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12. Variants of a major DNA satellite discriminate parental subgenomes in a hybrid parthenogenetic lizard Darevskia unisexualis (Darevsky, 1966).

Author

Nikitin P, Sidorov S, Liehr T, Klimina K, Al-Rikabi A, Korchagin V, Kolomiets O, Arakelyan M, and Spangenberg V

Subjects
Animals, Hybridization, Genetic, Karyotype, Species Specificity, Lizards genetics, DNA, Satellite genetics, Parthenogenesis genetics
Abstract

Hybrid parthenogenetic animals are an exceptionally interesting model for studying the mechanisms and evolution of sexual and asexual reproduction. A diploid parthenogenetic lizard Darevskia unisexualis is a result of an ancestral cross between a maternal species Darevskia raddei nairensis and a paternal species Darevskia valentini and presents a unique opportunity for a cytogenetic and computational analysis of a hybrid karyotype. Our previous results demonstrated a significant divergence between the pericentromeric DNA sequences of the parental Darevskia species; however, an in-depth comparative study of their pericentromeres is still lacking. Here, using target sequencing of microdissected pericentromeric regions, we reveal and compare the repertoires of the pericentromeric tandem repeats of the parental Darevskia lizards. We found species-specific sequences of the major pericentromeric tandem repeat CLsat, which allowed computational prediction and experimental validation of fluorescent DNA probes discriminating parental chromosomes within the hybrid karyotype of D. unisexualis. Moreover, we have implemented a generalizable computational method, based on the optimization of the Levenshtein distance between tandem repeat monomers, for finding species-specific fluorescent probes for pericentromere staining. In total, we anticipate that our comparative analysis of Darevskia pericentromeric repeats, the species-specific fluorescent probes that we found and the pipeline that we developed will form a basis for the future detailed cytogenomic studies of a wide range of natural and laboratory hybrids., (© 2024 Wiley Periodicals LLC.)

Published
2024
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13. Cytogenetic Analysis of the Bimodal Karyotype of the Common European Adder, Vipera berus (Viperidae).

Author

Spangenberg V, Redekop I, Simanovsky SA, and Kolomiets O

Abstract

Vipera berus is the species with the largest range of snakes on Earth and one of the largest among reptiles in general. It is also the only snake species found in the Arctic Circle. Vipera berus is the most involved species of the genus Vipera in the process of interspecific hybridization in nature. The taxonomy of the genus Vipera is based on molecular markers and morphology and requires clarification using SC-karyotyping. This work is a detailed comparative study of the somatic and meiotic karyotypes of V. berus, with special attention to DNA and protein markers associated with synaptonemal complexes. The karyotype of V. berus is a remarkable example of a bimodal karyotype containing both 16 large macrochromosomes and 20 microchromosomes. We traced the stages of the asynchronous assembly of both types of bivalents. The number of crossing-over sites per pachytene nucleus, the localization of the nucleolar organizer, and the unique heterochromatin block on the autosomal bivalent 6-an important marker-were determined. Our results show that the average number of crossing-over sites per pachytene nucleus is 49.5, and the number of MLH1 sites per bivalent 1 reached 11, which is comparable to several species of agamas.

Published
2022
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14. XX/XY sex chromosomes in a blind lizard (Dibamidae): Towards understanding the evolution of sex determination in squamates.

Author

Rovatsos M, Galoyan E, Spangenberg V, Vassilieva A, and Kratochvíl L

Subjects
Animals, Sex Chromosomes genetics, Y Chromosome, X Chromosome, Snakes genetics, Lizards genetics
Abstract

The reconstruction of the evolutionary history of sex determination in squamate reptiles (lizards and snakes) is complicated by missing data in many lineages, erroneous reports, and often questionable inferences on state homology. Therefore, despite the large effort, the reconstruction of the ancestral sex determination in squamate reptiles is still controversial. With the hope to shed light on this problem, we aspired to identify the sex chromosome gene content in Dibamus deharvengi, the representative of the family Dibamidae, the putative sister clade to all other squamates. Our analyses revealed XX/XY sex-determination system in D. deharvengi: the X chromosome contains genes with homologues scattered across chicken chromosomes 8, 12, 13, 18, 30, and 33, and the Y chromosome seems to largely degenerate. To the best of our knowledge, this combination has never been reported to form sex chromosomes in any amniote lineage. It suggests that the sex chromosomes can represent an apomorphy of a clade including D. deharvengi. Our findings cover an important gap in the knowledge of sex determination in reptiles and further support multiple independent origins of sex chromosomes in this group., (© 2022 European Society for Evolutionary Biology.)

