Your search keyword '"Vaskova, Evgeniya"' showing total 4 results

1. Dynamics of the two heterochromatin types during imprinted X chromosome inactivation in vole Microtus levis.

Author

Vaskova EA, Dementyeva EV, Shevchenko AI, Pavlova SV, Grigor'eva EV, Zhelezova AI, Vandeberg JL, and Zakian SM

Subjects

Animals, Embryonic Development genetics, Female, Histones genetics, Histones metabolism, Meiosis genetics, Sex Chromatin genetics, Stem Cells metabolism, Trophoblasts metabolism, Y Chromosome genetics, Arvicolinae genetics, Genomic Imprinting genetics, Heterochromatin genetics, X Chromosome genetics, X Chromosome Inactivation genetics

Abstract

In rodent female mammals, there are two forms of X-inactivation - imprinted and random which take place in extraembryonic and embryonic tissues, respectively. The inactive X-chromosome during random X-inactivation was shown to contain two types of facultative heterochromatin that alternate and do not overlap. However, chromatin structure of the inactive X-chromosome during imprinted X-inactivation, especially at early stages, is still not well understood. In this work, we studied chromatin modifications associated with the inactive X-chromosome at different stages of imprinted X-inactivation in a rodent, Microtus levis. It has been found that imprinted X-inactivation in vole occurs in a species-specific manner in two steps. The inactive X-chromosome at early stages of imprinted X-inactivation is characterized by accumulation of H3K9me3, HP1, H4K20me3, and uH2A, resembling to some extent the pattern of repressive chromatin modifications of meiotic sex chromatin. Later, the inactive X-chromosome recruits trimethylated H3K27 and acquires the two types of heterochromatin associated with random X-inactivation.

Published

2014

2. Transcriptome Characteristics and X-Chromosome Inactivation Status in Cultured Rat Pluripotent Stem Cells.

Author

Vaskova, Evgeniya A., Medvedev, Sergey P., Sorokina, Anastasiya E., Nemudryy, Artem A., Elisaphenko, Evgeniy A., Zakharova, Irina S., Shevchenko, Alexander I., Kizilova, Elena A., Zhelezova, Antonina I., Evshin, Ivan S., Sharipov, Ruslan N., Minina, Julia M., Zhdanova, Natalia S., Khegay, Igor I., Kolpakov, Fedor A., Sukhikh, Gennadiy T., Pokushalov, Evgeniy A., Karaskov, Alexander M., Vlasov, Valentin V., and Ivanova, Ludmila N.

Subjects

*PLURIPOTENT stem cells, *EMBRYONIC stem cell research, *LABORATORY rats, *X chromosome, *RNA sequencing, *HETEROCHROMATIN

Abstract

Rat pluripotent stem cells, embryonic stem cells (ESCs), and induced pluripotent stem cells (iPSCs) as mouse and human ones have a great potential for studying mammalian early development, disease modeling, and evaluation of regenerative medicine approaches. However, data on pluripotency realization and self-renewal maintenance in rat cells are still very limited, and differentiation protocols of rat ESCs (rESCs) and iPSCs to study development and obtain specific cell types for biomedical applications are poorly developed. In this study, the RNA-Seq technique was first used for detailed transcriptome characterization in rat pluripotent cells. The rESC and iPSC transcriptomes demonstrated a high similarity and were significantly different from those in differentiated cells. Additionally, we have shown that reprogramming of rat somatic cells to a pluripotent state was accompanied by X-chromosome reactivation. There were two active X chromosomes in XX rESCs and iPSCs, which is one of the key attributes of the pluripotent state. Differentiation of both rESCs and iPSCs led to X-chromosome inactivation (XCI). The dynamics of XCI in differentiating rat cells was very similar to that in mice. Two types of facultative heterochromatin described in various mammalian species were revealed on the rat inactive X chromosome. To explore XCI dynamics, we established a new monolayer differentiation protocol for rESCs and iPSCs that may be applied to study different biological processes and optimized for directed derivation of specific cell types. [ABSTRACT FROM AUTHOR]

Published

2015

3. Dynamics of the Two Heterochromatin Types during Imprinted X Chromosome Inactivation in Vole Microtus levis.

Author

Vaskova, Evgeniya A., Dementyeva, Elena V., Shevchenko, Alexander I., Pavlova, Sophia V., Grigor'eva, Elena V., Zhelezova, Antonina I., VandeBerg, John L., and Zakian, Suren M.

Subjects

*HETEROCHROMATIN, *MICROTUS, *CHROMOSOME abnormalities, *LABORATORY rodents, *DEVELOPMENTAL biology, *MOLECULAR biology, *GENE expression

Abstract

In rodent female mammals, there are two forms of X-inactivation – imprinted and random which take place in extraembryonic and embryonic tissues, respectively. The inactive X-chromosome during random X-inactivation was shown to contain two types of facultative heterochromatin that alternate and do not overlap. However, chromatin structure of the inactive X-chromosome during imprinted X-inactivation, especially at early stages, is still not well understood. In this work, we studied chromatin modifications associated with the inactive X-chromosome at different stages of imprinted X-inactivation in a rodent, Microtus levis. It has been found that imprinted X-inactivation in vole occurs in a species-specific manner in two steps. The inactive X-chromosome at early stages of imprinted X-inactivation is characterized by accumulation of H3K9me3, HP1, H4K20me3, and uH2A, resembling to some extent the pattern of repressive chromatin modifications of meiotic sex chromatin. Later, the inactive X-chromosome recruits trimethylated H3K27 and acquires the two types of heterochromatin associated with random X-inactivation. [ABSTRACT FROM AUTHOR]

Published

2014

4. Dynamics of the Two Heterochromatin Types during Imprinted X Chromosome Inactivation in Vole Microtus levis.

Author

Vaskova, Evgeniya A., Dementyeva, Elena V., Shevchenko, Alexander I., Pavlova, Sophia V., Grigor'eva, Elena V., Zhelezova, Antonina I., VandeBerg, John L., and Zakian, Suren M.

Subjects

HETEROCHROMATIN, MICROTUS, CHROMOSOME abnormalities, LABORATORY rodents, DEVELOPMENTAL biology, MOLECULAR biology, GENE expression

Abstract

In rodent female mammals, there are two forms of X-inactivation – imprinted and random which take place in extraembryonic and embryonic tissues, respectively. The inactive X-chromosome during random X-inactivation was shown to contain two types of facultative heterochromatin that alternate and do not overlap. However, chromatin structure of the inactive X-chromosome during imprinted X-inactivation, especially at early stages, is still not well understood. In this work, we studied chromatin modifications associated with the inactive X-chromosome at different stages of imprinted X-inactivation in a rodent, Microtus levis. It has been found that imprinted X-inactivation in vole occurs in a species-specific manner in two steps. The inactive X-chromosome at early stages of imprinted X-inactivation is characterized by accumulation of H3K9me3, HP1, H4K20me3, and uH2A, resembling to some extent the pattern of repressive chromatin modifications of meiotic sex chromatin. Later, the inactive X-chromosome recruits trimethylated H3K27 and acquires the two types of heterochromatin associated with random X-inactivation. [ABSTRACT FROM AUTHOR]

Published

2014