Correlation between a female sterile mutation and a set of follicle cell proteins in Drosophila melanogaster

Abstract

In order to correlate the synthesis of a previously described set of follicel cell (Fc) proteins with a known mutation that affects female fertility, three female sterile mutations, fs(1)384, fs(1)508 and fs(1)1501, mapping in the same region as the Fc locus (7C1-9), were analysed with respect to Fc synthesis. The fs(1)508 strain displayed a normal Fc protein pattern, while in fs(1)384 no Fc protein synthesis could be detected. The fs(1)1501 pattern of Fc polypeptide synthesis was totally different from that of any previously analysed strain, displaying a set of proteins that were much larger than the standard Fc variant form. Two of the female sterile mutations, fs(1)384 and fs(1)1501, were combined in rans with two wild-type strains displaying two different electrophoretic variant forms of the Fc proteins. The combinations were then analysed for Fc protein synthesis, using the fact that females heterozygous for two of the Fc variant forms display both parental forms. The results indicate that the fs(1)384 mutation is directly involved in the synthesis of the Fc proteins, as the trans heterozygotes only synthesize the Fc form derived from the wild-type parent. We also suggest that the large proteins synthesized by the fs(1)1501 mutant are a defective Fc variant form. The nature of the two mutations is also discussed.