Published
2022
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15. Evolution of parthenogenetic reproduction in Caucasian rock lizards: A review.

Author

Arakelyan M, Spangenberg V, Petrosyan V, Ryskov A, Kolomiets O, and Galoyan E

Abstract

Despite numerous works devoted to hybrid origin of parthenogenesis in reptiles, the causes of hybridization between different species, resulting in the origin of parthenogenetic forms, remain uncertain. Recent studies demonstrate that sexual species considered parental to parthenogenetic rock lizards ( Darevskia spp.) avoid interspecific mating in the secondary overlap areas. A specific combination of environmental factors during last glaciation period was critical for ectotherms, which led to a change in their distribution and sex ratio. Biased population structure (e.g., male bias) and limited available distributional range favored the deviation of reproductive behavior when species switched to interspecific mates. To date, at least 7 diploid parthenogenetic species of rock lizards ( Darevskia , Lacertidae) originated through interspecific hybridization in the past. The cytogenetic specifics of meiosis, in particular the weak checkpoints of prophase I, may have allowed the formation of hybrid karyotypes in rock lizards. Hybridization and polyploidization are 2 important evolutionary forces in the genus Darevskia . At present, throughout backcrossing between parthenogenetic and parental species, the triploid and tetraploid hybrid individuals appear annually, but no triploid species found among Darevskia spp. on current stage of evolution. The speciation by hybridization with the long-term stage of diploid parthenogenetic species, non-distorted meiosis, together with the high ecological plasticity of Caucasian rock lizards provide us with a new model for considering the pathways and persistence of the evolution of parthenogenesis in vertebrates., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© The Author(s) 2022. Published by Oxford University Press on behalf of Editorial Office, Current Zoology.)

Published
2022
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16. DNA Environment of Centromeres and Non-Homologous Chromosomes Interactions in Mouse.

Author

Spangenberg V, Losev M, Volkhin I, Smirnova S, Nikitin P, and Kolomiets O

Subjects
Animals, DNA, Satellite metabolism, Histones metabolism, Meiosis, Mice, Inbred BALB C, Mice, Inbred CBA, X Chromosome, Mice, Centromere metabolism, Chromosomes, Mammalian metabolism, DNA metabolism
Abstract

Although the pericentromeric regions of chromosomes that are enriched in tandemly repeated satellite DNA represent a significant part of eukaryotic genomes, they remain understudied, which is mainly due to interdisciplinary knowledge gaps. Recent studies suggest their important role in genome regulation, karyotype stability, and evolution. Thus, the idea of satellite DNA as a junk part of the genome has been refuted. The integration of data regarding molecular composition, chromosome behaviour, and the details of the in situ organization of pericentromeric regions is of great interest. The objective of this work was a cytogenetic analysis of the interactions between pericentromeric regions from non-homologous chromosomes in mouse spermatocytes using immuno-FISH. We analysed two events: the associations between centromeric regions of the X chromosome and autosomes and the associations between the centromeric regions of the autosomal bivalents that form chromocenters. We concluded that the X chromosome forms temporary synaptic associations with different autosomes in early meiotic prophase I, which can normally be found until the pachytene-diplotene, without signs of pachytene arrest. These associations are formed between the satellite-DNA-rich centromeric regions of the X chromosome and different autosomes but do not involve the satellite-DNA-poor centromeric region of the Y chromosome. We suggest the hypothetical model of X chromosome competitive replacement from such associations during synaptic correction. We showed that the centromeric region of the X chromosome in association remains free of γH2Ax-dependent chromatin inactivation, while the Y chromosome is completely inactivated. This finding highlights the predominant role of associations between satellite DNA-rich regions of different chromosomes, including the X chromosome. We suppose that X-autosomal transient associations are a manifestation of an additional synaptic disorder checkpoint. These associations are normally corrected before the late diplotene stage. We revealed that the intense spreading conditions that were applied to the spermatocyte I nuclei did not lead to the destruction of stretched chromatin fibers of elongated chromocenters enriched in satellite DNA. The tight associations that we revealed between the pericentromeric regions of different autosomal bivalents and the X chromosome may represent the basis for a mechanism for maintaining the repeats stability in the autosomes and in the X chromosome. The consequences of our findings are discussed.

