Your search keyword '"Olga Muravenko"' showing total 24 results

1. Transcription factor-binding sites responsible for NO-dependent repression of the histone H2B promoter

Author

Olga Muravenko, Vladimir Kashuba, Tatiana Pavlova, and Vitaly Loginov

Subjects

Regulation of gene expression, Epigenetics of physical exercise, Histone H1, Structural Biology, Histone methyltransferase, Response element, Histone methylation, Histone H2A, Biophysics, Histone H2B, Biology, Molecular biology

Abstract

Nitric oxide (NO) is an important signaling molecule with diverse actions in a wide variety of tissues. NO is a well-known inhibitor of cell growth, DNA replication, and expression of cell-cycle genes. The effect of NO on histone H2B expression was studied in human HEK293 cells. Cell transfection with recombinant plasmids containing the luciferase gene and fragments of the histone H2B promoter region showed that NO attenuated the expression of the reporter gene. The NO-dependent regions responsible for maximal transcriptional suppression of the H2B promoter were localized to the regions of the PPAR-binding site and the minimal promoter (−65/+42 bp from the transcription start). It was assumed that the PRAP-binding site is involved in NO-dependent transcriptional suppression of the histone H2B gene and that this mechanism is associated with NO-dependent modification of low-molecular-weight ligands of PPAR.

Published

2009

2. [Comparative cytogenetic study of the tetraploid Matricaria chamomilla L. and Matricaria inodora L]

Author

Te, Samatadze, Av, Amosova, Nv, Mel Nikova, Sn, Suslina, Tn, Zagumennikova, Av, Zelenin, Va, Bykov, and Olga Muravenko

Subjects

Tetraploidy, Matricaria, Species Specificity, Cytogenetic Analysis, DNA, Ribosomal, In Situ Hybridization, Fluorescence

Abstract

A comparative cytogenetic study of the autotetraploid breed of Matricaria chamomilla L. (M. recutita L.) and Matricaria inodora L. was carried out by DAPI-banding, fluorescent hybridization in situ (FISH) with 26S and 5S rDNA probes, and analysis of meiosis. All chromosomes were identified in both karyotypeson the basis of DAPI-banding images and 26S and 5S rDNA distribution, and species-specific idiograms were composed for both M. chamomilla and M. indora taking into account the polymorphous variants of DAPI-banding images, showing the location of the 26S and 5S rDNA sites.

Published

2015

3. Chromosome numbers and nuclear DNA contents in the red microalgaeCyanidium caldariumand threeGaldieriaspecies

Author

Olga Muravenko, Irina Selyakh, Neonila Kononenko, and Igor Stadnichuk

Subjects

Plant Science, Aquatic Science

Published

2001

4. [An improved method of genomic in situ hybridization (GISH) for distinguishing closely related genomes of tetraploid and hexaploid wheat species]

Author

Av, Amosova, Ed, Badaeva, Olga Muravenko, and Av, Zelenin

Subjects

Polyploidy, Species Specificity, DNA Probes, Chromosomes, Plant, Triticum, Chromosome Painting

Abstract

An improved modification of genomic in situ hybridization (GISH) was proposed. It allows clear and reproducible discrimination between closely related genomes of both tetraploid and hexaploid wheat species due to preannealing of labeled DNA probes and prehybridization of chromosomal samples with blocking DNA. The method was applied to analyze intergenomic translocations 6A:6B and 1A:6B identified in the IG46147 and IG116188 samples of tetraploid wheat Triticum dicoccoides by C-banding. The structure of the rearranged chromosomes was defined for two translocation variants, and the breakpoints were identified on the chromosome arms. Possible application of the developed GISH variant to study genome reorganizations during speciation of allopolyploid plants in evolution is discussed.

