,IMMUNOGLOBULINS ,IMMUNOGLOBULIN G ,NEUTROPHILS - Abstract
Bacteriophages are promising antibacterial agents. Although they have been recognized as bacterial viruses and are considered to be non-interacting with eukaryotic cells, there is growing evidence that phages may have a significant impact on the immune system via interactions with macrophages, neutrophils, and T-cell polarization. In this study, the influence of phages of podovirus, siphovirus, and myovirus morphotypes on humoral immunity of CD-1 mice was investigated. In addition, tissue distribution of the phages was tested in these mice. No common patterns were found either in the distribution of phages in mice or in changes in the levels of cytokines in the sera of mice once injected with phages. Importantly, pre-existing IgM-class antibodies directed against capsid proteins of phages with myovirus and siphovirus morphotypes were identified in mice before immunization. After triple immunization of CD1-mice with phages without any adjuvant, levels of anti-phage serum polyclonal IgG antibodies increased. Immunogenic phage proteins recognized by IgM and/or IgG antibodies were identified using Western blot analysis and mass spectrometry. In addition, mice serum collected after immunization demonstrated neutralizing properties, leading to a substantial decrease in infectivity of investigated phages with myovirus and siphovirus morphotypes. Moreover, serum samples collected before administration of these phages exhibited some ability to reduce the phage infectivity. Furthermore, Proteus phage PM16 with podovirus morphotype did not elicit IgM or IgG antibodies in immunized mice, and no neutralizing activities against PM16 were revealed in mouse serum samples before and after immunization. [ABSTRACT FROM AUTHOR]
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- 2021
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14. The Effect of Blood Contained in the Samples on the Metabolomic Profile of Mouse Brain Tissue: A Study by NMR Spectroscopy.
- Author
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Glinskikh, Anastasia, Snytnikova, Olga, Zelentsova, Ekaterina, Borisova, Maria, Tsentalovich, Yuri, and Akulov, Andrey
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BLOOD sampling ,METABOLOMICS ,NUCLEAR magnetic resonance spectroscopy ,TISSUES - Abstract
(1) Recently, metabolic profiling of the tissue in the native state or extracts of its metabolites has become increasingly important in the field of metabolomics. An important factor, in this case, is the presence of blood in a tissue sample, which can potentially lead to a change in the concentration of tissue metabolites and, as a result, distortion of experimental data and their interpretation. (2) In this paper, the metabolomic profiling based on NMR spectroscopy was performed to determine the effect of blood contained in the studied samples of brain tissue on their metabolomic profile. We used 13 male laboratory CD-1
® IGS mice for this study. The animals were divided into two groups. The first group of animals (n = 7) was subjected to the perfusion procedure, and the second group of animals (n = 6) was not perfused. The brain tissues of the animals were homogenized, and the metabolite fraction was extracted with a water/methanol/chloroform solution. Samples were studied by high-frequency1 H-NMR spectroscopy with subsequent statistical data analysis. The group comparison was performed with the use of the Student's test. We identified 36 metabolites in the brain tissue with the use of NMR spectroscopy. (3) For the major set of studied metabolites, no significant differences were found in the brain tissue metabolite concentrations in the native state and after the blood removal procedure. (4) Thus, it was shown that the presence of blood does not have a significant effect on the metabolomic profile of the brain in animals without pathologies. [ABSTRACT FROM AUTHOR]- Published
- 2021
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15. Isolation and Characterization of a Novel Klebsiella pneumoniae N4-like Bacteriophage KP8.