Published
2021
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17. Meiotic synapsis of homeologous chromosomes and mismatch repair protein detection in the parthenogenetic rock lizard Darevskia unisexualis.

Author

Spangenberg V, Arakelyan M, Galoyan E, Martirosyan I, Bogomazova A, Martynova E, de Bello Cioffi M, Liehr T, Al-Rikabi A, Osipov F, Petrosyan V, and Kolomiets O

Subjects
Animals, Cells, Cultured, DNA Mismatch Repair, Gene Rearrangement, Lizards physiology, Parthenogenesis, Synaptonemal Complex, Lizards genetics, Meiotic Prophase I genetics, MutL Protein Homolog 1 genetics
Abstract

Parthenogenetic species of Caucasian rock lizards of the genus Darevksia are important evidence for reticulate evolution and speciation by hybridization in vertebrates. Female-only lineages formed through interspecific hybridization have been discovered in many groups. Nevertheless, critical mechanisms of oogenesis and specifics of meiosis that provide long-term stability of parthenogenetic species are still unknown. Here we report cytogenetic characteristics of somatic karyotypes and meiotic prophase I nuclei in the diploid parthenogenetic species Darevskia unisexualis from the new population "Keti" in Armenia which contains an odd number of chromosomes 2n = 37, instead of the usual 2n = 38. We revealed 36 acrocentric chromosomes and a single metacentric autosomal chromosome, resulting from Robertsonian translocation. Comparative genomic hybridization revealed that chromosome fusion occurred between two chromosomes inherited from the maternal species, similar to another parthenogenetic species D. rostombekowi. To trace the chromosome behaviour in meiosis, we performed an immunocytochemical study of primary oocytes' spread nuclei and studied chromosome synapsis during meiotic prophase I in D. unisexualis based on analysis of synaptonemal complexes (SCs). We found meiotic SC-trivalent composed of one metacentric and two acrocentric chromosomes. We confirmed that the SC was assembled between homeologous chromosomes inherited from two parental species. Immunostaining of the pachytene and diplotene nuclei revealed a mismatch repair protein MLH1 loaded to all autosomal SC bivalents. Possible mechanisms of meiotic recombination between homeologous chromosomes are discussed., (© 2021 Wiley Periodicals LLC.)

Published
2021
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18. Evolution of the parthenogenetic rock lizard hybrid karyotype: Robertsonian translocation between two maternal chromosomes in Darevskia rostombekowi.

Author

Spangenberg V, Kolomiets O, Stepanyan I, Galoyan E, de Bello Cioffi M, Martynova E, Martirosyan I, Grishaeva T, Danielyan F, Al-Rikabi A, Liehr T, and Arakelyan M

Subjects
Animals, Chromosome Mapping, Comparative Genomic Hybridization, Female, In Situ Hybridization, Fluorescence, Maternal Inheritance, Sex Chromosomes, Telomere, Evolution, Molecular, Hybridization, Genetic, Karyotype, Lizards genetics, Parthenogenesis genetics, Translocation, Genetic
Abstract

