Genetics of Parthenogenesis in DROSOPHILA MELANOGASTER. I. the Modes of Diploidization in the Gynogenesis Induced by a Male-Sterile Mutant, ms(3)K81

Sperm that are produced by males homozygous for ms(3)K81 , a male sterile mutant of Drosophila melanogaster, are defective in syngamy but are capable of activating eggs to develop gynogenetically. The activated eggs usually produce haploid embryos, but a small fraction (10 ^-4–10^-5) of them give rise to diploid impaternate adults. To know the cytological mechanisms by which these impaternates restore diploidy, the genotypes of impaternate progeny obtained from females doubly heterozygous for visible markers were examined. The results show that, as generally found among parthenogenetic Drosophila, diploidy is restored after completing meiosis either by pronuclear fusion or by gamete duplication (doubling of a haploid cleavage nucleus). The fusion of two nonsister nuclei following meiosis II (central fusion) was indicated to be a predominant mode of diploidization in this species. Two meiotic mutants, mei-9 and mei-S332, which are known to greatly increase meiotic nondisjunction, did not cause an increased incidence of impaternates. This seems to exclude the possibility that some impaternates might have been derived from diploid egg nuclei produced through nondisjunction.