Abstract
The expression of gene 1, a member of the small heat shock gene family from the Drosophila melanogaster chromosomal locus 67B was studied. In contrast to the other heat shock genes, the response of gene 1 to stress was modulated during development. In the absence of stress, gene 1 was expressed at the beginning of pupation, and at a very low level in adult males. Expression of gene 1 was substantially increased by heat shock in pupae, but was one to two orders of magnitude lower in adults or in embryos. Under the same conditions, hsp70 or hsp26 were induced to similar levels in all stages. This developmental effect could be mimicked in cultured Drosophila cells: expression of gene 1 was stimulated by heat shock in the presence, but not in the absence, of the moulting hormone ecdysterone, while the level of expression of hsp26 and hsp70 in response to heat shock was independent of the presence of the hormone. Thus, the presence and activity of the heat shock transcription factor are not sufficient for the maximal response of gene 1 to stress. These results suggest that the heat shock activator protein requires additional factors, which are developmentally regulated, to activate transcription of gene 1. Furthermore, S1 nuclease mapping analysis revealed several gene 1 mRNA species, which are generated by the use of alternative polyadenylation sites and by the use of differentially regulated transcriptional initiation sites.
Highlights
The heat shock genes of D. melanogasterhave for many years provided a system of choice to study both inducible and developmentally regulated gene expression
In contrast to the other heat shock genes, the response of gene 1 to stress was modulated during development
This developmental effect could be mimicked in cultured Drosophila cells: expression of gene 1 was stimulated by heat shock in the presence, but not in the absence, of the moulting hormone ecdysterone, while the level of expression of hsp26 and hspTO in response to heat shock was independent of the presence of the hormone
Summary
The heat shock genes of D. melanogasterhave for many years provided a system of choice to study both inducible and developmentally regulated gene expression. Presentaddressandaddressfor correspondence:DepartmentofMolecular Biology,PrincetonUniversity,Princeton,NJ 08544, USA en of the heat shock genes are clustered in a 15 kb DNA region at chromosomal locus 67B (Ayme and Tissi6res 1985). They include the four small heat shock protein genes hsp, hsp, hsp, and hsp (Southgate et al.1983), as well as two related genes, genes 1 and 3, plus gene 2 which has a completely different structure (Ayme and Tissi&es 1985; Pauli and Tonka 1987; Pauli et al 1988). Little is known about the distribution of the products of these genes, but different heat shock proteins may have different intracellular and tissue localizations (Zimmerman et al 1983; Glaser et al 1986; Arrigo and Pauli 1988)
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