The expression and genomic organization of randomly selected cloned Drosophila melanogaster genes

Response of Djun and Dfos mRNA abundance to signal transduction pathways in cultured cells of Drosophila melanogaster

The mammalian proto-oncogenes c-jun and c-fos are situated at the end of multiple signal transduction pathways and activation of their products Jun and Fos, components of the transcription factor AP-1, are able to regulate gene transcription in response to extracellular stimuli. Djun and Dfos, the products of the Drosophila proto-oncongenes Djun and Dfos, are similar in size and sequence to their mammalian counterparts c-Jun and c-Fos and are related to their mammalian counterparts by their antigenic properties. However, very little is known about how they are regulated through signal transduction pathways. This paper has investigated the response of their mRNA abundance levels to three signal transduction pathways in Drosophila cultured cells. Various agonists and antagonists that stimulate and inhibit specific enzymes in the pathways have been tested. The results suggest that Djun and Dfos mRNA are continuously expressed and their abundance levels are transiently regulated by multiple signaling pathways, the peak response coming at 1-2 hours after perturbation. Dfos is more highly regulated than Djun which is only modulated. The receptor tyrosine kinase pathways positively regulate Dfos and Djun. The cAMP-mediated pathway positively regulates Dfos but negatively regulates Djun. The protein kinase C-activated pathway does not affect Djun whereas it negatively regulates Dfos.

Sequence and expression of two regulated transcription units during Drosophila melanogaster development: Deb-A and Deb-B

Two transcription units, Deb-A and Deb-B (developmental embryonic), are present in a recombinant bacteriophage clone containing a DNA insert from Drosophila melanogaster. The insert maps cytologically to chromosome 2R at 48EF. Sequence analysis of the open reading frames indicates that both are putative membrane proteins with similar hydropathy profiles. The expression of the encoded poly(A)+ RNAs is regulated during oocyte embryonic and larval development. The 600 base Deb-A RNA is present in oocytes and increases in abundance until 15 h of embryogenesis. Its abundance level drops dramatically between 15 and 19 h and is modulated at a low level in the three larval instars and pupae. The 525 base Deb-B RNA is present in oocytes at a 10-fold lower level than the Deb-A transcript. Its abundance increases until a maximum level is reached at 9-12 h. After this time the transcript is undetectable on Northern transfers. Both RNAs are present in greater than 95% polyadenylated form in the cytoplasm. Deb-B RNA is found on polysomes in proportions similar to the bulk of poly(A)+ RNA populations. Deb-A RNA, on the other hand is mostly nonpolysomal during embryogenesis. The RNAs from both Deb-A and Deb-B are found uniformly distributed throughout the embryo during development.