13 results on '"A. Yu. Bodrov"'
Search Results
2. First experiment at the Super Heavy Element Factory: High cross section of Mc288 in the Am243+Ca48 reaction and identification of the new isotope Lr264
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Yu. Ts. Oganessian, V. K. Utyonkov, N. D. Kovrizhnykh, F. Sh. Abdullin, S. N. Dmitriev, D. Ibadullayev, M. G. Itkis, D. A. Kuznetsov, O. V. Petrushkin, A. V. Podshibiakin, A. N. Polyakov, A. G. Popeko, R. N. Sagaidak, L. Schlattauer, I. V. Shirokovski, V. D. Shubin, M. V. Shumeiko, D. I. Solovyev, Yu. S. Tsyganov, A. A. Voinov, V. G. Subbotin, A. Yu. Bodrov, A. V. Sabel'nikov, A. V. Khalkin, V. B. Zlokazov, K. P. Rykaczewski, T. T. King, J. B. Roberto, N. T. Brewer, R. K. Grzywacz, Z. G. Gan, Z. Y. Zhang, M. H. Huang, and H. B. Yang
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- 2022
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3. Investigation of Ca48 -induced reactions with Pu242 and U238 targets at the JINR Superheavy Element Factory
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Yu. Ts. Oganessian, V. K. Utyonkov, D. Ibadullayev, F. Sh. Abdullin, S. N. Dmitriev, M. G. Itkis, A. V. Karpov, N. D. Kovrizhnykh, D. A. Kuznetsov, O. V. Petrushkin, A. V. Podshibiakin, A. N. Polyakov, A. G. Popeko, R. N. Sagaidak, L. Schlattauer, V. D. Shubin, M. V. Shumeiko, D. I. Solovyev, Yu. S. Tsyganov, A. A. Voinov, V. G. Subbotin, A. Yu. Bodrov, A. V. Sabel'nikov, A. Lindner, K. P. Rykaczewski, T. T. King, J. B. Roberto, N. T. Brewer, R. K. Grzywacz, Z. G. Gan, Z. Y. Zhang, M. H. Huang, and H. B. Yang
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- 2022
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4. Evolutionary history of mountain voles of the subgenus Aschizomys (Cricetidae, Rodentia), inferred from mitochondrial and nuclear markers
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Semen Yu Bodrov, Alexey Yu Oleinikov, Innokentiy M Okhlopkov, N. I. Abramson, Evgeniy S Zakharov, Nikolai V Mamayev, Evgeniy A Genelt-Yanovskiy, and Vera K Vasiljeva
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Genetic Markers ,0106 biological sciences ,Paraphyly ,Subspecies ,DNA, Mitochondrial ,010603 evolutionary biology ,01 natural sciences ,Russia ,Monophyly ,Animals ,0501 psychology and cognitive sciences ,050102 behavioral science & comparative psychology ,Cell Nucleus ,biology ,Phylogenetic tree ,Arvicolinae ,05 social sciences ,DNA ,biology.organism_classification ,Biological Evolution ,Sister group ,Evolutionary biology ,Phylogenetic Pattern ,Animal Science and Zoology ,Subgenus ,Cricetidae - Abstract
In this study, we present an assessment of the evolutionary history and phylogenetic relationships of Asian mountain voles of the subgenus Aschizomys, genus Alticola, based on extensive sampling and phylogenetic analyses of data from mitochondrial and nuclear markers. Two species of this subgenus are widespread in the mountain areas of north-eastern Asia. However, both their distribution and taxonomic borders remained questionable for more than 100 years. Our study showed discordance in the phylogenetic patterns between nuclear and mtDNA markers. We found that mtDNA in A. lemminus is paraphyletic relative to A. macrotis, but nuclear markers demonstrated reciprocal monophyly. According to species distribution modeling, ranges of A. macrotis and A. lemminus experienced a secondary contact during the Last Glacial Maximum (approximately 22 kyr BP), and thus a hybridization event seems plausible during that period. Species tree analyses recovered a sister group relationship between the two species of the Aschizomys subgenus, with an estimated divergence date of around 0.8 Ma. Our results provided good support for currently recognized subspecies within both A. macrotis and A. lemminus based on mitochondrial and nuclear datasets. A new, yet undescribed form, supposedly of a subspecific status within A. lemminus, was found in the Bureinskiy Range in the Khabarovsk area. This finding expands the current species distribution range further to the southeast.
