NHEJ Contributes to the Fast Repair of Radiation-induced DNA Double-strand Breaks at Late Prophase I Telomeres.

NHEJ Contributes to the Fast Repair of Radiation-induced DNA Double-strand Breaks at Late Prophase I Telomeres. Health Phys. 2018 Jul;115(1):102-107 Authors: Ahmed EA, Rosemann M, Scherthan H Abstract Exposure of cells to ionizing radiation induces DNA double-strand breaks. To repair double-strand breaks correctly, cells must distinguish between the ends of chromosomes (telomeres) and DNA double-strand breaks within chromosomes. Double-strand breaks in telomeric DNA may lead to telomere shortening and mutagenesis. Eukaryotic cells repair double-strand breaks primarily by two mechanisms: error-free homologous recombination and error-prone nonhomologous end joining, of which homologous recombination is used in early meiotic prophase I to create recombined haploid gametes by two meiotic cell divisions lacking an intervening S-phase. Genotoxic exposures put meiosis at risk to transmit mutations, and ionizing radiation is known to induce large double-strand break-marking phospho (gamma)-H2AX foci along the cores and ends of mouse meiotic chromosomes. However, it remained unclear through which repair pathway the ionizing radiation-induced telomeric double-strand breaks are repaired in late prophase I spermatocytes. Using male wild-type and nonhomologous end joining-deficient (severe combined immunodeficient) mice, this study investigated the kinetics of in vivo double-strand break formation and repair at telomeres of late prophase I chromo...
Source: Health Physics - Category: Physics Authors: Tags: Health Phys Source Type: research