Short Communication: Increased gene dosage augments antifreeze protein levels in transgenic Drosophila melanogaster

One of the principal environmental adaptations of certain fishes inhabiting polar and northern coastal waters is the synthesis of antifreeze proteins (AFPs). AFPs bind to and prevent the growth of nascent ice crystals, thus depressing the serum freezing point. The transgenic expression of AFP holds great promise for conferring freeze resistance to commercially important plant and animal species. Since fish at the greatest risk of freezing have multiple AFP gene copies in order to synthesize higher levels of this protein, we have evaluated this evolutionary strategy as a way to maximize AFP expression in a model transgenic host, the fruit fly Drosophila melanogaster. A construct in which AFP genes of the Atlantic wolffish are fused to the Drosophila yolk protein 1,2 promoter/enhancer region was transferred to flies through P-element mediated transformation. Several independent transgenic fly lines were used in genetic crosses to obtain multi-insert lines. Haemolymph freezing point depression (thermal hysteresis) was greater in homozygotes relative to heterozygotes for a given insert. Similarly, multi-insert lines consistently displayed greater haemolymph AFP activity than the single insert lines from which they were derived. The thermal hysteresis value obtained with a fly line harboring 8 AFP gene copies, 0.43 °C, represents the highest such value to date recorded in a transgenic host, and is even higher than the levels found in some AFP-producing fish.