PURPOSE: The purpose of the present study was to determine the role of DNA polymerase beta in repair and response after ionizing radiation in different phases of the cell cycle. METHODS AND MATERIALS: Synchronized cells deficient and proficient in DNA polymerase beta were irradiated in different phases of the cell cycle as determined by BrdU/flow cytometry. Cell kill and DNA repair were assessed by colony formation and alkaline comet assays, respectively. RESULTS: We first demonstrated delayed repair of ionizing radiation induced DNA damage in confluent polymerase beta deficient cells. Cell synchronization experiments revealed a cell cycle phase dependence by demonstrating radiation hypersensitivity of polymerase beta-deficient cells in G1, but not in the S-phase. Complementing polymerase beta-deficient cells with polymerase beta reverted the hypersensitivity in G1. Ionizing radiation damage repair was found to be delayed in beta-deficient cells when irradiated in G1, but not in S. CONCLUSIONS: The data show a differential role of DNA polymerase beta driven base excision and single strand break repair throughout the cell cycle after ionizing radiation damage.
PURPOSE: The purpose of the present study was to determine the role of DNA polymerase beta in repair and response after ionizing radiation in different phases of the cell cycle. METHODS AND MATERIALS: Synchronized cells deficient and proficient in DNA polymerase beta were irradiated in different phases of the cell cycle as determined by BrdU/flow cytometry. Cell kill and DNA repair were assessed by colony formation and alkaline comet assays, respectively. RESULTS: We first demonstrated delayed repair of ionizing radiation induced DNA damage in confluent polymerase beta deficient cells. Cell synchronization experiments revealed a cell cycle phase dependence by demonstrating radiation hypersensitivity of polymerase beta-deficient cells in G1, but not in the S-phase. Complementing polymerase beta-deficient cells with polymerase beta reverted the hypersensitivity in G1. Ionizing radiation damage repair was found to be delayed in beta-deficient cells when irradiated in G1, but not in S. CONCLUSIONS: The data show a differential role of DNA polymerase beta driven base excision and single strand break repair throughout the cell cycle after ionizing radiation damage.
Authors: Paul D Williams; Charles R Owens; Jaroslaw Dziegielewski; Christopher A Moskaluk; Paul W Read; James M Larner; Michael D Story; William A Brock; Sally A Amundson; Jae K Lee; Dan Theodorescu Journal: Neoplasia Date: 2011-12 Impact factor: 5.715
Authors: C Rodriguez; M Carpano; P Curotto; S Thorp; M Casal; G Juvenal; M Pisarev; M A Dagrosa Journal: Radiat Environ Biophys Date: 2018-02-16 Impact factor: 1.925
Authors: Qingming Fang; Burcu Inanc; Sandy Schamus; Xiao-hong Wang; Leizhen Wei; Ashley R Brown; David Svilar; Kelsey F Sugrue; Eva M Goellner; Xuemei Zeng; Nathan A Yates; Li Lan; Conchita Vens; Robert W Sobol Journal: Nat Commun Date: 2014-11-26 Impact factor: 14.919