Conservation of read-through transcription of the Drosophila serendipity genes during evolution is gratuitous.

Abstract

The Drosophila melanogaster serendipity (sry) genes sry alpha and sry beta, which code for unrelated proteins and functions, are transcribed both as monocistronic (sry alpha, srv beta) and dicistronic (sry beta-sry alpha) polyadenylated transcripts, the three types of transcripts being differentially expressed throughout development. We show here that, while the sry gene cluster is conserved in two other distantly related Drosophila species, sry beta-sry alpha dicistronic transcription is observed in one of them, Drosophila pseudoobscura but not in the other, Drosophila virilis, indicating that this mode of transcription is not subject to selection during evolution. Sequence comparison of the intergenic sry beta-sry alpha region suggests that sry, beta-sry alpha read-through transcription results from interference between initiation of transcription at the sry alpha promoter and 3' processing of the upstream sry beta transcript. From these and previous analyses, we propose that read-through transcription at the sry locus reflects its clustered gene organisation but is functionally gratuitous. This conclusion is supported by the autonomous rate of evolutionary sequence divergence shown by each individual sry gene.