Darevskia rostombekowi, the most outstanding of the seven known parthenogenetic species in the genus Darevskia, is the result of an ancestral cross between two bisexual species Darevskia raddei and Darevskia portschinskii. The chromosomal set of this species includes a unique submetacentric autosomal chromosome; the origin of this chromosome was unresolved as only acrocentric chromosomes are described in the karyotypes of Darevskia genus normally. Here, we applied a suite of molecular cytogenetic techniques, including the mapping of telomeric (TTAGGG) n repeats using fluorescence in situ hybridization (FISH), comparative genomic hybridization (CGH), and whole-chromosome painting (WCP) in both D. rostombekowi and parental (D. portschinskii and D. raddei) species. The obtained results in total suggest that a de novo chromosomal rearrangement via Robertsonian translocation (centric fusion) between two maternal (D. raddei) acrocentric chromosomes of different size was involved in the formation of this unique submetacentric chromosome present in the parthenogenetic species D. rostombekowi. Our findings provide new data in specific and rapid evolutional processes of a unisexual reptile species karyotype.

Published
2020
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19. Cytogenetic mechanisms of unisexuality in rock lizards.

Author

Spangenberg V, Arakelyan M, Cioffi MB, Liehr T, Al-Rikabi A, Martynova E, Danielyan F, Stepanyan I, Galoyan E, and Kolomiets O

Subjects
Animals, Chromosomes, In Situ Hybridization, Fluorescence, Karyotype, Lizards growth & development, Meiosis, Oocytes metabolism, Oogenesis, Comparative Genomic Hybridization methods, Lizards genetics
Abstract

Darevskia rock lizards is a unique complex taxa, including more than thirty species, seven of which are parthenogenetic. In mixed populations of Darevskia lizards, tri- and tetraploid forms can be found. The most important issues in the theory of reticulate evolution of Darevskia lizards are the origin of parthenogenetic species and their taxonomic position. However, there is little data on how meiosis proceeds in these species. The present work reports the complex results of cytogenetics in a diploid parthenogenetic species - D. unisexualis. Here we detail the meiotic prophase I progression and the specific features оf mitotic chromosomes organization. The stages of meiosis prophase I were investigated by immunocytochemical analysis of preparations obtained from isolated primary oocytes of D. unisexualis in comparison with maternal species D. raddei nairensis. It has been shown that in D. unisexualis at the leptotene-zygotene stages the axial elements and the synaptonemal complex (SC) form typical "bouquets". At the pachytene-diplotene stage, 18 autosomal SC-bivalents and thickened asynapted sex Z and w univalents were observed. The presence of SYCP1 protein between the lateral elements of autosomal chromosomes proved the formation of assembled SCs. Comparative genomic hybridization (CGH) on the mitotic metaphase chromosomes of D. unisexualis was carried out using the genomic DNA isolated from the parental species D. raddei nairensis and D. valentini. In the pericentromeric regions of half of the mitotic chromosomes of D. unisexualis, specific regions inherited from maternal species have been found. Following our results, we suggest a model for diploid germ cells formation from diploid oocytes without premeiotic duplication of chromosomes in the oogenesis of diploid parthenogenetic lizards D. unisexualis. Taken as a whole, our findings confirm the hybrid nature of D. unisexualis and shed light on heterozygosity and automixis in diploid parthenogenetic forms.

Published
2020
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20. Extraordinary centromeres: differences in the meiotic chromosomes of two rock lizards species Darevskia portschinskii and Darevskia raddei .

Author

Spangenberg V, Arakelyan M, Galoyan E, Pankin M, Petrosyan R, Stepanyan I, Grishaeva T, Danielyan F, and Kolomiets O

Abstract

According to the synthesis of 30 years of multidisciplinary studies, parthenogenetic species of rock lizards of genus Darevskia were formed as a result of different combination patterns of interspecific hybridization of the four bisexual parental species: Darevskia raddei , D. mixta , D. valentini , and D. portschinskii . In particular, D. portschinskii and D. raddei are considered as the parental species for the parthenogenetic species D. rostombekowi . Here for the first time, we present the result of comparative immunocytochemical study of primary spermatocyte nuclei spreads from the leptotene to diplotene stages of meiotic prophase I in two species: D. portschinskii and D. raddei . We observed similar chromosome lengths for both synaptonemal complex (SC) karyotypes as well as a similar number of crossing over sites. However, unexpected differences in the number and distribution of anti-centromere antibody (ACA) foci were detected in the SC structure of bivalents of the two species. In all examined D. portschinskii spermatocyte nuclei, one immunostained centromere focus was detected per SC bivalent. In contrast, in almost every studied D. raddei nuclei we identified three to nine SCs with additional immunostained ACA foci per SC bivalent. Thus, the obtained results allow us to identify species-specific karyotype features, previously not been detected using conventional mitotic chromosome analysis. Presumably the additional centromere foci are result of epigenetic chromatin modifications. We assume that this characteristic of the D. raddei karyotype could represent useful marker for the future studies of parthenogenetic species hybrid karyotypes related to D. raddei ., Competing Interests: The authors declare that they have no competing interests.

