Evolution of a telomere associated satellite DNA sequence in the genome ofDrosophila tristis and related species

Abstract

A highly repetitive satellite DNA sequence from the genome of Drosophila tristis with a length of 181 bp has been cloned in the pUC plasmid. The sequence hybridizes to the telomeres of all chromosomes but the Y of D. tristis and produces a ladderlike hybridization pattern with filterbound genomic DNA of D. tristis digested with Eco RI or Pst I with the hybridization bands at fragment lengths in multiples of 181 bp. A similar pattern is found when the genomic DNA comes from D. ambigua or, though less clear, from D. microlabis. Additional bands appear in the zones of high fragment lengths, too. In D. obscura and D. kitumensis, however, the 181 bp sequence is found in fragments with a length of a few kb only. The 181 bp sequence is tandemly arranged in the genome of D. tristis and has a copy number of about 82,000 per haploid genome (i.e. 10 per cent of the total DNA). A sequence comparison among four independently cloned copies of the family from D. tristis and another homologous sequence from D. obscura, found by chance, shows a one to six per cent variation in basepair composition. However, low divergence (only one per cent) between two copies of D. tristis and between the one of D. obscura and one of D. tristis was observed, and high divergence (six per cent) between these two pairs. This is discussed and explained as the evolutionary consequence of an existing homogenization process by unequal crossing over.