Distribution of radiation-induced exchange aberrations in all human chromosomes

Distribution of radiation-induced exchange aberrations in all human chromosomes

Purpose: To investigate the DNA-proportional distribution of radiation-induced chromosome aberrations for all chromosomes of a male and a female human karyotype. Materials and methods: Metaphases were prepared from whole blood cultures obtained from two healthy donors and set up after irradiation wi...

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Bibliographic Details
Published in:International journal of radiation biology Vol. 79; no. 6; pp. 393 - 403
Main Authors: Braselmann, H., Kulka, U., Huber, R., Figel, H. M., Zitzelsberger, H.
Format: Journal Article
Language:English
Published: London Informa UK Ltd 01-06-2003
Taylor & Francis
Subjects:
Adult
Biological and medical sciences
Chromosome Aberrations
Chromosomes, Human - radiation effects
DNA Damage
Female
Genome, Human
Humans
In Situ Hybridization, Fluorescence
Karyotyping
Male
Medical sciences
Metaphase - radiation effects
Models, Statistical
Sex Factors
Space life sciences
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Summary:Purpose: To investigate the DNA-proportional distribution of radiation-induced chromosome aberrations for all chromosomes of a male and a female human karyotype. Materials and methods: Metaphases were prepared from whole blood cultures obtained from two healthy donors and set up after irradiation with 3 Gy 220 kV X-rays. Single whole-chromosome FISH painting simultaneously with pancentromeric DNA painting were performed separately for each chromosome of the human karyotype. One thousand exclusively first-division metaphases were analysed per chromosome and donor. After statistical analysis, the data obtained were compared with theoretically expected values. Results: All aberration types (translocations, dicentrics) showed deviations from a DNA-proportional distribution. For both donors, chromosomes 2 and 3 exhibited significantly less and chromosome 4 more symmetrical translocations than expected. Chromosomes 15 and 22 showed more symmetrical translocations than predicted for one of the two donors. Less dicentrics than expected became apparent for chromosomes 2, 3 and 18, while more dicentrics were seen for chromosomes 15, 16 and 17. Moreover, chromosomes 4, 14 and 22 showed a significant deviation from the theoretically expected 1:1 ratio of the yields of symmetrical translocations to the yields of dicentrics. Conclusion: The results from the whole-chromosome complement in two different donors confirmed published data from the analysis of single chromosomes that some human chromosomes were not involved in radiation-induced dicentrics and symmetrical translocations proportional to their DNA content. This must be taken into account if chromosome subsets for dose reconstruction are selected or if whole genomic frequencies have to be calculated from partial genome analysis.
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ISSN:0955-3002
1362-3095
DOI:10.1080/0955300031000137805