Published

2009

5. [Investigation of chromosomes in varieties and translocation lines of pea Pisum sativum L. by FISH, Ag-NOR, and differential DAPI staining]

Author

Te, Samatadze, Olga Muravenko, Nl, Bol Sheva, Ab, Amosova, Sa, Gostimsckiĭ, and Av, Zelenin

Subjects

Peas, DNA, Satellite, Haploidy, DNA Probes, DNA, Ribosomal, Chromosomes, Plant, In Situ Hybridization, Translocation, Genetic, Chromosome Banding

Abstract

The DNA intercalator 9-aminoachridine was used for obtaining high-resolution DAPI patterns of chromosomes of Pisum sativum L. with more than 300 bands per haploid chromosome set. The karyotypes of three pea varieties, Viola, Capital, and Rosa Crown, and two translocation lines, L-108 (T(2-4s)) and M-10 (T(2-7s)), were examined. Based on the results of DAPI staining, we have identified chromosomes, constructed idiograms, and established breakpoints of chromosome translocations. Lines L-108 (T(2-4s)) and M-10 (T(2-7s)) were shown to appear as a result of respectively one translocation between chromosomes 2 and 4 and two translocations between chromosomes 2 and 7. All varieties and translocation lines of pea were examined using fluorescence in situ hybridization (FISH) with telomere repetition probes, 5S and 45S wheat DNA probes. Transcriptional activity of 45S rRNA was detected by Ag-NOR staining. Telomere repetitions were shown to be located only in telomeric chromosome regions. Using high-resolution DAPI staining allowed us to verify localization of 5S genes on pea chromosomes 1, 3, and 5. 45S rDNAs were localized in the secondary constriction regions on the satellite and the satellite thread of chromosome and on the satellite thread and in more proximal satellite heterochromatic region of chromosome 7. The size of 45S rDNA signal on chromosome 7 was larger and its transcriptional activity, higher than the corresponding parameters on chromosome 4 in most of the forms studied. A visual comparison of the results of FISH and Ag-NOR staining of normal and translocated pea chromosomes did not reveal any significant differences between them. The translocations of the satellite chromosomes apparently did not cause significant changes either in the amount of the ribosomal genes or in their transcriptional activity.

Published

2006

6. [Segment duplications in subtelomeric regions of human chromosome 13]

Author

Ns, Kupriianova, Dv, Shibalov, As, Voronov, Olga Muravenko, Av, Zelenin, and Ap, Ryskov

Subjects

Chromosomes, Human, Pair 13, Gene Duplication, Sequence Homology, Nucleic Acid, Molecular Sequence Data, Humans, Sequence Analysis, DNA, Cloning, Molecular, Telomere, Cosmids, Chromosomes, Human, Pair 19, In Situ Hybridization, Fluorescence

Abstract

Owing to a great progress in studying the human genome, its euchromatic portion is almost completely sequenced; the complete sequence is still unknown only for pericentric and telomeric regions and short arms of acrocentric chromosomes. Extended satellite blocks and segment duplications located in these regions substantially hinder the joining of the sequenced fragments and construction of the full-length genome map. The sequence was established for a 1.5-kb human chromosome 13 subtelomeric region, which is about 10 kb away from the rDNA cluster, and deposited in GenBank under accession no. AF478540. The region showed 83-84% homology to the pericentric region of human chromosome 19, and contained short fragments homologous to the pericentric region of human chromosome 13. The results may contribute to the current revision of genome evolution concepts in view of numerous segment duplications revealed.

Published

2003

7. [Introduction to plant genomics]

Author

Av, Zelenin, Ed, Badaeva, and Olga Muravenko

Subjects

DNA, Plant, Chromosomes, Genome, Plant

Abstract

The success in complete sequencing of "small" genomes and development of new technologies which sharply accelerate processes of cloning and sequencing made real an intensive development of plant genomics and complete sequencing of DNA of some species. It is assumed that the success in plant genomics will result in revolutionary changes in biotechnology and plant breeding. However, the enormous size of genomes (tens of billions bp), their extraordinary enrichment in repetitive sequences, and allopolyploidy (the presence in a nucleus of several related but not identical genomes) force us to think that only few "basic" will undergo complete sequencing, whereas the genome investigations in other species will follow principles of comparative genomics. By the present time, complete sequencing of the Arabidopsis genome (125 Mbp) is completed and that of the rice genome (about 430 Mbp) is close to its end. Studying other plant genomes, including those economically valuable, already began on the basis of these investigations. Peculiarities of plant genomes make extraordinarily important the knowledge on plant chromosomes which, in its turn, requires expansion of investigations in this direction and development of new chromosome technologies, including the DNA-sparing methods of high-resolution banding.

