Dlaczego komórki różnią się promieniowrażliwością?

• Autorzy: Szumiel I.
• Języki publikacji: PL

Słowa kluczowe

PL

komórki; promieniowrażliwość; uszkodzenia DNA; naprawa DNA; platformy molekularne

• Wydawca: Polskie Towarzystwo Nukleoniczne
• Czasopismo: Postępy Techniki Jądrowej
• Rocznik: 2007
• Tom: z. 4
• Strony: 18--24
• Opis fizyczny: Bibliogr. 17 poz., rys.

Twórcy

autor

Szumiel I.

• Zakład Radiobiologii i Ochrony Zdrowia, Instytut Chemii i Techniki Jądrowej, Warszawa

Bibliografia

• [1] Z.M. Bacq, P. Alexander, Fundamentals of radiobiology - 1961 - Pergamon Press, Inc., New York, NY.
• [2] L.R. Kelland, S.M. Edwards, G.G. Steel, Induction and rejoining of DNA double-strand breaks in human cervix carcinoma cell lines of differing radiosensitivity. Radiat Res 116: 526-538, 1988.
• [3] T.J. McMillan, A.M. Cassoni, S. Edwards, A. Holmes, J.H. Peacock The relationship of DNA double-strand break induction to radiosensitivity in human tumour cell lines. Int J Radiat Biol 58: 427-438, 1990.
• [4] M.l. Nunez, T.J. McMillan, M.T Valenzuela, J.M. Ruiz de Almodovar, V. Pedraza, Relationship between DNA damage, rejoining and cell killing by radiation in mammalian cells. Radiother Oncol 39: 155-165, 1996.
• [5] R.A. El-Awady, E. Dikomey, J. Dahm-Daphi, Radiosensitivity of human tumour cells is correlated with the induction but not with the repair of DNA double-strand breaks. Br J Cancer 89: 593-601, 2003.
• [6] E. Dikomey, J. Dahm-Daphi, I. Brammer, R. Martensen, B. Kaina, Correlation between cellular radiosensitivity and non-repaired double-strand breaks studied in nine mammalian cell lines. Int J Radiat Biol 73: 269-278, 1998.
• [7] N. Chavaudra, J. Bourhis, N. Foray, Quantified relationship between cellular radiosensitivity, DNA repair defects and chromatin relaxation: a study of 19 human tumour cell lines from different origin. Radiother Oncol 73: 373-382, 2004.
• [8] S.N. Powell, T.J. McMillan, The repair fidelity of restriction enzyme-induced double strand breaks in plasmid DNA correlates with radioresistance in human tumor cell lines. Int J Radiat Oncol Biol Phys 29: 1035-1040, 1994.
• [9] N. Foray, C.F. Arlett, E.P. Malaise, Radiation-induced DNA double-strand breaks and the radiosensitivity of human cells: a closer look. Biochimie 79: 567-575, 1997.
• [10] N.F. Rajab, D.J. McKenna, J. Diamond, K. Williamson, P.W. Hamilton, V.J. McKelvey-Martin, Prediction of radiosensitivity in human bladder cell lines using nuclear chromatin phenotype. Cytometry A 69: 1077-1085, 2006.
• [11] T. Stiff, E. Shtivelman, P. Jeggo, B. Kysela, AHNAK interacts with the DNA ligase IV-XRCC4 complex and stimulates DNA ligase IV-mediated double-stranded ligation. DNA Repair 3: 245-256, 2004.
• [12] M. Wojewódzka, I. Szumiel, Ogniska histonu v-H2AX - marker pęknięć podwójnoniciowych DNA. Post Techn Jądr 49: 15-18, 2006.
• [13] M. Wojewódzka, M. Kruszewski, I. Buraczewska, W. Xu, E. Massuda, J. Zhang, I. Szumiel. Sirtuin inhibition increases the rate of non-homologous end-joining of DNA double strand breaks. Acta Biochim Pol. 54: 63-69, 2007
• [14] IR. Radford Transcription-based model for the induction of interchromosomal exchange events by ionizing irradiation in mammalian cell lines that undergo necrosis. Int J Radiat Biol 78: 1081-1093, 2002.
• [15] D. Endoh, T. Okui, Y. Kon, M. Hayashi, Hypertonic treatment inhibits radiation-induced nuclear translocation of the Ku proteins G22p1 (Ku70) and Xrcc5 (Ku80) in rat fibroblasts. Radiat Res 155: 320-327, 2001.
• [16] K. Dittmann, C. Mayer, B. Fehrenbacher, M. Schaller, U. Raju, L. Milas, D.J. Chen, R. Kehlbach, H.P. Rodemann. Radiation-induced epidermal growth factor receptor nuclear import is linked to activation of DNA-dependent protein kinase. J Biol Chem 280: 31182-31189, 2005.
• [17] E. Gulbins, R. Kolesnick, Raft ceramide in molecular medicine. Oncogene 22:7070-7077, 2003.