[1] |
Chudoba I, Hickmann G, Friedrich T, et al. mBAND: a high resolution multicolor banding technique for the detection of complex intrachromosomal aberrations. Cytogenet Genome Res, 2004, 104(1-4): 390-393. doi: 10.1159/000077521
|
[2] |
Nikjoo H, Uehara S, Wilson WE, et al. Track structure in radiation biology: theory and applications. Int J Radiat Biol, 1998, 73(4): 355-364. doi: 10.1080/095530098142176
|
[3] |
Cucinotta FA, Nikjoo H, Goodhead DT. Model for radial dependence of frequency distributions for energy imparted in nanometer volumes from HZE particles. Radiat Res, 2000, 153(4): 459-468. doi: 10.1667/0033-7587(2000)153[0459:MFRDOF]2.0.CO;2
|
[4] |
Lobrich M, Cooper PK, Rydberg B. Non-random distribution of DNA double-strand breaks induced by particle irradiation. Int J Radiat Biol, 1996, 70(5): 493-503. doi: 10.1080/095530096144680
|
[5] |
Hada M, Georgakilas AG. Formation of clustered DNA damage after high-LET irradiation: a review. J Radiat Res, 2008, 49(3): 203-210.
|
[6] |
ForayN, Arlett CF, Malaise EP. Radiation-induced DNA double-strand breaks and the radiosensitivity of human cells: a closer look. Biochimie, 1997, 79(9-10): 567-575. doi: 10.1016/S0300-9084(97)82005-6
|
[7] |
Pinto M, Prise KM, Michael BD, et al. Quantification of radiation induced DNA double-strand breaks in human fibroblasts by PFGE: testing the applicability of random breakage models. Int J Radiat Biol, 2002, 78(5): 375-388. doi: 10.1080/09553000110110941
|
[8] |
Johnson KL, Nath J, Pluth JM, et al. The distribution of chromosome damage, non-reciprocal translocations and colonal aberrations in lymphocytes from Chernobyl clear-up workers. Mutat Res, 1999, 439(1): 72-85.
|
[9] |
Chudoba I, Plesch A, Lörch T, et al. High resolution multicolor-banding: a new technique for refined FISH analysis of human chromosomes. Cytogenet Cell Genet, 1999, 84(3-4): 156-160. doi: 10.1159/000015245
|
[10] |
Johannes C, Chudoba I, Obe G. Analysis of X-ray-induced aberrations inhuman chromosome 5 using high-resolution multicolor banding FISH(mBAND). Chromosome Res, 1999, 7(8): 625-633.
|
[11] |
Hande MP, Azizova TV, Geard CR, et al. Past exposure to densely ionizing radiation leaves a unique permanent signature in the genome. Am J Hum Genet, 2003, 72(5): 1162-1170. doi: 10.1086/375041
|
[12] |
Tawn EJ, Whitehouse CA, Holdsworth D, et al. mBAND analysis of chromosome aberrations in lymphocytes exposed in vitro to alpha-particles and gamma-rays. Int J Radiat Biol, 2008, 84(6) : 447-453. doi: 10.1080/09553000802078412
|
[13] |
Hada M, Cucinotta FA, Gonda SR, et al. mBAND analysis of chromosomal aberrations in human epithelial cells exposed to low- and high-LET radiation. Radiat Res, 2007, 168 (1): 98-105. doi: 10.1667/RR0759.1
|
[14] |
Horstmann M, Durante M, Johannes C, et al. Space radiation does not induce a significant increase of intrachromosomal exchanges in astronauts' lymphocytes. Radiat Environ Biophys, 2005, 44(3): 219-224. doi: 10.1007/s00411-005-0017-0
|
[15] |
Johannes C, Horstmann M, Durante M, et al. Chromosome intrachanges and interchanges detected by multicolor banding in lymphocytes: searching for clastogen signatures in human genome. Radiat Res, 2004, 161 (5): 540-548. doi: 10.1667/RR3157
|
[16] |
Pignalosa D, Ritter S, Durante M. Inversion in chromosome 10 of human thyroid cells induced by accelerated heavy ions. Radiat Res, 2010, 174 (1): 14-19.
|
[17] |
Ponomarev AL, Cucinotta FA. Chromatin loops are responsible for higher counts of small DNA fragments induced by high-LET radiation, while chromosomal domains do not affect the fragment sizes. Int J Radiat Biol, 2006, 82 (4): 293-305. doi: 10.1080/09553000600637716
|
[18] |
Lee R, Sommer S, Hartel C, et al. Intra-and inter-chromosome aberrations in human lymphocytes exposed to radiation in vivo and in vitro detected by mBAND. GSI Scientific Report 2008, 2009: 373.
|
[19] |
Horstmann M, Durante M, Obe G. Distribution of breakpoints and fragment sizes in human chromosome 5 after heavy-ion bombardment. Int J Radiat Biol, 2004, 80(6): 437-443. doi: 10.1080/09553000410001702337
|
[20] |
Hada M, Gersey B, Saganti PB, et al. mBAND analysis of chromosome aberrations in human epithelial cells induced by gamma-rays and secondary neutrons of low dose rate. Mutat Res, 2010, 701(1): 67-74. doi: 10.1016/j.mrgentox.2010.03.009
|
[21] |
Hada M, Zhang Y, Feiveson A, et al. Association of inter and intrachromosomal exchanges with the distribution of low-and high-LET radiation-induced breaks in chromosomes. Radiat Res, 2011, 176(1): 25-37.
|
[22] |
Gijsbers AC, Schoumans J, Ruivenkamp CA. Interpretation of array comparative genome hybridization data: a major challenge. Cytogenet Genome Res, 2011, 135(3-4): 222-227. doi: 10.1159/000334066
|