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- 2020
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5. Signatures of Adaptation in Mitochondrial Genomes of Palearctic Subterranean Voles (Arvicolinae, Rodentia)
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Evgeny A. Genelt-Yanovskiy, Semen Yu Bodrov, N. I. Abramson, Antonina V. Smorkatcheva, Olga V. Bondareva, and Tatyana V. Petrova
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Mitochondrial DNA ,Lineage (evolution) ,selective pressures ,Biology ,QH426-470 ,subterranean lifestyle ,Article ,Evolution, Molecular ,Databases, Genetic ,Genetics ,Animals ,Genetics (clinical) ,Phylogeny ,mitochondrial protein-coding genes ,Arvicolinae ,Computational Biology ,subterranean voles ,adaptations ,Cytochromes b ,Mitochondrial Proton-Translocating ATPases ,biology.organism_classification ,Adaptation, Physiological ,Ellobius ,Evolutionary biology ,Lasiopodomys mandarinus ,Prometheomys ,Genome, Mitochondrial ,Vole ,Adaptation - Abstract
This study evaluates signatures of selection in the evolution of the mitochondrial DNA of voles, subfamily Arvicolinae, during the colonization of subterranean environments. The comparative sequence analysis of mitochondrial protein-coding genes of eight subterranean vole species (Prometheomys schaposchnikowi, three species of the genus Ellobius: Ellobius talpinus, Ellobius fuscocapillus and Ellobius lutescens, two species of the genus Terricola: Terricola subterraneus and Terricola daghestanicus, Lasiopodomys mandarinus, and Hyperacrius fertilis) and their closest aboveground relatives was applied using codon-substitution models. The highest number of selection signatures was detected in genes ATP8 and CYTB. The relaxation of selection was observed in most mitochondrial DNA protein-coding genes for subterranean species. The largest amount of relaxed genes is discovered in mole voles (genus Ellobius). The number of selection signatures was found to be independent of the evolutionary age of the lineage but fits the degree of specialization to the subterranean niche. The common trends of selective pressures were observed among the evolutionary ancient and highly specialized subterranean rodent families and phylogenetically young lineages of voles. It suggests that the signatures of adaptation in individual mitochondrial protein-coding genes associated with the colonization of the subterranean niche may appear within a rather short evolutionary timespan.
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- 2021
6. Signatures of Adaptation in Mitochondrial Genomes of the Palearctic Subterranean Voles (Arvicolinae, Rodentia)
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Olga V. Bondareva, Tatyana V. Petrova, Antonina V. Smorkatcheva, Evgeny A. Genelt-Yanovskiy, N. I. Abramson, and Semen Yu Bodrov
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Arvicolinae ,biology ,Evolutionary biology ,Adaptation ,biology.organism_classification ,Genome ,animal_sciences_zoology - Abstract
The current study evaluates the selection signals in the evolution of mitochondrial DNA of voles, subfamily Arvicolinae, during the colonization of subterranean environments. The comparative sequence analysis of mitochondrial protein-coding genes of eight subterranean vole species (Prometheomys schaposchnikowi, three species of the genus Ellobius: E. talpinus, E. fuscocapillus and E. lutescens, two species of the genus Terricola: T. subterraneus and T. daghestanicus, Lasiopodomys mandarinus and Hyperacrius fertilis) and their closest aboveground relatives using codon-substitution models was applied. The highest number of selection signatures was detected in genes ATP8 and CYTB. The relaxation of selection was observed in most mtDNA protein-coding genes. In mole voles (genus Ellobius) the signatures of adaptive evolution of mitochondrial genes related to subterranean niche were most pronounced. The number of selection signatures was found to be independent of the evolutionary age of the lineage but fits the degree of specialization to the subterranean niche. The common trends of selective pressures were observed among the evolutionary ancient and highly specialized subterranean rodent families and phylogenetically young lineages of voles. It suggests that the signatures of adaptations in individual mitochondrial protein-coding genes associated with the colonization of the subterranean niche may appear within a rather short evolutionary timespan.
