Radiation-Induced Chromosome Aberrations in Saccharomyces cerevisiae : Influence of DNA Repair Pathways

Radiation-Induced Chromosome Aberrations in Saccharomyces cerevisiae : Influence of DNA Repair Pathways

Anna A. Friedl^a,b, Markus Kiechle^a, Barbara Fellerhoff^a, and Friederike Eckardt-Schupp^a
^a GSF-Forschungszentrum für Umwelt und Gesundheit, Institut für Strahlenbiologie, 85758 Oberschleißheim, Germany,
^b Strahlenbiologisches Institut, Ludwig-Maximilians-Universität, 80336 München, Germany

Corresponding author: Anna A. Friedl, Institut für Strahlenbiologie, GSF-Forschungszentrum, Postfach 1129, D-85758 Oberschleißheim, Germany, friedl{at}gsf.de (E-mail).

Communicating editor: F. WINSTON

Radiation-induced chromosome aberrations, particularly exchange-typeaberrations, are thought to result from misrepair of DNA double-strandbreaks. The relationship between individual pathways of breakrepair and aberration formation is not clear. By electrophoretickaryotyping of single-cell clones derived from irradiated cells,we have analyzed the induction of stable aberrations in haploidyeast cells mutated for the RAD52 gene, the RAD54 gene, theHDF1(=YKU70) gene, or combinations thereof. We found low andcomparable frequencies of aberrational events in wildtype andhdf1 mutants, and assume that in these strains most of the survivorsdescended from cells that were in G₂ phase during irradiationand therefore able to repair breaks by homologous recombinationbetween sister chromatids. In the rad52 and the rad54 strains,enhanced formation of aberrations, mostly exchange-type aberrations,was detected, demonstrating the misrepair activity of a rejoiningmechanism other than homologous recombination. No aberrationwas found in the rad52 hdf1 double mutant, and the frequencyin the rad54 hdf1 mutant was very low. Hence, misrepair resultingin exchange-type aberrations depends largely on the presenceof Hdf1, a component of the nonhomologous end-joining pathwayin yeast.

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