Isolation and molecular characterization of Musca domestica delta‐9 desaturase sequences

Abstract

We have isolated fatty acyl‐CoA desaturase cDNA (Mdomd9) and genomic sequences from the housefly, Musca domestica. Two ∼1.66 kb cDNAs were recovered. They had identical coding regions and 3′ untranslated regions (UTRs), but differed in their 5′ UTRs. The open reading frame encodes a 380 amino acid (aa) protein with 82% identity to Drosophila melanogaster desat1, and significant (> 50%) identity with other insect delta‐9 desaturases. Functional analyses in a yeast expression system confirmed the cDNA encodes a Δ9 desaturase. Northern analysis indicated two transcripts of 1.7 and 2.9 kb that hybridized specifically to the open reading frame. PCR amplification of genomic templates revealed three intron sites that are conserved among other insect species. Southern analysis of genomic DNA indicated at least two desaturase gene copies per haploid genome. There is a high degree of polymorphism, most of which appears to be due to variable intron sequences; curiously, individual flies had varying morphs of intron II and intron III. Together, the data suggest that there are more Δ9 desaturase alleles within the population studied than there are loci within the genome, and support other studies suggesting that insect fatty acyl‐CoA desaturases are a dynamically evolving gene family.