Abstract
The translation of many heat shock and virulence genes is controlled by RNA thermometers. Usually, they are located in the 5'-untranslated region (5'-UTR) and block the Shine-Dalgarno (SD) sequence by base pairing. Destabilization of the structure at elevated temperature permits ribosome binding and translation initiation. We have identified a new type of RNA thermometer in the 5'-UTR of the Salmonella agsA gene, which codes for a small heat shock protein. Transcription of the agsA gene is controlled by the alternative sigma factor sigma(32). Additional translational control depends on a stretch of four uridines that pair with the SD sequence. Mutations in this region affect translation in vivo. Structure probing experiments demonstrate a temperature-controlled opening of the SD region in vitro. Toeprinting (primer extension inhibition) shows that ribosome binding is dependent on high temperatures. Together with a postulated RNA thermometer upstream of the Yersinia pestis virulence gene lcrF (virF), the 5'-UTR of Salmonella agsA might be the founding member of a new class of RNA thermometers that we propose to name 'fourU' thermometers.
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