1.- Braselmann H, Kulka U, Baumgartner A, et al.
SKY and FISH analysis of radiation-induced chromosome aberrations: A comparison of whole and partial genome analysis
MUTATION RESEARCH-FUNDAMENTAL AND MOLECULAR MECHANISMS OF MUTAGENESIS 578 (1-2): 124-133 OCT 15 2005
2.- Anderson RM, Papworth DG, Stevens DL, et al.
Increased complexity of radiation-induced chromosome aberrations consistent with a mechanism of sequential formation
CYTOGENETIC AND GENOME RESEARCH 112 (1-2): 35-44 2006
3.- Plan Y, Hlatky L, Hahnfeldt P, et al.
Full-color painting reveals an excess of radiation-induced dicentrics involving homologous chromosomes
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY 81 (8): 613-620 AUG 2005
4.- Sommer S, Buraczewska I, Wojewodzka M, et al.
The radiation sensitivity of human chromosomes 2, 8 and 14 in peripheral blood lymphocytes of seven donors
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY 81 (10): 741-749 OCT 2005
5.- Foster HA, Bridger JM
The genome and the nucleus: a marriage made by evolution - Genome organisation and nuclear architecture
CHROMOSOMA 114 (4): 212-229 SEP 2005
6.- Branco MR, Pombo A
Intermingling of chromosome territories in interphase suggests role in translocations and transcription-dependent associations
PLOS BIOLOGY 4 (5): 780-788 MAY 2006
7.- Boei JJWA, Fomina J, Darroudi F, et al.
Interphase chromosome positioning affects the spectrum of radiation-induced chromosomal aberrations
RADIATION RESEARCH 166 (2): 319-326 AUG 2006
8.- Meaburn KJ, Misteli T, Soutoglou E
Spatial genome organization in the formation of chromosomal translocations
SEMINARS IN CANCER BIOLOGY 17 (1): 80-90 FEB 2007
9.- Kreth G, Pazhanisamy SK, Hausmann M, et al.
Cell type-specific quantitative predictions of radiation-induced chromosome aberrations: A computer model approach
RADIATION RESEARCH 167 (5): 515-525 MAY 2007
10.- Caddle, L., Grant, J., Szatkiewicz, J. et al.
Chromosome neighborhood composition determines translocation outcomes after exposure to high-dose radiation in primary cells
CHROM RES. (In Press)