Published
2019
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21. Reorganization of the Y Chromosomes Enhances Divergence in Israeli Mole Rats Nannospalax ehrenbergi (Spalacidae, Rodentia): Comparative Analysis of Meiotic and Mitotic Chromosomes.

Author

Matveevsky S, Ivanitskaya E, Spangenberg V, Bakloushinskaya I, and Kolomiets O

Abstract

The Y chromosome in mammals is variable, even in closely related species. Middle East blind mole rats Nannospalax ehrenbergi demonstrate autosomal variability, which probably leads to speciation. Here, we compare the mitotic and meiotic chromosomes of mole rats. For the first time, we studied the behavior of their sex chromosomes in the meiotic prophase I using electron microscopy and immunocytochemical analysis. Unexpectedly, the sex chromosomes of the 52- and 60-chromosome forms of mole rats showed different synaptic and recombination patterns due to distinct locations of the centromeres on the Y chromosomes. The absence of recombination in the 60-chromosome form, the asymmetric synapsis, and the short-term disturbance in the synaptic co-orientation of the telomeric regions of the X and Y chromosomes were revealed as specific features of mole rat sex bivalents. We suggest several scenarios of Y chromosome alteration in connection with species differentiation in mole rats.

Published
2018
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22. Reticulate Evolution of the Rock Lizards: Meiotic Chromosome Dynamics and Spermatogenesis in Diploid and Triploid Males of the Genus Darevskia.

Author

Spangenberg V, Arakelyan M, Galoyan E, Matveevsky S, Petrosyan R, Bogdanov Y, Danielyan F, and Kolomiets O

Abstract

Knowing whether triploid hybrids resulting from natural hybridization of parthenogenetic and bisexual species are fertile is crucial for understanding the mechanisms of reticulate evolution in rock lizards. Here, using males of the bisexual diploid rock lizard species Darevskia raddei nairensis and Darevskia valentini and a triploid hybrid male Darevskia unisexualis × Darevskia valentini , we performed karyotyping and comparative immunocytochemistry of chromosome synapsis and investigated the distribution of RAD51 and MLH1 foci in spread spermatocyte nuclei in meiotic prophase I. Three chromosome sets were found to occur in cell nuclei in the D. unisexualis × D. valentini hybrid, two originating from a parthenogenetic D. unisexualis female and one from the D. valentini male. Despite this distorted chromosome synapsis and incomplete double-strand breaks repair in meiotic prophase I, the number of mismatch repair foci in the triploid hybrid was enough to pass through both meiotic divisions. The defects in synapsis and repair did not arrest meiosis or spermatogenesis. Numerous abnormal mature spermatids were observed in the testes of the studied hybrid., Competing Interests: The authors declare no conflict of interest.

Published
2017
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23. [Spiral cores of synaptonemal complex lateral elements at the diplotene stage in rye include the ASY1 protein].

Author

Simanovsky SA, Matveevsky SN, Iordanskaya IV, Spangenberg VE, Kolomiets OL, and Bogdanov YB

Subjects
Plant Proteins genetics, Synaptonemal Complex genetics, Meiotic Prophase I, Plant Proteins metabolism, Secale genetics, Synaptonemal Complex metabolism
Abstract

After completing their functioning, synaptonemal complexes (SCs) degrade during the diplotene stage. In the pollen mother cells of rye Secale cereal L., this occurs through the formation of gaps in lateral elements of the SCs and the shortening of fragments of SCs until their complete disappearance. However, when contrasting SCs with silver nitrate solution at a pH of 3.5-4.5, these gaps appear to be filled with threads associated with SC lateral elements. As the diplotene stage proceeds and gradual degradation of SC fragments continues, these threads turn into submicroscopic spirals. In this study, we found that the threads and spirals associated with degrading synaptonemal complexes are stained by antibodies to the ASY1 protein ofArabidopsis thaliana lateral elements and thus are degradation products of the lateral elements of SCs.

