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Research Article

Comparison of chromosomal damage induced by X-rays and Ar ions with an LET of 1840 keV/ mum in G1 V79 cells

Pages 155-166 | Published online: 03 Jul 2009

References

  • AUFDERHEIDE, E., RINK, H., HIEBER, L. and KRAFT, G., 1987, Heavy ion effects on cellular DNA: strand break induction and repair in cultured diploid lens epithelian cells. International Journal of Radiation Biology, 51, 779–790.
  • BARENDSEN, G. H., WALTER, H. M. D., FOWLER, J. F. and BEWLEY, D. K., 1963, Effects of different ionizing radiations on human cells in tissue culture. III. Experiments with cyclotron accelerated alpha-particles and deuterons. Radiation Research, 18, 106–119.
  • BELLI, M., CERA, F., CHERUBINI, R., HAQuE, A. M. I., IANZINI, F., MOSCHINI, G., SAPORA, O., SIMONE, G., TABOCCHINI, M. A. and TIVERON, P., 1993, Inactivation and mutation induc-tion in V79 cells by low energy protons: re-evaluation of the results at the LNL facility. International Journal of Radiation Biology, 63, 331–337.
  • BEVINGTON, P. R., 1969, Data Reduction and Error Analysis for the Physical Sciences (McGraw Hill, New York).
  • BUTTS, J. J. and KATZ, R., 1967, Theory of RBE for heavy ion bombardment of dry enzymes and viruses. Radiation Research, 30, 855–879.
  • COLLYN-DTIOOGHE, M., HEMON, D., GILET, R., CURTI SS. B., VALOLERON, A. J. and MALAISE, E. P., 1981. Comparative effects of 6°Co y-rays and neon and helium ions on cell cycle duration and division probability of EMT 6 cells. A time-lapse cinematography study. International Jour-nal of Radiation Biology, 39, 297–306.
  • DEWEY, W. C., FURMAN, S. C. and MILLER, H. H., 1970, Compari-son of letality and chromosomal damage induced by X-rays in synchronized Chinese hamster cells in vitro. Radiation Research, 43, 561–581.
  • DURANTE, M., GIALANELLA, G., GROSSI, G. F., NAPPO, M., PUGLIESE, M., BETTEGA, D., CALZOLARI, p., CHIORDA, G. N., OTTOL-ENGIII, A., and TALLONE-LOMBARDI, L., 1994, Radiation-induced chromosomal aberrations in mouse 10T1/2 cells: dependence on the cell-cycle stage at the time of irradiation. InternationalJournal of Radiation Biology, 65, 437–447.
  • EDWARDS, A. A., EINNON, p. MOQUET, J. E., LLOYD, D. C., DARROUDI, F. and NATARAJAN, A. T., 1994, The effective-ness of high energy Neon ions in producing chromo-somal aberrations in human lymphocytes. Radiation Protection Dosimetry, 52, 299–303.
  • EDWARDS, A. A., LLOYD, D. C., PROSSER, J. S., EINNON, P. and MOQUET, J. E., 1986, Chromosome aberrations induced in human lymphocytes by 8.7 MeV protons and 23.5 MeV helium-3 ions. International Journal of Radia-tion Biology, 50, 137–145.
  • EVANS, H. J., 1962, Chromosome aberrations induced by ionizing radiations. In: International Review of Cytology, vol. 13. Edited by: G. H. Bourne and J. F. Danielli (Academic, New York), pp. 221–321.
  • FURUSAWA, Y, EUKUTSU, K., ITSUKAICHI, H., EGUCHI-KASAI, K., OHARA, H., YATAGAI, F. and KANAI, T., 1992, Biological effectiveness by the different heavy ion species with the same LET. In: Proceedings of the Second Workshop on Physical and Biological Research with Heavy Ions. Edited by: K. Ando and T. Kanai. NIRS Report NIRS-M-90, HIMAC-003 (Chiba), pp. 11–13.
  • GooDwuv, E. H., BLAKELY, E. A. and TomAs, C. A., 1994, Chromosomal damage and repair in GI-phase Chinese hamster ovary cells exposed to charged particle beams. Radiation Research, 134, 343–351.
  • GOVORUN, R. D., RYZHOV, N. I., SMIRNOVA, O. A., PORTMAN, A. I., ERzGRABER, G. and EICHHORN, K., 1982, Effect of heavy ions on mammalian cells. Radiobiologya, 22, 648–653.
  • HALL, E. J., 1988, Radiobiology for the Radiologist, 3rd edn (J. B. Lippincott, Philadelphia).
  • HEILMANN, J., RINK, H., TAUCHER-SCHOLZ, G. and KRAFT, G., 1993, DNA strand break induction and rejoining and cellular recovery in mammalian cells after heavy ion irradiation. Radiation Research, 135, 46–55.
  • ISCN, 1978, An international system for human cytogenetic nomenclature. Cytogenetics and Cell Genetics, 21, 309–404.
  • KRAFT, G., 1987, Radiobiological effects of very heavy ions: Inactivation, induction of chromosome aberrations and strand breaks. Nuclear Science Application, 3, 1–28.
  • KRAFT, G., DAUES, H. W., FISCHER, B., KOPF, U., LEIBOLD, H. P., Quis, D., STELZER, H., KIEFER, J., SCHOPFER, R., SCHNEIDER, E., WEBER, U., WULF, H. and DERTINGER, H., 1980, Irradiation chamber and sample changes for biological samples. Nuclear Instruments and Methods, 168, 175–179.
