Satellite DNA refers to a class of tandem repeats of very simple sequences, usually A + T or G + C rich, which form a satellite band on a CsCl gradient. Their ubiquity and abundance in higher eukaryotes have led to speculation about their functions. It has often been suggested that satellite DNAs are merely innocuous genetic parasites or comprise 'junk' DNA. The recent identification of an array of satellite DNA repeats as the Responder (Rsp) locus of Drosophila melanogaster provides a new perspective on these elements. Rsp is in the centromeric heterochromatin of most natural second chromosomes. It causes spermatids bearing it to degenerate after meiosis when the homologous second chromosome is a Segregation Distorter (SD) chromosome. That is, SD targets the Rsp locus on its homologue for destruction during spermatogenesis, causing meiotic drive. Why then does the Rsp locus, a large array of satellite repeats, exist at all? One plausible explanation is that its existence contributes to the fitness of flies bearing it, compensating for the loss through meiotic drive. A direct demonstration of the usefulness of any family of satellite DNA is to compare the fitnesses of individuals with and without it. Previously, such an experiment has been difficult because the absence of a characteristic phenotype has precluded an efficient selection of deletion mutations. In this report we attempt to demonstrate a fitness reduction associated with the deletion of Rsp satellite DNA as well as the life stages at which such a reduction occurs.