The Salmonella typhimurium his operon leader region contains an RNA hairpin-dependent transcription pause site. Mechanistic implications of the effect on pausing of altered RNA hairpins.

The Salmonella typhimurium his leader region contains a well documented transcription attenuator. We report here the results of in vitro transcription studies that characterized a transcription pause site in the his leader region. The pause occurred after synthesis of the first his leader secondary structure (A:B) and immediately preceding addition of G103 to the nascent transcript. RNA polymerase pausing at this site would allow a ribosome synthesizing the his leader peptide to release the paused polymerase and synchronize transcription and translation of the his leader region. The half-life of transcription complexes paused in the his leader was enhanced by NusA, but not guanosine 5'-diphosphate 3'-diphosphate. Nuclease digestion and RNA modeling studies were consistent with a compact three-dimensional structure for the his pause RNA. The half-life of the his leader paused transcription complex was decreased greatly on altered templates in which the C71-G93 base pair was disrupted but was unchanged when the C65-G100 base pair was disrupted. This result is consistent with a model for the structure of paused transcription complexes in which a portion of the RNA:DNA elongation heteroduplex is retained.