We demonstrate the presence of a functional E box motif in the proximal rat preprotachykinin-A (rPPT) promoter. This element (spanning nucleotides -67 to -47) exhibits the sequence 5'-CACGTG-3' which is recognized and bound by the basic helix-loop-helix family of regulatory proteins. We also show that at least one of the factors bound to this rPPT promoter element in both HeLa and PC12 nuclear extract is the ubiquitously expressed transcription factor, the upstream stimulatory factor (USF). Mutation of this element by insertion of a 10 bp linker into the E box motif, in an rPPT promoter fragment spanning -865 to +92, destroys the ability of this promoter fragment to support reporter gene expression in a PC12 cell model of rPPT promoter activity. The data indicate that this rPPT E box element is likely to function as an important cis-regulatory domain in the rPPT promoter.
Developmental and genetic studies of the singed gene of Drosophila melanogaster indicate that the gene has a role in somatic cells during the formation of adult bristles and hairs, and in the female germline during oogenesis. During metamorphosis a single 3.6-kilobase (kb) RNA is made, and this RNA is also present in adults and early embryos. Early embryos and adult females have additional 3.3- and 3.0-kb RNAs. The RNAs differ only in the length of the 3' untranslated region and a single gene product of 57 kilodaltons is predicted. Analysis of RNA from females lacking ovaries suggests that the 3.3- and 3.0-kb RNAs are made only in ovaries. The absence of the 3.3- and 3.0-kb RNAs in pupae and the time course of their appearance in adult females after eclosion suggests that transcription of singed in the ovary is from middle to late stages of oogenesis. Analysis of RNA in embryos from the reciprocal crosses between wild type and singed-3 showed that all three RNAs are maternally inherited with very little zygotic transcription in embryos. The mutation singed-3 appears to separate the two requirements for singed function as it has an extreme effect upon bristle development, but does not obviously affect oogenesis. In singed-3, there is a deletion at the 5' end of the gene, but the coding region is intact. Transcription in singed-3 is from a cryptic promoter in the upstream flanking sequences which is sufficiently active during oogenesis for fertility, but less active than the wild-type promoter during metamorphosis. The role of the single singed gene product may be in the asymmetric organization and/or movement of cytoplasmic components.
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