Published

2001

8. Peculiarity of the analysis of heterochromatic regions in small chromosomes of plants

Author

Popov, K. V., Olga Muravenko, Samatadze, T. E., Amosova, A. V., and Zelenin, A. V.

9. Notl clones in the analysis of the human genome

Author

Zabarovsky, E. R., Gizatullin, R., Podowski, R. M., Zabarovska, V. V., Xie, L., Olga Muravenko, Kozyrev, S., Petrenko, L., Skobeleva, N., Li, J., Protopopov, A., Kashuba, V., Ernberg, I., Winberg, G., and Wahlestedt, C.

10. Segment duplications in subtelomeric regions of human chromosome 13

Author

Kupriyanova, N. S., Shibalev, D. V., Voronov, A. S., Olga Muravenko, Zelenin, A. V., and Ryskov, A. P.

11. [Chromosomal localization of 5S and 45S ribosomal DNA in species of Linum L. section Linum (syn=Protolinum and Adenolinum)]

Author

Olga Muravenko, Av, Amosova, Te, Samatadze, Semenova OIu, Iv, Nosova, Kv, Popov, Ng, Shostak, Sa, Zoshchuk, and Av, Zelenin

Subjects

Species Specificity, Flax, Karyotyping, Chromosome Mapping, DNA, Ribosomal, In Situ Hybridization, Fluorescence

Abstract

Fluorescence in situ hybridization (FISH) was for the first time used to study the chromosomal location of the 45S (18-2.5S-26S) and 5S ribosomal genes in the genomes of five flax species of the section Linum (syn. Protolinum and Adenolinum). In L. usitatissimum L. (2n = 30), L. angustifolium Huds. (2n = 30), and L. bienne Mill. (2n = 30), a major hybridization site of 45S rDNA was observed in the pericentric region of a large metacentric chromosome. A polymorphic minor locus of 45S rDNA was found on one of the small chromosomes. Sites of 5S rDNA colocalized with those of 45S rDNA, but direct correlation between signal intensities from the 45S and 5S rDNA sites was observed only in some cases. Other 5S rDNA sites mapped to two chromosomes in these flax species. In L. grandiflorum Desf. (2n = 16) and L. austriacum L. (2n = 18), large regions of 45S and 5S rDNA were similarly located on a pair of homologous satellite-bearing chromosomes. An additional large polymorphic site of 45S and 5S rDNA was found in the proximal region of one arm of a small chromosome in the L. usitatissimum. L. angustifolium, and L. bienne karyotypes. The other arm of this chromosome contained a large 5S rDNA cluster. A similar location of the ribosomal genes in the pericentric region of the pair of satellite-bearing metacentrics confirmed the close relationships of the species examined. The difference in chromosomal location of the ribosomal genes between flax species with 2n = 30 and those with 2n = 16 or 18 testified to their assignment to different sections. The use of ribosomal genes as chromosome markers was assumed to be of importance for comparative genomic studies in cultivated flax, a valuable crop species of Russia, and in its wild relatives.

12. [Comparative cytogenetic study of the forms of Macleaya cordata (Willd.) R. Br. from different localities]

Author

Te, Samatadze, Av, Zelenin, Sn, Suslina, Av, Amosova, Kv, Popov, Tn, Zagumennikova, An, Tsitsilin, Va, Bykov, and Olga Muravenko

Subjects

Genetic Markers, Meiosis, Papaveraceae, RNA, Ribosomal, Karyotyping, RNA, Ribosomal, 5S, Ukraine, DNA, Ribosomal, Moscow, Chromosomes, Plant, In Situ Hybridization, Fluorescence, Chromosome Banding

