Enhancement of frequencies of restriction endonuclease-induced chromatid breaks by arabinoside adenine in normal human and ataxia telangiectasia cells

References

• ANTOCCIA, A., PALITTI, F., RAGGI, T., CATENA, C. AND TANZARELLA, C., 1994, Lack of effect of inhibitors of DNA synthesis/repair on the ionizing radiation-induced chromosomal damage in G2 stage of ataxia telangiectasia cells. International J ournal of Radiation Biology, 66, 309–317.
   PubMed Web of Science ®Google Scholar
• BISHOP, D.T., WITTIAmsoN, J.A. and SicouNK, M.H., 1983, A model for restriction fragment length distributions. American Journal of Human Genetics, 35, 795–815.
   PubMed Web of Science ®Google Scholar
• BRINK, J.J. and LEPAGE, G.A., 1965, 9-fi-D-arabinofuranosylad-enine as an inhibitor of metabolism in normal and neoplastic cells. Canadian Journal of Biochemistry, 43, 1–15.
   PubMedGoogle Scholar
• BRYANT, P.E., 1983, 9-/3-D-arabinofuranosyladenine increases the frequency of X-ray induced chromosome abnormalit-ies in mammalian cells. International Journal of Radiation Biology, 43, 459–464.
   Web of Science ®Google Scholar
• BRYANT P. E., 1984, Enzymatic restriction of mammalian cell DNA using Pvu II and Bam Hl: Evidence for double strand break origin of chromosome aberrations. International Journal of Radiation Biology, 46, 57–65.
   Web of Science ®Google Scholar
• BRYANT, P.E., 1988, Use of restriction endonucleases to study relationships between DNA double-strand breaks, chro-mosomal aberrations and other end-points in mammalian cells. International J ournal of Radiation Biology, 54, 869–890.
   PubMed Web of Science ®Google Scholar
• BRYANT, P.E., 1989, Restriction endonuclease- and radiation-induced DNA double strand breaks and chromosomal aberrations: similarities and differences. In Chromosomal Aberrations: Basic and Applied Aspects. Edited by G. Obe, and A.T. Natarajan, (Berlin and Heidelberg: Springer-Verlag), pp. 61–69.
   Google Scholar
• BRYANT, P.E. 1992, Induction of chromosomal damage by restriction endonuclease in CHO cells porated with strep-tolysin 0. mutation Research., 268, 27–34.
   PubMed Web of Science ®Google Scholar
• BRYANT, P.E. and BLOCHER, D., 1982, The effects of 9-fi-D-arabinofuranosyl-adenine on the repair of DNA strand breaks in x-irradiated Ehrlich ascites tumour cells. International Journal of Radiation Biology, 42, 385–394.
   Web of Science ®Google Scholar
• BRYANT, P.E. and CHRISTIE, A.F., 1989, Induction of chromo-somal aberration in CHO cells by restriction endonucle-ases: effects of blunt- and cohesive-ended double strand breaks in cells treated by 'pellet' methods. Mutation Research, 213, 233–241.
   PubMed Web of Science ®Google Scholar
• BRYANT, P.E. and SLIJEPCEVIC, S., 1993, G2 chromatid aberrations: Kinetics and possible mechanisms. Environmental and Molecular M utagenesis, 22, 250–256.
   PubMedGoogle Scholar
• BÜHLER, B., KOHLER, G. and NIELSEN, P.J., 1995, Efficient nonhomologous and homologous recombination in scia cells. immunagenetics, 42, 181–187.
   PubMedGoogle Scholar
• CHUNG, H.W., PHILIPS, J.W., WINEGER, R.A., PRESTON, R.J. and MORGAN, W.F., 1991, Modulation of restriction enzyme-induced damage by chemicals that interfere with cellular responses to DNA damage: a cytogenetic and pulsed-field gel analysis. Radiation Research, 125, 107–113.
   PubMed Web of Science ®Google Scholar
• Cox, R., MASSON, W.K., DEBENHAM, P.G. and WEBB, M.B.T., 1984, The use of recombinant DNA plasmids for the determination of DNA repair and recombination in cul-tured mammalian cells. British Journal of Cancer, 49, (suppt.), 67–72.
   Google Scholar
• DEBENHAM, P. G., WEBB, M. B., JONES, N. J. and COX, R., 1987, Molecular studies on the nature of the repair defect in ataxia telangiectasia and the implications for cellular radiobiology. Journal of Cell Science, Suppl. 6, 177–189.
