Abstract
To define the transcriptional mechanisms contributing to stage- and tissue-specific expression of muscle genes, we performed transgenic analysis of Drosophila paramyosin gene regulation. This gene has two promoters, one for paramyosin and one for miniparamyosin, which are active in partially overlapping domains. Regions between -0.9 and -1.7 kilobases upstream of each initiation site contribute to the temporal and spatial expression patterns. By comparing the Drosophila melanogaster and Drosophila virilis promoters, conserved binding sites were found for known myogenic factors, including one MEF2 site and three E boxes. In contrast with previous data, our experiments with the paramyosin promoter indicate that the MEF2 site is essential but not sufficient for proper paramyosin gene transcription. Mutations in the three E boxes, on the other hand, do not produce any effect in embryonic/larval muscles. Thus MEF2 site- and E box-binding proteins can play different roles in the regulation of different muscle-specific genes. For the miniparamyosin promoters, several conserved sequences were shown to correspond to functionally important regions. Our data further show that the two promoters work independently. Even when both promoters are active in the same muscle fiber, the transcription driven by one of the promoters is not affected by transcription driven by the other.
Highlights
To define the transcriptional mechanisms contributing to stage- and tissue-specific expression of muscle genes, we performed transgenic analysis of Drosophila paramyosin gene regulation
Temporal and spatial transgene expression patterns in both promoters depend on regions located between Ϫ0.9 and Ϫ1.7 kb of the PM and mPM initiation sites, except for indirect flight muscles (IFM) in the case of PM and larval muscles in the case of mPM
For PM, a group of E boxes and MEF2, PDP1, and CF2 sites are present in a region important for muscle-specific expression
Summary
To define the transcriptional mechanisms contributing to stage- and tissue-specific expression of muscle genes, we performed transgenic analysis of Drosophila paramyosin gene regulation. The transgenic lines transformed with constructs containing 4-kb (PM4) or 2.7-kb (mP 2.7) fragments upstream from the transcription start sites of the PM or mPM, respectively, express LacZ at high levels with similar patterns as the endogenous proteins, except for the TDT and IFM Our results suggest that the AB element may be implicated in the expression in abdominal adult muscles and that the BF2 element may be implicated in the other muscle types including TDT and IFMs. Band shift analysis with overlapping oligonucleotides corresponding to these regions and adult nuclear extracts revealed several specific binding sites (data not shown).
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