V. A. Timoshevsky scite author profile

V. A. Timoshevsky

5Publications

46Citation Statements Received

22Citation Statements Given

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126

Affiliations

Research Institute of Medical Genetics of Russian Academy of Medical Sciences, Institute of Cytology and Genetics

Publications

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High frequency of tissue‐specific mosaicism in Turner syndrome patients

1999

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Interphase fluorescent studies of X chromosome aneuploidy in cultured and uncultured blood lymphocytes and oral mucosa epithelial cells using X centromere-specific DNA probe in addition to standard karyotype analysis were performed in 50 females with a clinical suspicion of Turner syndrome. All the patients were previously screened for the presence of 'hidden' Y chromosome mosaicism, using the primers DYZ3 and DYZ. The use of fluorescence in situ hybridization (FISH) analysis of interphase nuclei of tissues from different germ layers (lymphocytes from mesoderm and buccal epithelial cells from ectoderm) improves the accuracy of detection of low-level mosaicism. FISH studies on interphase nuclei revealed that 29% of patients with a pure form of monosomy X detected by metaphase analysis are, in fact, mosaics. The level of cells with the normal chromosomal constitution in lymphocytes of these cases as a rule was low, ranging from 3 to 18%, with an average of 7%. Two false-positive cases and one false-negative case of X monosomy mosaicism determined by standard cytogenetic approach were detected using FISH analysis. The majority of patients (92%) with mosaic form of Turner syndrome have considerable tissue-specific differences in levels of X aneuploidy. Our data indicate that in cases when mosaic aneuploidy with low-level frequency is questionable (approximately 10% and lower), the results of standard metaphase analysis should be supplemented with additional FISH studies of interphase nuclei. Tissue-specific differences in contents of different cell lines in the same patients point to the necessity of studying more than one tissue from each patient.

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An Evaluation of the Frequency of Spontaneous Aneuploidy in Human Somatic Cells Using the Technology of Interphase Cytogenetics

Nazarenko

Timoshevsky

2004

Russian Journal of Genetics

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Aneugenic effect of ionizing radiation in mammalian and human somatic cells

2009

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Cytogenetic mechanisms of aneuploidy in somatic cells of chemonuclear industry professionals with incorporated plutonium-239

Vasilyev¹,

Timoshevsky²,

Lebedev³

2010

Russ J Genet

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Comparison of the rates of aneuploidy occurrence in quiescent and dividing cells of humans exposed to adverse environmental factors

Nazarenko¹,

Timoshevsky²

2005

Russ J Genet

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Fluorescence in situ hybridization (FISH) was used to compare aneuploidy rates in four autosomes and two sex chromosomes in interphase nuclei of noncultivated (quiescent) and cultivated (induced to divide with phytohemagglutinin (PHA)) leukocytes in people engaged in nuclear-chemical industry and in a control group of people not exposed to mutagenic factors occupationally or at home. The overall rates of numerical chromosome aberrations for all of the six chromosomes studied showed little difference, although a higher rate of loss of the X-and Y-chromosomes was observed in the exposed group. In individuals exposed to several adverse environmental factors, the overall rate of numerical chromosome aberrations in cultivated cells after at least one DNA replication cycle exceeded that in noncultivated cells by 52% ( P = 0.01), whereas only a trend for its increase was observed in the control group (23%, P = 0.25). Thus, the effect of adverse environmental factors in humans caused more than a twofold increase in the difference between the rates of aneuploid cells in cultivated and noncultivated leukocytes in the exposed group as compared to control. It is conjectured that cell division is accompanied by the expression of potential damage of mitotic chromatid segregation apparatus accumulated in vivo. These defects, realized during cell division, bring about numerical chromosome aberrations.

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V. A. Timoshevsky

High frequency of tissue‐specific mosaicism in Turner syndrome patients

An Evaluation of the Frequency of Spontaneous Aneuploidy in Human Somatic Cells Using the Technology of Interphase Cytogenetics

Aneugenic effect of ionizing radiation in mammalian and human somatic cells

Cytogenetic mechanisms of aneuploidy in somatic cells of chemonuclear industry professionals with incorporated plutonium-239

Comparison of the rates of aneuploidy occurrence in quiescent and dividing cells of humans exposed to adverse environmental factors

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