   PubMedGoogle Scholar
• FRANKENBERG, D. 1969, A ferrous sulphate dosemeter independ-ent of photon energy in the range from 25 KeV up to 59 MeV, Physics in Medicine and Biology, 14, 597–605.
   Google Scholar
• GANESH, A., NORTH, P., and THACKER, J. 1993, Repair and misrepair of site-specific DNA double-strand breaks by human cell extracts. Mutation Research, 299, 251–259.
   PubMed Web of Science ®Google Scholar
• HAMILTON, A.A. and THACKER, J., 1987, Gene recombination in X-ray sensitive hamster cells. Molecular and Cellular Biology, 7, 1409–1414.
   PubMed Web of Science ®Google Scholar
• Immus, G., 1980, Effects of /3-arabinofuranosyladenine on the growth and repair of potentially lethal damage in ehrlich ascites tumor cells. Radiation Research, 83, 537–552.
   PubMedGoogle Scholar
• ILIAKis, G., BRYANT, P.E. and NGO, F.Q., 1985, Independent forms of potentially lethal damage fixed in plateau-phase Chinese hamster cells by postirradiation treatment in hypertonic salt solution or araA. Radiation Research, 104, 329–345.
   PubMed Web of Science ®Google Scholar
• ILIAKIS, G., PANTELIAS, G.E. and SEANE RR., 1988, Effect of arabinofuranosyl-adenine on radiation-induced chromo-some damage in plateau-phase CHO cells measured by premature chromosome condensation: Implications for repair and fixation of a-PLD. Radiation Research, 114, 361–378.
   PubMed Web of Science ®Google Scholar
• JASIN, M. and BERG, P., 1988, Homologous integration in mammalian cells without target selection. Genes to Development, 2, 1353–1363.
   PubMed Web of Science ®Google Scholar
• JORGENSEN, T.J. and SHILoH, Y., 1996, The ATM gene and the radiobiology of ataxia-telangiectasia. International Journal of Radiation Biology, 69, 527–537.
   PubMed Web of Science ®Google Scholar
• LIN, FL., SPERLE, K. and STERNBERG, N., 1990, Repair of double-stranded DNA breaks by homologous DNA frag-ments during transfer of DNA into mouse L cells. Molecular and Cellular B iology, 10, 113–119.
   PubMedGoogle Scholar
• Liu, N. and BRYANT, P.E., 1993, Response of ataxia-telangiectasia cells to restriction endonuclease induced DNA double strand breaks: I. Cytogenetic characteris-ation. M utagenesis, 8, 503–510.
   Google Scholar
• Liu, N. and BRYANT, P.E., 1994, Enhanced chromosomal response of ataxia-telangiectasia cells to specific types of DNA double-strand breaks. International Journal of Radiation Biology, 66, S115–S121.
   Google Scholar
• LUKACSOVICH, T., YANG, D. and WALDMAN, AS., 1994, Repair of a specific double-strand break generated within a mammalian chromosome by yeast endonuclease I-SceI. Nucleic Acids Research, 22, 5649–5657.
   PubMed Web of Science ®Google Scholar
• LUTZE, L.H., CLEAVER, J.E., MORGAN, W.F. and WINEGAR,
   Google Scholar
• R.A., 1993, Mechanisms involved in rejoining DNA double-strand breaks induced by ionizing radiation and restriction enzymes. Mutation Research, 299, 225–232.
   PubMedGoogle Scholar
• MACLEOD, R.A.F. and BRYANT, P.E., 1992, Effects of adenine arabinoside and coformycin on the kinetics of G2 chromo-somal aberrations in x-irradiated human lymphocytes, mutagenesis, 7, 285–290.
   Google Scholar
• MILLER, R.D., HOGG, J., OZAKI, J.H., GELL, D., JACKSON, S.P. and RIBLET, R., 1995, Gene for the catalytic subunit of mouse DNA-dependent protein kinase maps to the scid locus. Proceedings of the N ational A cademy of Sciences, USA, 92, 10792–10795.
   PubMed Web of Science ®Google Scholar
• MOORE, P.D., SONG, KY., CHEKURI, L., WALLACE, L. and KUCHERLAPATI, R.S., 1986, Homologous recombination in a Chinese hamster X-ray sensitive mutant. Mutation Research, 160, 149–155.
