Tiina Sjöblom scite author profile

Previous studies on DNA polymerase epsilon indicate that this enzyme is involved in replication of chromosomal DNA. In this study, we examined the expression of DNA polymerases alpha, delta, and epsilon during mouse testis development and germ cell differentiation. The steady-state levels of mRNAs encoding DNA polymerase epsilon and the recombination enzyme Rad51 remained constant during testis development, whereas the mRNA levels of DNA polymerases alpha and delta declined from birth until sexual maturity. Immunohistochemical staining methods, using a stage-specific model of the seminiferous epithelium, revealed dramatic differences between DNA polymerase alpha and epsilon distribution. As expected, DNA polymerase alpha and proliferating cell nuclear antigen showed relatively strong immunostaining in mitotically proliferating spermatogonia and even stronger staining in preleptotene cells undergoing meiotic DNA replication. The distribution of Rad51 was similar, but there was a dramatic peak in late pachytene cells. In contrast, DNA polymerase epsilon was detectable in mitotically proliferating spermatogonia but not in the early stages of meiotic prophase. However, DNA polymerase epsilon reappeared in late pachytene cells and remained through the two meiotic divisions, and was present in haploid spermatids up to the stage at which the flagellum starts developing. Overall, the results suggest that DNA polymerase epsilon functions in mitotic replication, in the completion of recombination in late pachytene cells, and in repair of DNA damage in round spermatids. In contrast, DNA polymerases alpha and delta appear to be involved in meiotic DNA synthesis, which occurs early in meiotic prophase, in addition to functioning in DNA replication in proliferating spermatogonia.

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Germ cell mutagenicity of three metabolites of 1,3-butadiene in the rat: Induction of spermatid micronuclei by butadiene mono-, di-, and diolepoxides in vivo

Lähdetie

Peltonen

Sjöblom

1997

Environ. Mol. Mutagen.

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The spirmatid micronucleus test with the dissection technique detects the germ cell mutagenicity of acrylamide in rat meiotic cells

Lähdetie

Suutari

Sjöblom

1994

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Effects of vinblastine and colchicine on male rat meiosis in vivo: Disturbances in spindle dynamics causing micronuclei and metaphase arrest

Kallio

Sjöblom

Lähdetie

1995

Environ and Mol Mutagen

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We have studied the effects of vinblastine sulfate (VBL) and colchicine (COL) on male rat in vivo and in vitro meiosis. A novel methodology based on isolating a segment of seminiferous tubules containing meiotically dividing spermatocytes was applied. During meiotic divisions at stage XIV of rat spermatogenesis, both chemicals induced only low frequencies of micronuclei (MN), 0.8-3.2 MN/1,000 spermatids. Fluorescence in situ hybridization experiments in mice with the mouse centromere-specific gamma-satellite DNA probe showed that 50.7% of VBL-induced MN and 56.6% of COL-induced MN were centromere positive, indicating that the MN induced by both chemicals contained detached chromosomes. The inhibition of cell proliferation was determined by counting the number of cells arrested at metaphase during the first meiotic (MI) or the second meiotic (MII) division. VBL was found to be a potent inducer of cell death while COL was not. The direct effects of VBL and COL on the meiotic spindles were evaluated using immunohistochemistry with anti-alpha-tubulin and confocal microscopy. In the control animals a significant difference was observed between the mean length of metaphase spindles of MI and MII. Both were dramatically decreased 6 hr after treatment with 2.0 mg/kg of VBL and 0.8 mg/kg of COL, respectively. At 18 hr after COL injection the spindles had about the same length as in the controls. However, the VBL-induced shortening was even more evident at 18 hr for both MI and MII. The possible reasons for observed differences between the two chemicals and between meiosis and mitosis are discussed.

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Tiina Sjöblom

Apoptotic response of spermatogenic cells to the germ cell mutagens etoposide, adriamycin, and diepoxybutane

Role of Deoxyribonucleic Acid Polymerase ε in Spermatogenesis in Mice1

Germ cell mutagenicity of three metabolites of 1,3-butadiene in the rat: Induction of spermatid micronuclei by butadiene mono-, di-, and diolepoxides in vivo

The spirmatid micronucleus test with the dissection technique detects the germ cell mutagenicity of acrylamide in rat meiotic cells

Effects of vinblastine and colchicine on male rat meiosis in vivo: Disturbances in spindle dynamics causing micronuclei and metaphase arrest

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