1Kramer R,Zankl M,Williams G,et al.The calcuation of dose from dose external photon exposures using reference human phantoms and Monte~Caelo methods[J].Part I:The male (ADAM) and female (EVA) adult mathematical phantoms,GSF~Bericht S~885(Gesellschaft fur Strahlenund Umweltoforschung mbH,Munchen).1982.
2Bonmd,VP,Robinson CV.A mortality determinant in nonuniform exposures of the mammal[J].Radiat Res,1996,147(Suppl):265.
3IAEA Technical report series No.260.Biological dosimetry:chromosome aberration analysis for dose assessment[R].Vienna:IAEA,1986,28.
4McKay RD.The mechanism of G and C banding in mammalian metaphase chromosomes[J].Chromosoma,1973,44:1-4.
6Binning G,Quate CF,Gerber C.Atomic force microscope[J].Phys Rev Lett,1986,56:930-933.
7Craig JM,Bickmore WA.Chromosome bands-flavours to savour[J].Bioessays,1993,15:349-354.
8Thalhammer S,Koehler U,Stark RW,et al.GTG banding pattern on human metaphase chromosomes revealed by high resolution atomic-force microscopy[J].J Microsc,2001,202(Pt 3):464-467.
9Murakami M,Minamihisamatsu M,Sato K,et al.Structural analysis of heavy ion radiation-induced chromosome aberrations by atomic force microscopy[J].J Biochem Biophys Methods,2002,48:293-301.
10Thalhammer S,Stark RW,Muller S,et al.The atomic force microscope as a new microdissecting tool for the generation of genetic probes[J].J Struct Biol,1997,119:232-237.
3Lucas JN,Awa A,Straume T,et al.Rapid translocation frequency analysis in humans decades after exposure to ionizing radiation.Int J Radiat Biol,1992,62:53-55.
4Morton NE.Parameters of the human genome.Proc Natl Acad Sci U S A,1991,88:7474-7481.
5Lindholm C,Romm H,Stephan G,et al.Intercomparison of translocation and dicentric frequencies between laboratories in a follow-up of the radiological accident in Estonia.Int J Radiat Biol,2002,78:883-890.
6Pandita TK,Gregoire V,Dhingra K,et al.Effect of chromosome size on aberration levels caused by gamma radiation as detected by fluorescence in situ hybridization.Cytogenet Cell Genet,1994,67:94-101.
7Tucker JD,Senft JR.Analysis of naturally occurring and radiation-induced breakpoint locations in human chromosomes 1,2 and 4.Radiat Res,1994,140:31-36.
8Matsuka A,Tucker JD,Hayashi M,et al.Chromosome painting analysis of X-ray-induced aberration in human lymphocytes in vitro.Mutagenesis,1994,9:151-155.
9Kovacs MS,Evans JW,Johnstone IM,et al.Radiation-induced damage,repair and exchange formation in different chromosome of human fibroblasts determined by fluorescence in situ hybridization.Radiat Res,1994,137:34-43.
10Durante M,George K,Yang TC.Biological dosimetry by interphase chromosome painting.Radiat Res,1996,145:53-60.
9Livingston GK,Falk RB,Schmid E.Effect of occupational radiation exposures on chromosome aberration rates in former plutonium workers[J].Radiat Res,2006,166(1):89-97.