Published
2014

24. [Damage to synaptonemal complex structure and peculiarities of selection of mouse spermatocytes I at response to drug administration].

Author

Kolomiets OL, Atsaeva MM, Dadashev SY, Abilev SK, Spangenberg VE, and Matveevsky SN

Subjects
Animals, Anti-Bacterial Agents adverse effects, Chromosome Pairing, Chromosomes drug effects, Chromosomes genetics, Ciprofloxacin analogs & derivatives, DNA Fragmentation, Fluoroquinolones adverse effects, Male, Mice, Mice, Inbred C57BL, Nitrofurazone adverse effects, Spermatocytes cytology, Spermatocytes physiology, Synaptonemal Complex genetics, Synaptonemal Complex ultrastructure, Anti-Bacterial Agents pharmacology, Fluoroquinolones pharmacology, Nitrofurazone pharmacology, Spermatocytes drug effects, Synaptonemal Complex drug effects
Abstract

Using immunocytochemistry methods, the structure of synaptonemal complexes (SC) of chromosomes in spread nuclei of primary spermatocytes of mice at 1, 10, and 36 days after the 10-day intraperitoneal administration of antibacterial preparations of three pharmacological groups: furacilin, an antiseptic derivative of nitrofuran; cifran, an antibiotic from the group of fluoroquinolones; and sextaphage, a polyvalent piobacteriophage was investigated. The maximal number of disturbances in the structure and behavior of synaptonemal complex was revealed on the first day after the end of preparation administration. On days 10 and 36, the total number of disturbances in SC structure decreased gradually. On the first day after the end of the administration of cifran and sextaphage in 41.8 and 25% of nuclei, respectively, the fragmentation of synaptonemal complexes was revealed and, in males to whom furacilin had been administered, the fragmentation of synaptonemal complexes was identified in 100% of nuclei. Multiple chromosome fragmentation is a meiotic disaster and results in the degeneration of cells without enabling the mechanism ofpachytene arrest. The features of pachytene arrest were revealed in the nuclei of primary spermatocytes with the disturbances of chromosomes pairing. After the administration of sextaphage, circle structures released from the lateral elements of SC and are dyed with antibodies to SCP3 protein.

Published
2013
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25. [The peculiarities of the chromosome organization in meiosis].

Author

Grishaeva TM, Spangenberg VE, Kolomiets OL, Dadashev SIa, and Bogdanov IuF

Subjects
Animals, Arabidopsis genetics, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Chromosomal Proteins, Non-Histone genetics, Chromosomal Proteins, Non-Histone metabolism, Gene Expression, Humans, Male, Nuclear Proteins genetics, Nuclear Proteins metabolism, Plants genetics, Saccharomyces cerevisiae genetics, Synaptonemal Complex ultrastructure, Cohesins, Structural Maintenance of Chromosome Protein 1, Biological Evolution, Chromosomes, Human ultrastructure, Meiosis, Spermatocytes ultrastructure, Synteny
Abstract

Meiotic and mitotic chromosomes differ in a number of features. 1. At the early prophase I of meiosis, chromosomes acquire proteinaceous axial elements (AEs) which were absent at mitosis. In addition to somatic cohesins, AEs contain meiosis-specific cohesins REC8, SMC1beta, STAG3. 2. At the middle prophase I, proteinaceous lateral elements (LEs) of synaptonemal complexes (SC) are shaped on a basis of AEs. Proteins of LEs are not conserved, but in Saccharomyces cerevisiae and Arabidopsis thaliana they contain functional domains with conserved secondary structure. Proteins or functional domains similar to SC proteins have been found in green and brown algae, some of lower fungi and in Coelenterata amongs about 679 hundreds of proteins of primitive eukaryotes studied with bioinformatic methods. 3. During the pachytene and diplotene stages of meiosis, chromosomes of spermatocytes and mother pollen cells acquire the structure resembling in miniature the structure of amphibian and avian lamp brush chromosomes. Lateral chromatin loops of 90, 160 and more than 480 Kb in size are observed in human spermatocytes during the diplotene stage. Taken together, these findings support the idea of considerable conservation of the scheme of molecular and ultrastructural organization of meiotic chromosomes in a variety of eukaryotic organisms.