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- 2021
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7. The complete mitochondrial genomes of three Ellobius mole vole species (Rodentia: Arvicolinae)
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Ahmad Mahmoudi, N. I. Abramson, Olga V. Bondareva, Tatyana V. Petrova, Evgeny A. Genelt-Yanovskiy, and Semen Yu Bodrov
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0106 biological sciences ,0301 basic medicine ,Mitochondrial DNA ,Phylogenetic tree ,Genus Ellobius ,Biology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Genome ,Ellobius ,03 medical and health sciences ,030104 developmental biology ,Arvicolinae ,Evolutionary biology ,Mole ,Genetics ,Vole ,Molecular Biology - Abstract
The subterranean voles of the genus Ellobius are species of subfamily Arvicolinae well adapted to underground life. In this paper, we report the assemblies of complete mitochondrial genomes for thr...
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- 2020
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8. The complete mitochondrial genomes of three
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Olga V, Bondareva, Ahmad, Mahmoudi, Semen Yu, Bodrov, Evgeny A, Genelt-Yanovskiy, Tatyana V, Petrova, and Natalia I, Abramson
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phylogenetic trees ,Ellobius ,Mitochondrial genome ,NGS ,Mitogenome Announcement ,Research Article - Abstract
The subterranean voles of the genus Ellobius are species of subfamily Arvicolinae well adapted to underground life. In this paper, we report the assemblies of complete mitochondrial genomes for three mole voles from genus Ellobius – northern mole vole Ellobius talpinus (16,376 bp), transcaucasian mole vole E. lutescens (16,540 bp), and southern mole vole E. fuscocapillus (16,388 bp). Each of three mitogenomes encode for 12S and 16S rRNAs, 22 tRNAs, 13 protein-coding genes, and D-loop in the characteristic arrangement of subfamily Arvicolinae (Rodentia: Cricetidae). This study verifies the evolutionary status of subgenera Bramus and Ellobius within the genus Ellobius at the molecular level. The mitochondrial genome would be a significant supplement for the Ellobius genetic background. The three Ellobius species formed a monophyletic group with the high bootstrap value (100%) in all examinations.
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- 2021
9. A mitochondrial genome phylogeny of voles and lemmings (Rodentia: Arvicolinae): Evolutionary and taxonomic implications
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Tatyana V. Petrova, Evgeny A. Genelt-Yanovskiy, N. I. Abramson, Olga V. Bondareva, and Semyon Yu. Bodrov
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Subfamily ,Biochemistry ,Monophyly ,Arvicolini ,Phylogeny ,Energy-Producing Organelles ,Data Management ,Mammals ,Multidisciplinary ,Mammalian Genomics ,biology ,Phylogenetic tree ,Arvicolinae ,Eukaryota ,Phylogenetic Analysis ,Geology ,Genomics ,Pliocene Epoch ,Biological Evolution ,Mitochondria ,Phylogenetics ,Vertebrates ,Medicine ,Cellular Structures and Organelles ,Research Article ,Computer and Information Sciences ,Science ,Bioenergetics ,Tribe (biology) ,DNA, Mitochondrial ,Rodents ,Chionomys ,Genetics ,Animals ,Evolutionary Systematics ,Taxonomy ,Evolutionary Biology ,Voles ,Organisms ,Biology and Life Sciences ,Paleontology ,Geologic Time ,Cell Biology ,biology.organism_classification ,Evolutionary biology ,Neogene Period ,Animal Genomics ,Genome, Mitochondrial ,Amniotes ,Earth Sciences ,Cenozoic Era ,Paleogenetics ,Zoology - Abstract
