Transgenerational genomic instability as revealed by a somatic mutation assay using the medaka fish.

We previously established a somatic mutation assay of the medaka wl (white leucophores) locus based on visual inspection, and showed that somatic mutations at paternally derived alleles frequently arise during the development of F1 embryos fertilized by sperm/late spermatids that had been exposed to gamma-rays. To further study such delayed mutations, we determined the frequency of mutant embryos obtained from three different crosses between irradiated males and non-irradiated females. When sperm and late spermatids were irradiated, the mutant frequency within non-irradiated maternally derived alleles was approximately 3 times higher than in the control group. In the F2 generation, however, no increase in mutant frequency was observed. Similarly, there was no significant increase in the F1 mutant frequency when stem spermatogonia were irradiated. These data suggest that irradiation of sperm and late spermatids can induce indirect mutations in F1 somatic cells, supporting the idea that genomic instability arises during F1 embryonic development. Moreover, such instability apparently arises most frequently when eggs are fertilized just after the sperm are irradiated.