Published
2013

26. [Morphological manifestation of a unique DNA segment in human meiotic prophase I].

Author

Bogdanov IuF, Spangenberg VE, Dadashev SIa, Vitiazeva II, Bogoliubov SV, and Kolomiets OL

Subjects
Cell Cycle Proteins, Chromatin genetics, Chromosomes, Human, Pair 17 genetics, Chromosomes, Human, Pair 17 ultrastructure, DNA Probes analysis, DNA-Binding Proteins, Humans, Male, Nuclear Proteins analysis, Nuclear Proteins genetics, Spermatocytes ultrastructure, Synaptonemal Complex ultrastructure, Trans-Activators, Transcription Factors analysis, Transcription Factors genetics, Chromatin ultrastructure, In Situ Hybridization, Fluorescence methods, Meiotic Prophase I genetics, Spermatocytes cytology, Synaptonemal Complex genetics
Abstract

The commercial sample of human DNA fragment from the choromosome 17 was used as the probe for FISH to study of the mode of its attachment to the lateral elements of synaptonemal complex (SC) in human spermatocytes. It was a 160 kb probe from the band 17p1.2, containing RAI1 gene with D17S620 marker (the probe for deletion causing Smith-Magenis syndrome). The probe made lateral chromatin protrusions, contacting with SC stained with anty-SYCP3. Different morphological configuration of lateral chromatin protrusions where observed. They depended on substages of meiotic prophase I. At zygotene, FISH probe form two sticks, c. a. 6 micro long, which was perpendicular to SC longitudinal axe, one stick at each SC side. At early pachytene, each stick transforms into a globule, one globule at each SC side again. At late pachytene each globule transformed into two crumbly globules containing short threads and clumps. At diplotene, globules finally transformed into thin DNA (chromatin) loops up to 10 micro long from the base to top with periodical thickenings (beads) along their length. As the result of this dynamics of transformation, two chromatin loops with beads were found on each side of SC of the chromosome 17. These loops most probably were the loops of sister chromatides, the full set of chromatide loops at the particular SC (bivalent) site being four in number, i. e. representing of two pair of chromatides. This study is the first one in which lateral chromatin loops in human mail meiotic prophase I are visualized as true open loop instead of that usually postulated "loops" after observation of condensed road-like or brush-like chromatin protrusion attached to the lateral elements of synaptonemal complexes. Open configuration of the loops, presumably, depends on activation of transcription during late pachytene-early diplotene. They resemble lateral loops of mini lampbrush chromosomes.

Published
2012

27. A comparative analysis of the mole vole sibling species Ellobius tancrei and E. talpinus (Cricetidae, Rodentia) through chromosome painting and examination of synaptonemal complex structures in hybrids.

Author

Bakloushinskaya IY, Matveevsky SN, Romanenko SA, Serdukova NA, Kolomiets OL, Spangenberg VE, Lyapunova EA, and Graphodatsky AS

Subjects
Animals, Arvicolinae classification, Cell Line, Chromosome Banding, Female, Karyotyping, Male, Microscopy, Fluorescence, Synaptonemal Complex ultrastructure, Arvicolinae genetics, Comparative Genomic Hybridization, Hybridization, Genetic, In Situ Hybridization, Fluorescence, Synaptonemal Complex genetics
Abstract

