It is a goal of evolutionary biology to link the variation of morphological traits to the underlying genetic variation. A trait that differs between different Drosophila species but is usually constant within each species is the size of the naked valley, a naked cuticle patch on the second leg. However, several populations of Drosophila melanogaster show size differences of the naked valley. The underlying genetic variation has been mapped to a locus containing a microRNA, mir-92a, which is located in an intron of the protein-coding gene jigr1. mir-92a post-transcriptionally regulates shavenoid (sha), a gene involved in naked valley development. I will first examine the possibility of jigr1 or a second protein-coding gene, Npl4, being involved in the development of the naked valley, as well. Differences in expression of mir-92a in the different Drosophila strains are thought to underlie the naked valley size variation by subsequent differential regulation of sha. Differential expression of mir-92a is likely to be facilitated by mutations in an enhancer. I will analyse whether expression of mir-92a and jigr1 is correlated and thus controlled by the same cis-regulatory elements. In order to identify the size-determining element, I will use the GAL4-UAS system to express GFP as well as mir-92a under control of candidate enhancers from strains with large and small naked valleys, respectively, in the genetic background of a small naked valley. I will identify the specific mutations responsible for the size variation by stepwise altering the enhancer for development of a large naked valley towards the identity of a strain with a small naked valley by PCR-based mutagenesis. The results of these experiments will facilitate the identification of the mutations underlying phenotypic variation of the naked valley within Drosophila melanogaster.

DFG Programme Research Fellowships

International Connection United Kingdom

Participating Person Professor Dr. Alistair Peter McGregor