Abstract

A comparative cytogenetic study of two introduced forms of Makleaya cordata (Willd.) R. Br. = syn. Bocconia cordata Willd. grown in different ecological and geographical regions (Moscow and Donetsk areas) was carried out. In the study, a complex of methods utilizing various chromosomal markers, i.e., C- and DAPI-banding technique, fluorescence in situ hybridization (FISH) with probes of26S and 5S rDNA, as well as estimation of the total area of C-positive regions (C-HCH) in prophase nucleoli and meiosis analysis, was used. In the karyotypes (2n = 20), each chromosome was identified on the basis of C-banding and FISH patterns and the chromosome ideograms were built. Pericentrometric and telomeric C-positive bands in chromosomes of the Moscow form karyotype were found to be smaller and intercalary bands, larger than the corresponding bands in the M. cordata form grown in Donetsk. It was found that the content of C-HCH in prophase nucleoli in the form of M. cordata grown in Donetsk was higher than in the form grown in Moscow. In both forms sites of 26S rDNA and 5s rDNA were localized on satellite chromosome 1 and on chromosome 4 respectively but the signals were more intensive in the plant form grown in Donetsk. The results of this study enable selecting M. cordata forms for use in pharmacology and recommending them for cultivation in various ecological and geographical regions.

13. Image and visual analyses of G-banding patterns of camomile chromosomes

Author

Olga Muravenko, Samatadze, T. E., and Zelenin, A. V.

14. Image and visual analyses of G-banding patterns of camomile chromosomes

Author

Olga Muravenko, Te, Samatadze, and Av, Zelenin

Subjects

Plants, Medicinal, Karyotyping, Chamomile, Chromosomes, Genome, Plant, Chromosome Banding

Abstract

Karyotypes of three cultivars of Matricaria chamomilla L. were studied using the developed G-like banding technique. The G-banding patterns of chromosomes were reproducible and chromosome-specific. Visual analysis allowed us to reveal from 5 to 10 G-positive bands and/or blocks of adjacent bands on individual chromosomes. In accordance with the G-banding patterns and morphology of chromosomes, all 9 homologous pairs were identified. The G-banding patterns of chromosomes in karyotypes of different Matricaria chamomilla L. cultivars were similar, thus indicating their species-specific character. The description of G-banding patterns of camomile chromosomes was given in accordance with the revealed G-band polymorphism, and the ideogram of M(ch) genome chromosomes was created. Image analysis of G-banding patterns of camomile chromosomes revealed up to 18 G-positive bands per chromosome with different staining intensity. As a result, the quantitative M(ch) genome ideogram reflecting structural peculiarities of chromosomes (band size, position, and staining intensity) was constructed. Comparison of the results of visual and image analyses of G-banding patterns of camomile chromosomes showed that they complemented each other. The first approach allowed us to determine the main peculiarities of G-banding patterns and the second one - to study the quantitative and qualitative characteristics of the G-banded chromosome structure. Our results demonstrate the prospects of the G-like banding technique together with the image chromosome analysis in studying small-chromosome plant species.

15. [Localization of DNA probes for human ribosomal genes on barley chromosomes]

Author

Olga Muravenko, Ed, Badaeva, Av, Amosova, Ng, Shostak, Kv, Popov, and Av, Zelenin

Subjects

RNA, Ribosomal, 28S, RNA, Ribosomal, 18S, Humans, Hordeum, DNA Probes, DNA, Ribosomal, Ribosomes, Chromosomes, In Situ Hybridization, Fluorescence

Abstract

To estimate the possibility of plant genome mapping using human genome probes, the probes fluorescent in situ hybridization (FISH) of human 18S-28S rDNA (clon 22F9 from the LA-13NCO1 library) was carried out on chromosomes of the spring barley Hordeum vulgare L. As a control, wheat rDNA probe (clon pTa71) was taken. Hybridization of the wheat DNA probe revealed two major labelling sites on mitotic barley chromosomes 5I (7H) and 6I (6H), as well as several minor sites. With the human DNA probe, signals were detected in the major sites of the ribosomal genes on chromosomes 5I (7H) and 6I (6H) only when the chromosome preparations were obtained using an optimized technique with obligatory pepsin treatment followed by hybridization. Thus, this study demonstrates that physical mapping of plant chromosomes with human DNA probes that are 60 to 75% homologous to the plant genes is possible. It suggests principal opportunity for the FISH mapping of plant genomes using probes from human genome libraries, obtained in the course of the total sequencing of the human genomes and corresponding to the coding regions of genes with known functions.