A comparative genomic analysis was carried out in the mole vole sibling species Ellobius tancrei and E. talpinus. Performing fluorescent in situ hybridisation (Zoo-FISH) using chromosome paints from the field vole Microtus agrestis showed no differences in the allocation of syntenic groups in the karyotypes of these sibling species. The only difference between their karyotypes was the position of the centromere in one pair of chromosomes, which is assumed to be the result of an inversion. To verify this hypothesis, we analysed chromosome synapsis in prophase I of meiosis. We utilised a synaptonemal complex (SC) surface-spreading technique to visualise the process of chromosome synapsis in the spermatocytes and oocytes of first-generation hybrids and back-crosses of these sibling species. In prophase I of meiosis, immunocytochemical and electron microscopy analyses revealed that all bivalents had been fully adjusted. Even in the case of a submetacentric-acrocentric bivalent with different centromere locations, synapsis of SC lateral elements was fulfilled along the entire length of the chromosomes and the formation of an inversion loop was not observed. We hypothesise that a possible mechanism leading to the change in centromere position is the repositioning and/or generation of a neocentromere. Despite the great similarity in the karyotypes of these sibling species, they exhibited significant genomic diversification, which manifested as hybrid sterility and parous female death., (Copyright © 2012 S. Karger AG, Basel.)

Published
2012
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28. [DNA repeated sequences may be involved in the synaptonemal complexes formation].

Author

Spangenberg VE, Dadashev SIa, Kolomiets OL, and Bogdanov IuF

Subjects
Animals, Chromatin genetics, Chromatin metabolism, DNA genetics, In Situ Hybridization, Fluorescence, Male, Meiosis genetics, Mice, Mice, Inbred C57BL, Spermatocytes metabolism, Spermatocytes ultrastructure, Synaptonemal Complex genetics, Synaptonemal Complex metabolism, DNA metabolism, Repetitive Sequences, Nucleic Acid, Spermatocytes cytology, Synaptonemal Complex ultrastructure
Abstract

Synatonemal complexes (SCs) are the intranuclear structures which facilitate reversible lateral synapsis of the homologous chromosomes in the course of meiosis. It is still unclear which DNA nucleotide sequences are responsible for the chromatin attachment to the SC lateral elements. Considering the features of the dispersed repeated sequences (RS) it is worth to assume their participation in the structure functional organization of the meiotic chromosome. Using numerical analysis we have investigated the relationship between RS and the distribution of events of the meiotic recombination in mouse chromosome 1. Using in situ hybridization on spread mouse spermatocytes, we have demonstrated the arrangement of different types of RS relative to SCs. Hybridization signals of B1(Alu), B2, and minisatellite probes were localizating predominantly in the SCs regions. Our results allow us to suggest the model of the meiotic chromosome organization with the RS as the sequences, participating in the attachment of chromatin loops and SCs.

Published
2011

29. [How do chromosomes attach to synaptonemal complexes?].

Author

Spangenberg VE, Dadashev SIa, Matveevskiĭ SN, Kolomiets OL, and Bogdanov IuF

Subjects
Animals, Chromatin genetics, In Situ Hybridization, Fluorescence, Male, Mice, Minisatellite Repeats physiology, Chromatin metabolism, Chromosomes, Mammalian metabolism, Pachytene Stage physiology, Spermatocytes metabolism, Synaptonemal Complex metabolism
Abstract

Fluorochrome-labeled oligonucleotides (n = 44) corresponding to mouse genome repetitive sequences were hybridized in situ with pachytene nuclei of mouse spermatocytes. Signals of the repetitive sequences MaLR, MER, and (GT)22 were found to be dispersed through chromatin, and signals of BI 1 repeats and minisatellites were mostly attached to synaptonemal complexes immunostained with anti-SYCP3 antibodies. These results suggest that B 1 repeats and minisatellites are candidates for sequences anchoring chromatin to synaptonemal complexes.

Published
2010

30. [The effect of glucose on the turnover of L-tryptophan in infants].

Author

Spangenberg V and Tolckmitt W

Subjects
Glucose administration & dosage, Half-Life, Humans, Hydrocortisone blood, Infant, Injections, Intravenous, Parenteral Nutrition, Tryptophan administration & dosage, Glucose pharmacology, Tryptophan metabolism
Published
1973

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