Influence of chromosomal position and copy number of a white-directed ribozyme gene on the suppression of eye pigmentation in Drosophila melanogaster.

Different strains of transgenic Drosophila melanogaster carrying one, two, or three copies of a heat-shock promoter 70 (hsp70)-driven catalytic antisense RNA gene, directed against the white gene, were investigated for the expression level of ribozyme RNA. It was found that the steady-state concentrations of the hammerhead ribozyme were proportional to the copy number of the genes and that the suppressive effect on eye pigment accumulation was dosage dependent. In a further experiment, a D. melanogaster strain, deficient in eye pigmentation caused by a deletion of the white gene, was used for P element-mediated germline transformation: the transposon used contained the hsp70-driven, white-directed ribozyme gene and, on the same DNA, the mini-white gene under its own promoter. The spatial coupling of the transcription of ribozyme and target RNA resulted in more effective ribozyme-mediated inhibition of eye pigmentation under heat-shock conditions. These effects were dependent on the chromosomal integration site of the transposon.