Hybrid Dysgenesis in Drosophila melanogaster: Evidence from Sterility and Southern Hybridization Tests that P Cytotype Is Not Maintained in the Absence of Chromosomal P Factors

Hybrid Dysgenesis in Drosophila melanogaster: Evidence from Sterility and Southern Hybridization Tests that P Cytotype Is Not Maintained in the Absence of Chromosomal P Factors

John A. Sved ¹

¹ School of Biological Sciences, Sydney University, NSW 2006, Australia

A two-generation crossing program was used to replace the entire chromosomecomplement of P strains by M strain chromosomes, the maternalcontribution being from the P strain. The cytotype of chromosomallysubstituted females was indistinguishable from M strain cytotype,judged by the sterility of offspring from the cross of suchfemales to P strain males. In addition, following replacementof the chromosomes, the level of DNA homologous to the P factorwas sufficiently low to be explicable by low levels of P factortransposition. These results are consistent with immediate chromosomalcontrol for the switching from P to M cytotype. However, thereverse chromosome substitution, replacing all chromosomes ofan M strain with P chromosomes, did not usually lead to immediatechange of cytotype properties, showing that there is a truematernal effect in the M to P direction.—The absence oftrue maternal inheritance for P cytotype argues against modelsof P factor repression which depend on autonomous replication ofa nonchromosomal element. The repression could still be explainedby nonchromosomal copies of the P factor, provided that theseare replenished from chromosomal P factors. A model is put forwardin which P cytotype is due to the presence of circular P factorscarrying a P factor target sequence, leading to preferentialtransposition of chromosomal P factors to nonchromosomal targetsites.

Submitted on February 17, 1986
Accepted on September 13, 1986

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Hybrid Dysgenesis in Drosophila melanogaster: Evidence from Sterility and Southern Hybridization Tests that P Cytotype Is Not Maintained in the Absence of Chromosomal P Factors

John A. Sved 1

John A. Sved ¹