TATA box-dependent protein-DNA interactions are detected on heat shock and histone gene promoters in nuclear extracts derived from Drosophila melanogaster embryos.

Abstract

We monitored protein-DNA interactions that occur on the hsp26, hsp70, histone H3, and histone H4 promoters in nuclear extracts derived from frozen Drosophila melanogaster embryos. All four of these promoters were found to be transcribed in vitro at comparable levels by extracts from both heat-shocked and non-heat-shocked embryos. Factors were detected in both types of extracts that block exonuclease digestion from a downstream site at ca. +35 and -20 base pairs from the start of transcription of all four of these promoters. In addition, factors in extracts from heat-shocked embryos blocked exonuclease digestion at sites flanking the heat shock consensus sequences of hsp26 and hsp70. Competition experiments indicated that common factors cause the +35 and -20 barriers on all four promoters in both extracts. The formation of the barriers at +35 and -20 required a TATA box but did not appear to require specific sequences downstream of +7. We suggest that the factors responsible for the +35 and -20 barriers are components whose association with the promoter precedes transcriptional activation.