Evolutionary flux of P element regulation in a Drosophila meglanogaster hybrid dysgenesis cline

Abstract

Clines of P-induced hybrid dysgenesis provide a means for monitoring the evolution of transposition repression over space and time. We have studied the molecular and phenotypic profiles of flies taken from a 2900 km cline along the eastern coast of Australia, which had previously been characterized over 10 years ago as having P populations in the north, Q populations at central sites and M' populations in the south. We have found that Q and M' populations of flies have increased their range within the cline at the expense of P lines. Q populations were found to be in the north of the cline and M' populations in the south. Some of the northern Q lines transmit repression through both sexes and type I deletion elements have been isolated from them. We suggest that these elements are responsible for Q type repression. The results support our model that populations made up of Q individuals with strong biparentally transmitted repression form an evolutionarily stable strategy for the repression of hybrid dygenesis in Drosophila melanogaster.