O. L. Serov scite author profile

O. L. Serov

3Publications

38Citation Statements Received

104Citation Statements Given

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Affiliations

Institute of Cytology and Genetics, Siberian Branch of the Russian Academy of Sciences, Novosibirsk State University

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Cell divisions are not essential for the direct conversion of fibroblasts into neuronal cells

et al. 2015

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These authors equally contributed to this work.Keywords: cell division, direct conversion, fibroblast, neuron, reprogramming, transdifferentiation Abbreviations: iPS cells, induced pluripotent stem cells; ES cells, embryonic stem cells; BAM, Brn2, Ascl1 and Myt1l; BAMCM, Brn2, Ascl1, Myt1l and cMyc; DOX, doxycycline; BrdU, bromodeoxyuridine; MEF, mouse embryonic fibroblasts.Direct lineage conversion is a promising approach for disease modeling and regenerative medicine. Cell divisions play a key role in reprogramming of somatic cells to pluripotency, however their role in direct lineage conversion is not clear. Here we used transdifferentiation of fibroblasts into neuronal cells by forced expression of defined transcription factors as a model system to study the role of cellular division in the direct conversion process. We have shown that conversion occurs in the presence of the cell cycle inhibitors aphidicolin or mimosine. Moreover, overexpression of the cell cycle activator cMyc negatively influences the process of direct conversion. Overall, our results suggest that cell divisions are not essential for the direct conversion of fibroblasts into neuronal cells.

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Comparison of the 3D organization of sperm and fibroblast genomes using the Hi-C approach

Battulin

Fishman

Mazur

et al. 2014

Preprint

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The 3D organization of the genome is tightly connected to its biological function. The Hi-C approach was recently introduced as a method that can be used to identify higher-order chromatin interactions genome-wide. The aim of this study was to determine genome-wide chromatin interaction frequencies using the Hi-C approach in mouse sperm cells and embryonic fibroblasts. The obtained results demonstrated that the 3D genome organizations of sperm and fibroblast cells show a high degree of similarity both with each other and with the previously described mouse embryonic stem (ES) cells. Both A- and B-compartments and topologically associated domains (TADs) are present in spermatozoa and fibroblasts. Nevertheless, sperm cells and fibroblasts exhibited statistically significant differences between each other in the contact probabilities of defined loci. Tight packaging of the sperm genome resulted in an enrichment of long-range contacts compared with the fibroblasts. However, only 30% of the differences in the number of contacts are based on differences in the densities of their genome packages; the main source of the differences is the gain or loss of contacts that are specific for defined genome regions. An analysis of interchromosomal contacts in both cell types demonstrated that the large chromosomes showed a tendency to interact with each other more than with the small chromosomes and vice versa. We found that the dependence of the contact probability P(s) on genomic distance for sperm is in a good agreement with the fractal globular folding of chromatin. The similarity of the spatial DNA organization in sperm and somatic cell genomes suggests the stability of the 3D structure of genomes through generations.

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Analysis of mechanisms regulating the expression of parental alleles at the GPD locus in mule erythrocytes

1978

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Erythrocyte glucose-6-phosphate dehydrogenase (G6PD) was examined by 13% starch gel electrophoresis in 74 mules (42 females and 32 males), 35 donkeys, and ten horses. The quantitative expression of the parental alleles at the Gpd locus varies greatly in female mules from the hemizygous expression of the maternal allele to that of the paternal. The data obtained indicate that the X chromosomes are randomly inactivated in females mules. No selective advantage of a cell population with a maternally (or paternally) derived X active was found in female mule erythrocytes. It is suggested that the phenotypic variability in the expression of the parental Gpd alleles is related to the random proportions established between cells having either a maternal or paternal X active in an initiator (stem) cell group giving rise to erythroid tissue. Initiator cell numbers estimated for erythroid tissue (six or seven) are close to those reported for human females and intergeneric fox hybrids. These numbers may vary depending on the duration of the time of determination and the division rate of initiator cells at determination.

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O. L. Serov

Cell divisions are not essential for the direct conversion of fibroblasts into neuronal cells

Comparison of the 3D organization of sperm and fibroblast genomes using the Hi-C approach

Analysis of mechanisms regulating the expression of parental alleles at the GPD locus in mule erythrocytes

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