Arvicolinae is one of the most impressive placental radiations with over 150 extant and numerous extinct species that emerged since the Miocene in the Northern Hemisphere. The phylogeny of Arvicolinae has been studied intensively for several decades using morphological and genetic methods. Here, we sequenced 30 new mitochondrial genomes to better understand the evolutionary relationships among the major tribes and genera within the subfamily. The phylogenetic and molecular dating analyses based on 11,391 bp concatenated alignment of protein-coding mitochondrial genes confirmed the monophyly of the subfamily. While Bayesian analysis provided a high resolution across the entire tree, Maximum Likelihood tree reconstruction showed weak support for the ordering of divergence and interrelationships of tribal level taxa within the most ancient radiation. Both the interrelationships among tribes Lagurini, Ellobiusini and Arvicolini, comprising the largest radiation and the position of the genus Dinaromys within it also remained unresolved. For the first time complex relationships between genus level taxa within the species-rich tribe Arvicolini received full resolution. Particularly Lemmiscus was robustly placed as sister to the snow voles Chionomys in the tribe Arvicolini in contrast with a long-held belief of its affinity with Lagurini. Molecular dating of the origin of Arvicolinae and early divergences obtained from the mitogenome data were consistent with fossil records. The mtDNA estimates for putative ancestors of the most genera within Arvicolini appeared to be much older than it was previously proposed in paleontological studies.
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- 2021
10. Phylogenetic relationships and taxonomic position of genus Hyperacrius (Rodentia: Arvicolinae) from Kashmir based on evidences from analysis of mitochondrial genome and study of skull morphology
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Tatyana V. Petrova, Fedor N. Golenishchev, N. I. Abramson, Semen Yu Bodrov, Olga V. Bondareva, and Evgeny A. Genelt-Yanovskiy
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Mitochondrial DNA ,lcsh:Medicine ,Rodents ,General Biochemistry, Genetics and Molecular Biology ,Arvicolini ,Phylogenetics ,Molecular Biology ,Phylogeny ,Museum DNA ,Taxonomy ,Hyperacrius ,biology ,Phylogenetic tree ,Arvicolinae ,General Neuroscience ,lcsh:R ,General Medicine ,Biodiversity ,biology.organism_classification ,Evolutionary Studies ,Mitogenome ,Alticola ,Evolutionary biology ,Taxonomy (biology) ,General Agricultural and Biological Sciences ,Zoology - Abstract
In this article, we present the nearly complete mitochondrial genome of the Subalpine Kashmir voleHyperacrius fertilis(Arvicolinae, Cricetidae, Rodentia), assembled using data from Illumina next-generation sequencing (NGS) of the DNA from a century-old museum specimen. De novo assembly consisted of 16,341 bp and included all mitogenome protein-coding genes as well as 12S and 16S RNAs, tRNAs and D-loop. Using the alignment of protein-coding genes of 14 previously published Arvicolini tribe mitogenomes, seven Clethrionomyini mitogenomes, and alsoOndatraandDicrostonyxoutgroups, we conducted phylogenetic reconstructions based on a dataset of 13 protein-coding genes (PCGs) under maximum likelihood and Bayesian inference. Phylogenetic analyses robustly supported the phylogenetic position of this species within the tribe Arvicolini. Among the Arvicolini,Hyperacriusrepresents one of the early-diverged lineages. This result of phylogenetic analysis altered the conventional view on phylogenetic relatedness betweenHyperacriusandAlticolaand prompted the revision of morphological characters underlying the former assumption. Morphological analysis performed here confirmed molecular data and provided additional evidence for taxonomic replacement of the genusHyperacriusfrom the tribe Clethrionomyini to the tribe Arvicolini.