   PubMedGoogle Scholar
• MOZDARANI, H. and BRYANT P.E., 1989, Kinetics of chromatid aberrations in G2 ataxia-telangiectasia cells exposed to X-rays and ara A. International J ournal of Radiation Biology, 55, 71–84.
   Google Scholar
• MULLER, W.E.G., ROHDE, HJ., BEYER, R., MAIDHOF, A., LACHMANN, M., TASCHNER, H. and ZAHN, R.K., 1975, Mode of action of 9-/3-D-arabinofuranosyladenine on the synthesis of DNA, RNA, and protein in vivo and in vitro. Cancer Research, 33, 2160–2168.
   Google Scholar
• NATARAJAN, A. T. and OBE, G., 1984, Molecular mechanisms involved in the production of chromosomal aberrations III. Restriction endonucleases. Chromosoma, 90, 120–127.
   PubMed Web of Science ®Google Scholar
• NORTH, P., GANESH, A. and THACKER, J., 1990, The rejoining of double-strand breaks in DNA by human cell extracts. Nucleic Acid Research, 18, 6205 —6210.
   Google Scholar
• OBE, G. and NATARAJAN, AT., 1985, Chromosomal aberrations induced by the restriction endonuclease Alu I in Chinese hamster ovary cells: influence of duration of treatment and potentiation by cytosine arabinoside, Mutation Research, 152, 205–210.
   Google Scholar
• POWELL, S., WHITAKER, S., PEACOCK, J. and MCMILLAN, T., 1993, Ataxia telangiectasia: An investigation of the repair defect in the cell line AT5BIVA by plasmid reconstitution. Mutation Research, 294, 9–20.
   PubMed Web of Science ®Google Scholar
• RARY, J.M., BENDER, M.A. and KELLY, T.E., 1974, Cytogenetic status of ataxia telangiectasia. American Journal of Human Genetics 7 26, 70A.
   Google Scholar
• ROTH, D. and WILSON, J., 1988, Illegitimate recombination in mammalian cells. In Genetic Recombination. Edited by: R. Kucherlapati and G.A. (Washington D.C.: Smith American Society for Microbiology) pp. 621–653.
   Google Scholar
• ROUET, P., SMIH, F. and JAKN, M., 1994, Introduction of double-strand breaks into the genome of mouse cells by expression of a rare-cutting endonuclease. Molecular and Cellular Biology, 14, 8096–8106.
   PubMed Web of Science ®Google Scholar
• SAVITSKY, K., BAR-SHIRA, A., GILAD, S., ROTMAN, G., Ziv, Y., VANAGAITE, L., TAGLE, D.A., SMITH, S,. UZIEL, T., SFEZ, S., ASHKENAZI, M., PECKER, I., FRYDMAN, M., HARNIK, R., PATANJALI, SR., SIMMONS, A., CLINES, G.A., SARTIEL, A., GATTI, R.A., CHESSA, L., SANAL, 0., LAVIN, M.F., JASPERS, N.G.J. and Smum, Y., 1995a, A single ataxia telangiectasia gene with a product similar to PI-3 kinase. Science, 268, 1749–1753.
   Google Scholar
• SAVITSKY, K., SFEZ, S., TAGLE, D.A., Ziv, Y., SARTIEL, A., COLLINS, F.S., SHiLox, Y. and ROTMAN, G., 1995b, The complete sequence of the coding region of the ATM gene reveals similarity to cell cycle regulators in different species. Human Molecular Genetics, 4, 2025–2032.
   PubMed Web of Science ®Google Scholar
• SUBRAMANI, Sand SEATON, B.L., 1988, Homologous recombination in mitotically dividing mammalian cells. In Genetic Recombination. Edited by R. Kucherlapati and G.A. (Washington D.C.: Smith American Society for Microbiology), pp. 549–573.
   Google Scholar
• TAYLOR, A.M.R., 1978, Unrepaired DNA strand breaks in irradiated ataxia telangiectasia lymphocytes suggested from cytogenetic observations. Mutation Research, 50, 407–418.
   PubMed Web of Science ®Google Scholar
• WINEGAR, R.A., LUTZE, L.H., RUFER, J.T. and MORGAN, W.F., 1992, Spectrum of mutations produced by specific types of restriction enzyme-induced double-strand breaks. mutagenesis, 7, 439–445.
   PubMedGoogle Scholar