Abstract
The Drosophila gene for snRNP SmD3 (SmD3) is contained in reverse orientation within the first intron of the Ornithine Decarboxylase Antizyme (AZ) gene. Previous studies show that two closely linked P elements cause the gutfeeling phenotype characterized by embryonic lethality and aberrant neuronal and muscle cell differentiation. However, the exact nature of the gene(s) affected in the gutfeeling phenotype remained unknown. This study shows that a series of P inserts located within the 5'-untranslated region (5'-UTR) of SmD3 or its promoter affects only the expression of SmD3. Our analysis reveals that the gutfeeling phenotype associated with P elements inserted in the 5'-UTR of SmD3 results from amorphic or strongly hypomorphic mutations. In contrast, P inserts in the SmD3 promoter region reduce the expression of SmD3 without abolishing it and produce larval lethality with overgrown imaginal discs, brain hemispheres, and hematopoietic organs. The lethality of these mutations could be rescued by an SmD3+ transgene. Finally, inactivation of AZ was obtained by complementing with SmD3+ the deficiency Df(2R)guf(lex47) that uncovers both SmD3 and AZ. Interestingly, AZ inactivation causes a new phenotype characterized by late larval lethality and atrophy of the brain, imaginal discs, hematopoietic organs, and salivary glands.