- Author
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Morozova, Vera, Babkin, Igor, Kozlova, Yuliya, Baykov, Ivan, Bokovaya, Olga, Tikunov, Artem, Ushakova, Tatyana, Bardasheva, Alevtina, Ryabchikova, Elena, Zelentsova, Ekaterina, and Tikunova, Nina
- Subjects
BACTERIOPHAGES ,KLEBSIELLA infections ,DRUG resistance in bacteria ,KLEBSIELLA pneumoniae ,RNA polymerases ,GENOME size ,ELECTRON microscopy ,GENOMES - Abstract
Klebsiella pneumoniae is a common pathogen, associated with a wide spectrum of infections, and clinical isolates of K. pneumoniae often possess multiple antibiotic resistances. Here, we describe a novel lytic N4-like bacteriophage KP8, specific to K. pneumoniae, including its genome, partial structural proteome, biological properties, and proposed taxonomy. Electron microscopy revealed that KP8 belongs to the Podoviridae family. The size of the KP8 genome was 73,679 bp, and it comprised 97 putative open reading frames. Comparative genome analysis revealed that the KP8 genome possessed the highest similarity to the genomes of Enquatrovirus and Gamaleyavirus phages, which are N4-like podoviruses. In addition, the KP8 genome showed gene synteny typical of the N4-like podoviruses and contained the gene encoding a large virion-encapsulated RNA polymerase. Phylogenetic analysis of the KP8 genome revealed that the KP8 genome formed a distinct branch within the clade, which included the members of Enquatrovirus and Gamaleyavirus genera besides KP8. The average evolutionary divergences KP8/Enquatrovirus and KP8/Gamaleyavirus were 0.466 and 0.447 substitutions per site (substitutes/site), respectively, similar to that between Enquatrovirus and Gamaleyavirus genera (0.468 substitutes/site). The obtained data suggested that Klebsiella phage KP8 differs from other similar phages and may represent a new genus within the N4-like phages. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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16. Seasonal Variations and Interspecific Differences in Metabolomes of Freshwater Fish Tissues: Quantitative Metabolomic Profiles of Lenses and Gills.
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Tsentalovich, Yuri P., Yanshole, Vadim V., Yanshole, Lyudmila V., Zelentsova, Ekaterina A., Melnikov, Arsenty D., and Sagdeev, Renad Z.
- Subjects
FRESHWATER fishes ,METABOLOMICS ,ROACH (Fish) ,FISH anatomy ,SEASONAL distribution of fishes ,GILLS ,PHYTIC acid ,ETHANOLAMINES - Abstract
This work represents the first comprehensive report on quantitative metabolomic composition of tissues of pike-perch (Sander lucioperca) and Siberian roach (Rutilus rutilus lacustris). The total of 68 most abundant metabolites are identified and quantified in the fish lenses and gills by the combination of LC-MS and NMR. It is shown that the concentrations of some compounds in the lens are much higher than that in the gills; that indicates the importance of these metabolites for the adaptation to the specific living conditions and maintaining the homeostasis of the fish lens. The lens metabolome undergoes significant seasonal changes due to the variations of dissolved oxygen level and fish feeding activity. The most season-affected metabolites are osmolytes and antioxidants, and the most affected metabolic pathway is the histidine pathway. In late autumn, the major lens osmolytes are N-acetyl-histidine and threonine phosphoethanolamine (Thr-PETA), while in winter the highest concentrations were observed for serine phosphoethanolamine (Ser-PETA) and myo-inositol. The presence of Thr-PETA and Ser-PETA in fish tissues and their role in cell osmotic protection are reported for the first time. The obtained concentrations can be used as baseline levels for studying the influence of environmental factors on fish health. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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17. Ovothiol A is the Main Antioxidant in Fish Lens.
- Author
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Yanshole, Vadim V., Yanshole, Lyudmila V., Zelentsova, Ekaterina A., and Tsentalovich, Yuri P.
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ROACH (Fish) ,FRESHWATER fishes ,OPTICAL spectroscopy ,FRESHWATER animals ,CELL nuclei ,NUCLEAR magnetic resonance spectroscopy - Abstract
Tissue protection from oxidative stress by antioxidants is of vital importance for cellular metabolism. The lens mostly consists of fiber cells lacking nuclei and organelles, having minimal metabolic activity; therefore, the defense of the lens tissue from the oxidative stress strongly relies on metabolites. Protein-free extracts from lenses and gills of freshwater fish, Sander lucioperca and Rutilus rutilus lacustris, were subjected to analysis using high-field
1 H NMR spectroscopy and HPLC with optical and high-resolution mass spectrometric detection. It was found that the eye lenses of freshwater fish contain high concentrations of ovothiol A (OSH), i.e., one of the most powerful antioxidants exciting in nature. OSH was identified and quantified in millimolar concentrations. The concentration of OSH in the lens and gills depends on the fish genus and on the season. A possible mechanism of the reactive oxygen species deactivation in fish lenses is discussed. This work is the first to report on the presence of OSH in vertebrates. The presence of ovothiol in the fish tissue implies that it may be a significantly more common antioxidant in freshwater and marine animals than was previously thought. [ABSTRACT FROM AUTHOR]- Published
- 2019
- Full Text
- View/download PDF
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