16. Investigation of chromosomes in varieties and translocation lines of pea Pisum sativum L. by FISH, Ag-NOR, and differential DAPI staining

Author

Samatadze, T. E., Olga Muravenko, Bolsheva, N. L., Amosova, A. V., Gostimsky, S. A., and Zelenin, A. V.

17. [Genome comparisons of three closely related flax species and their hybrids with chromosomal and molecular markers]

Author

Olga Muravenko, Va, Lemesh, Te, Samatadze, Av, Amosova, Ze, Grushetskaia, Kv, Popov, Semenova OIu, Lv, Khotyleva, and Av, Zelenin

Subjects

Genetic Markers, Silver Staining, Species Specificity, Chimera, Flax, Heterochromatin, Karyotyping, Nucleolus Organizer Region, DNA, Ribosomal, Crosses, Genetic, Genome, Plant, Chromosome Banding, Random Amplified Polymorphic DNA Technique

Abstract

Chromosome C-banding patterns were analyzed in three closely related flax species (Linum usitatissimum L., 2n = 30; L. angustifolium Huds., 2n = 30; and L. bienne Mill., 2n = 30) and their hybrids. In each case, the karyotype included metacentrics, submetacentrics, and one or two satellite chromosomes. Chromosomes of the three flax species were similar in morphology, size (1-3 microns), and C-banding pattern and slightly differed in size of heterochromatic regions. In all accessions, a large major site of ribosomal genes was revealed by hybridization in the pericentric region of a large metacentric. A minor 45S rDNA site was observed on a small chromosome in L. usitatissimum and L. bienne and on a medium-sized chromosome in L. angustifolium. Upon silver staining, a nucleolus-organizing region (NOR) was detected on a large chromosome in all species. In L. angustifolium, an Ag-NOR band was sometimes seen on a medium-sized chromosome. In the karyotypes of interspecific hybrids, silver-stained rDNA loci were observed on satellite chromosomes of both parental species. RAPD analysis with 22 primers revealed a high similarity of the three species. The greatest difference was observed between L. angustifolium and the other two species. The RAPD patterns of L. bienne and L. usitatissimum differed in fewer fragments. A dendrogram of genetic similarity was constructed for the three flax species on the basis of their RAPD patterns. Genome analysis with chromosome and molecular markers showed that L. bienne must be considered as a subspecies of L. usitatissimum rather than a separate species. The three species were assumed to originate from a common ancestor, L. angustifolium being closest to it.

18. Comparison of chromosome BrdU-Hoechst-Giemsa banding patterns of the A1 and (AD)2 genomes of cotton

Author

Olga Muravenko, Fedotov, A. R., Punina, E. O., Fedorova, L. I., Grif, V. G., and Zelenin, A. V.

19. Investigation of karyotype structure and mapping of ribosomal genes on chromosomes of wild linum species by FISH

Author

Nosova, I. V., Semenova, O. Y., Samatadze, T. E., Amosova, A. V., Bolsheva, N. L., Zelenin, A. V., and Olga Muravenko

20. [Genetic polymorphism of flax Linum usitatissimum based on use of molecular cytogenetic markers]

Author

Rachinskaia, O. A., Lemesh, V. A., Olga Muravenko, Iurkevich, O. I., Guzenko, E. V., Bol Sheva, N. L., Bogdanova, M. V., Samatadze, T. E., Popov, K. V., Malyshev, S. V., Shostak, N. G., Heller, K., Khotyleva, L. V., and Zelenin, A. V.

21. Localization of telomere sequences in chromosomes of two flax species

Author

Bolsheva, N. L., Semenova, O. Yu, Olga Muravenko, Nosova, I. V., Popov, K. V., and Zelenin, A. V.