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- 2020
11. Toward assembling a taxonomic puzzle: Case study of Iranian gray voles of the subgenus Microtus (Rodentia, Cricetidae)
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Fedor N. Golenishchev, Tatyana V. Petrova, Vladimir G. Malikov, Semen Yu Bodrov, and Nataliya Abramson
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0106 biological sciences ,Phylogenetic tree ,biology ,Cytochrome b ,05 social sciences ,Zoology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Monophyly ,Animal ecology ,Baculum ,0501 psychology and cognitive sciences ,Animal Science and Zoology ,050102 behavioral science & comparative psychology ,Subgenus ,Microtus ,Ecology, Evolution, Behavior and Systematics ,Cricetidae - Abstract
The voles of the subgenus Microtus, which includes six species of the socalled “arvalis” group, have always been problematic for classification. Some group members differ in chromosome number and karyotype structure and yet appear morphologically indistinguishable, while others have very similar karyotypes despite exhibiting significant morphological differences. Two “arvalis” voles from Iran, M. kermanensis and M. mystacinus, are among the least studied members of this group. Here, we used cytochrome b sequences, morphological data and all other available material in an attempt to solve the mystacinuskermanensis taxonomie puzzle. The results of the phylogenetic analysis of the cytochrome b sequences showed that M. rossiaemeridionalis, M. mystacinus and M. kermanensis form a monophyletic group that is sister to M. arvalis. Within this group, M. mystacinus appears to be more dosely related to M. kermanensis than to M. rossiaemeridionalis; therefore, M. kermanensis may be considered the junior synonym of M. mystacinus. However, these two forms differed significantly in size and molar pattern. The attribution of M. kermanensis and M. rossiaemeridionalis to one species contradicts the preliminary results of experimental hybridisation and morphological data: they differ in size, qualitative dental features and baculum structure. The obtained data showed that until comprehensive analysis based on extensive sampling is available, it is expedient to retain the species names M. mystacinus, M. rossiaemeridionalis and M. kermanensis.
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- 2019
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12. Separation of radioisotopes of terbium from a europium target irradiated by 27 MeV α-particles
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Andrey G. Kazakov, R. A. Aliev, Stepan N. Kalmykov, Alexander Yu. Bodrov, and A. B. Priselkova
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Nuclear reaction ,Chemistry ,Radiochemistry ,chemistry.chemical_element ,Terbium ,010403 inorganic & nuclear chemistry ,01 natural sciences ,030218 nuclear medicine & medical imaging ,0104 chemical sciences ,03 medical and health sciences ,0302 clinical medicine ,Irradiation ,Physical and Theoretical Chemistry ,Europium ,α particles - Abstract
A method for obtaining 156, 155, 154m2, 154, 153Tb radiotracers by the irradiation of a europium oxide target of natural isotopic composition by 27 MeV α-particles is proposed. Terbium can be efficiently separated from bulk of europium by the reduction of the latter by zinc in an acidic solution and precipitation as EuSO4. The optimum Zn/Eu3+ and (NH4)2SO4/Eu3+ molar ratios are 20 and 3, respectively. Terbium is additionally purified from europium and gadolinium by extraction chromatography using LN Resin. It is demonstrated that optimum separation is attained in 0.6 M HNO3. The Tb/Eu separation coefficient was ~5·105. The yield of terbium was about 90%. Time of all steps was 1.5–2 h. The proposed procedure makes it possible to obtain no carrier added terbium radiotracers.
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- 2017
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13. [Revision of the Taxonomic Position of the Olkhon Mountain Vole (Rodentia, Cricetidae)]
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S Yu, Bodrov, A Yu, Kostygov, L V, Rudneva, and N I, Abramson
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Siberia ,Arvicolinae ,Animals ,DNA, Mitochondrial ,Phylogeny - Abstract
An analysis of the phylogenetic position of the Olkhon mountain vole (Alticolaolchonensis Litvinov 1960) using the sequences of four nuclear (BRCA, GHR, LCAT, and IRBP) and one mitochondrial (cyt. b) genes was undertaken. It was noted that, until recently, multiple studies of the systematic position of this vole had been based exclusively on morphological data, while the major taxonomic traits contained contradictory information regarding both the subgeneric status of this species and its genus. It was established that the molecular data and morphology data allow us to attribute the Lake Baikal vole unambiguously to the nominative subgenus Alticola instead of Aschizomys.
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- 2016
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