250 Cell nucleus seeking OBT: a still neglected problem? Müller W.-U., Streffer C., Molls M., Glück L. (1987) Radiotoxicities of 3H-thymidine and of 3H-arginine compared in mouse embryos in vitro, Radiation Research110, 192-198. Müller W.-U., Streffer C., Pampfer S. (1994) The question of threshold doses for radiation damage: malformations induced by radiation exposure of unicellular or multicellular preimplantation stages of the mouse, Radiation and Environmental Biophysics 33, 63-68. Olsen W.M., Storeng R. (1987) Effects of 3H-thymidine on preimplantation mouse embryos in vitro, Pharmacology & Toxicology 61, 203-208. Painter R.B., Drew R.M., Hughes W.L. (1958) Inhibition of HeLa growth by intranuclear tritium, Science 127, 1244-1245. Paquet F., Metivier H. (2009) Are the risks from tritium exposures being underestimated?, J.Radiol.Prot. 29, 175-181. Simpson L., Bennett L.L. (1962) Biological effects of carbon-14 incorporated into nucleic acids of mouse embryos, Radiation Research 17, 145-157. Snow M.H.L. (1973) Abnormal development of pre-implantation mouse embryos grown in vitrowith 3H-thymidine, Journal of Embryology and Experimental Morphology29, 601-615. Spindle A., Wu K., Pedersen R.A. (1982) Sensitivity of early mouse embryos to [3H] thymidine, Experimental Cell Research142, 397-405. Straume T., Carsten A.L. (1993) Tritium radiobiology and relative biological effectiveness, Health Physics 65, 657-672. Streffer C., Elias St., van Beuningen D. (1977) Comparative effects of tritiated water and thymidine on the preimplanted mouse embryo during cultivation in vitro, Current Topics in Radiation Research Quarterly 12, 182-193. Wiebold J.L., Anderson G.B. (1985)Lethality of a tritiated amino acid in early mouse embryos, J.Embryol.Exp.Morphol. 88, 209-217. Yamada T, Ohyama H (1988), Effects of organically bound tritium (OBT) on pre-implantation mouse embryos in vitro, in Proceedings of the 3rd Japan-US Workshop on Tritium Radiobiology, p 274-279 Müller W.-U., Streffer C., Molls M., Glück L. (1987) Radiotoxicities of 3H-thymidine and of 3H-arginine compared in mouse embryos in vitro, Radiation Research110, 192-198. Müller W.-U., Streffer C., Pampfer S. (1994) The question of threshold doses for radiation damage: malformations induced by radiation exposure of unicellular or multicellular preimplantation stages of the mouse, Radiation and Environmental Biophysics 33, 63-68. Olsen W.M., Storeng R. (1987) Effects of 3H-thymidine on preimplantation mouse embryos in vitro, Pharmacology & Toxicology 61, 203-208. Painter R.B., Drew R.M., Hughes W.L. (1958) Inhibition of HeLa growth by intranuclear tritium, Science 127, 1244-1245. Paquet F., Metivier H. (2009) Are the risks from tritium exposures being underestimated?, J.Radiol.Prot. 29, 175-181. Simpson L., Bennett L.L. (1962) Biological effects of carbon-14 incorporated into nucleic acids of mouse embryos, Radiation Research 17, 145-157. Snow M.H.L. (1973) Abnormal development of pre-implantation mouse embryos grown in vitrowith 3H-thymidine, Journal of Embryology and Experimental Morphology29, 601-615. Spindle A., Wu K., Pedersen R.A. (1982) Sensitivity of early mouse embryos to [3H] thymidine, Experimental Cell Research142, 397-405. Straume T., Carsten A.L. (1993) Tritium radiobiology and relative biological effectiveness, Health Physics 65, 657-672. Streffer C., Elias St., van Beuningen D. (1977) Comparative effects of tritiated water and thymidine on the preimplanted mouse embryo during cultivation in vitro, Current Topics in Radiation Research Quarterly 12, 182-193. Wiebold J.L., Anderson G.B. (1985)Lethality of a tritiated amino acid in early mouse embryos, J.Embryol.Exp.Morphol. 88, 209-217. Yamada T, Ohyama H (1988), Effects of organically bound tritium (OBT) on pre-implantation mouse embryos in vitro, in Proceedings of the 3rd Japan-US Workshop on Tritium Radiobiology, p 274-279
RkJQdWJsaXNoZXIy NjQ0NzU=