22. Dimeric bis-benzimidazole Hoechst 33258-related dyes as new AT-specific DNA-binding fluorochromes for human and plant cytogenetics

Author

Popov, K. V., Egorova, E. I., Ivanov, A. A., Gromyko, A. V., Zhuze, A. L., Bolsheva, N. L., Yurkevitch, O. Yu, Olga Muravenko, and Zelenin, A. V.

23. [Comparative study of genomes of two species of flax by C-banding of chromosomes]

Author

Olga Muravenko, Te, Samatadze, Kv, Popov, Av, Amosova, and Av, Zelenii

Subjects

Polymorphism, Genetic, Flax, Karyotyping, Genome, Plant, Chromosome Banding

Abstract

C-banding patterns of the karyotypes of two closely related wild flax species, Linum austriacum L. (2n = 18) and Linum grandiflorum Desf. (2n = 16), were studied. The karyotypes of both species were similar in the chromosome morphology and size. In each species, metacentric and acrocentric chromosomes (1.7-4.3 microns) and one satellite chromosome were observed. In the karyotypes of the species studied, all homologous chromosome pairs were identified, and quantitative ideograms were constructed. Eight chromosome pairs in the two species had similar C-banding patterns. A low level of intraspecific polymorphism in the intercalary and telomeric C-bands was shown in both species. The results indicate that the genomes of two flax species originated from one ancestral genome with the main chromosome number of 8 or 9. Apparently, the doubling of chromosome number or loss of one chromosome with subsequent redistribution of the chromosome material in the ancestral form resulted in the divergence into two species, L. austriacum L. and L. grandiflorum Desf. A considerable similarity of chromosomes in these species provides evidence for their close phylogenetic relatedness, which makes it possible to place them in one section within the Linum genus.

24. [The unique genome of two-chromosome grasses Zingeria and Colpodium, its origin, and evolution]

Author

Es, Kim, Nl, Bol Sheva, Te, Samatadze, Nn, Nosov, Iv, Nosova, Av, Zelenin, Eo, Punina, Olga Muravenko, and Av, Rodionov

Subjects

Evolution, Molecular, Species Specificity, RNA, Plant, RNA, Ribosomal, RNA, Ribosomal, 5S, Poaceae, Chromosomes, Plant, Genome, Plant, Phylogeny, Chromosome Painting

Abstract

Chromosome C-banding and two-color fluorescent in situ hybridization (FISH) were used to compare the chromosomes, to identify the chromosomal localization of the 45S and 5S rRNA genes, and to analyze the sequences of internal transcribed spacers 1 and 2 (ITS1 and ITS2) of the 45S rRNA genes in the genomes of grasses Zingeria biebersteiniana (2n = 4), Z. pisidica, Z. trichopoda (2n = 8), Colpodium versicolor (2n = 4), and Catabrosella variegata (syn. Colpodium variegatum) (2n = 10). Differences in C-banding pattern were observed for two Z. biebersteiniana accessions from different localities. Similar C-banding patterns of chromosomes 1 and 2 were demonstrated for the Z. pisidica and Z. biebersteininana karyotypes. Chromosome C banding and localization of the 45S and 5S rRNA genes on the chromosomes of the two Zingeria species confirmed the assumption that Z. pisidica is an allotetraploid with one of the subgenomes similar to the Z. biebersteiniana genome. ITS comparisons showed that the unique two-chromosome grasses (x = 2)-Z. biebersteiniana (2n = 4), Z. trichopoda (2n = 8), Z. pisidica (2n = 8), and C. versicolor (2n = 4), which were earlier assigned to different tribes of subtribes of the family Poaceae-represent two closely related genera, the genetic distance (p-distance) between their ITSs being only 1.2-4.4%. The Zingeria species and C. versicolor formed a common clade with Catabrosella araratica (2n = 42, x = 7) on a molecular phylogenetic tree. Thus, the karyotypes of Zingeria and Colpodium, which have the lowest known basic chromosome number (x = 2), proved to be monophyletic, rather than originating from different phylogenetic lineages.