Novel heat shock response mechanism mediated by the initiation nucleotide of transcription.

Abstract

Among SigA-dependent promoters in Bacillus subtilis, we compared the nucleotide sequences of heat shock responding and non-responding promoters. Chimeric promoter experiments revealed that the heat shock response could be ascribed to the initiation nucleotide (iNTP) of the transcription. Our in vivo reporter assay results indicated that a full response was achieved using GTP, a reduced response was observed using ATP, and no additional expression was observed using UTP or CTP. We then investigated the in vitro transcription assay in more detail. Enhanced transcription that was dependent upon the iNTP was observed when heat treatment was administered during the pre-initiation period. We next analyzed the efficiency of open complex formation using potassium permanganate footprinting, and our results revealed an increase in the ratio of open complex formation at elevated temperatures. Based on this, we suggest that the overall intensification of transcription at high temperatures was derived from the high efficiency of open complex formation together with the high affinity of RNA polymerase (RNAP) for the initiation nucleotide GTP. To determine if this mechanism observed in B. subtilis RNAP is common among bacterial species, we performed similar experiments using Escherichia coli RNAP. Our results indicated that E. coli RNAP also exhibited both temperature- and iNTP-dependent enhancement of transcription. Although the temperature ranges and the ratios of enhancement are somewhat different, the overall heat shock response mechanism mediated by the iNTP of transcription appears to be conserved among bacterial RNAP.