  • KRAFT, G., KRÂMER, M. and Sri-1°1,z, M., 1992, LET, track structure and models: a review. Radiation and Environ-mental Biophysics, 31, 161–180.
  • LLOYD, D. C., DOLPHIN, G. W., PURROT, R. J. and TIPPER, P. A., 1977, The effect of X-ray induced mitotic delay on chromosome aberration yields in human lymphocytes. Mutation Research, 42, 401–412.
  • LUcEE-HuHLE, C., BLAKELY, E. A., CHANG, P. Y. and TOBIAS, C. A., 1979, Drastic G2 arrest in mammalian cells after irra-diation with Heavy-ion beams. Radiation Research, 79, 97–112.
  • PERRY, P. and WOLFF, S., 1974, New Giemsa method for the differential staining of sister chromatids. Nature, 251, 156–158.
  • PRISE, K. M., 1994, Use of radiation quality as a probe for DNA lesion complexity. International Journal of Radiation Biology, 65, 43–48.
  • PGRROTT, R. J., VULPIS, N. and LLOYD, D. C., 1980, The use of harlequin staining to measure delay in the human lymphocyte cell induced by in vitro X-irradiation. Muta-tion Research, 69, 275–282.
  • PYATKIN, E. K., NUGIS, V. U. and POKROVSKAYA, V. N., 1984, Proliferative activity and frequency of chromosome aberrations during the first mitosis in 50-, 60- and 70-h-cultures of irradiated lymphocytes and in mixed cultures of irradiated and non-irradiated cells. Radiobiologya, 24, 310–314.
  • RITTER, S., KRAFT-WEYRATHER, W., SCHOLZ, M. and KRAFT, G., 1990, Influence of radiation quality on heavy ion induced chromosome aberrations in V79 cells. Radia-tion Protection Dosimetry, 31, 257–260.
  • RITTER, S., NASONOVA, E., KRAFT-WEYRATHER, W. and KRAFT, G., 1994, Influence of radiation quality on the expression of chromosomal damage. International Journal of Radia-tion Biology, 66, 625–628.
  • ROOTS, R., HOLLEY, W., CHATERJEE, A., IRIZARRY, M. and KRAFT, G., 1990, The formation of strand breaks in DNA after high-LET irradiation: a comparison of data from in vitro and cellular systems. InternationalJournal of Radia-tion Biology, 58, 55–69.
  • RYDBERG, B., LDBRICH, M. and COOPER, P. K., 1994, DNA double-strand breaks induced by high energy neon and iron ions in human fibroblasts. I. Pulsed-field gel electro-phoresis method. Radiation Research, 139, 133–141.
  • SABATIER, L., AL ACHKAR, W., HOFFSCHIR, F., LUCCIONI, C. and DUTRILLAUX, B., 1987, Qualitative study of chromo-somal lesions induced by neutrons and neon ions in human lymphocytes at Go-phase. Mutation Research, 178, 91–97.
  • SAVAGE, J. R. K., 1975, Classification and relationships of induced chromosomal structural changes. Journal of Medical Genetics, 12, 103–122.
  • SCHOLZ, M., 1992, Zellzyklusverzoegerungen synchroner Zell-populationen nach Schwerionenbestrahlung. PhD thesis, University of Heidelberg. GSI Report 92–28.
  • SCHOLZ, M., KRAFT-WEYRATHER, W., RITTER, S. and KRAFT, G., 1994, Cell cycle delays induced by heavy ion irradiation of synchronous mammalian cells. International Journal of Radiation Biology, 66, 59–75.
  • SEVANKAJEV, A. V., ZHERBIN, E. A., LUCHNIK, N. N., OBATUROV, G. M., KOZLOV, V. M., TATTE, E. G. and KAPCHIGASHEV, S. P., 1979, Genetical effects induced by neutrons in human peripheral blood lymphocytes in vitro. Genetika, 15, 1046–1060.
  • SKARSGARD, L. D., KIHLMAN, B. A., PARKER, L., PUJARA, C. M. and RICHARDSON, S., 1967, Survival, Chromosome abnor-malities, and recovery in heavy-ion- and x-irradiated mammalian cells. Radiation Research, 7 (Suppl.), 208–221.
  • SUZUKI, K., SUZUKI, M., NAKANO, K., KANEKO, I. and WATANABE, M., 1990, Analysis of chromatid damage in G2-phase induced by heavy ions and X-rays. International Journal of Radiation Biology, 58, 781–789.
  • SUZUKI, M., WATANABE, M., SUZUKI, K., NAKANO, K. and MATSUI, K., 1992, Heavy ion induced chromosome breakage studied by premature chromosome condensation (PCC) in Syrian hamster embryo cells. International Journal of Radiation Biology, 62, 581–586.
  • TREMP, J., 1981, Chromosome aberrations and cell survival in irradiated mammalian cells. Radiation Research, 85, 554–566.
  • VIRSIK, R. P. and HARDER, D., 1981, Statistical interpretation of the overdispersed distribution of radiation induced dicentric chromosomes aberrations at high LET. Radiation Research, 85, 13–23.
  • WEBER, K. J. and FLENTJE, M., 1993, Lethality of heavy ion-induced DNA double-strand breaks in mammalian cells. International Journal of Radiation Biology, 64, 169–178.

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