The G+C-rich discriminator region of the tyrT promoter antagonises the formation of stable preinitiation complexes.

RNA polymerase forms a highly stable preinitiation complex at many prokaryotic promoters in the absence of ribonucleotides. These are often characterised by the longevity of the DNA strand-separated (open) complex in the presence of heparin. In contrast, such complexes are notoriously unstable at the promoters for rRNA and tRNA under similar conditions. The high G+C content within the DNA-melting region of these promoters has been implicated in this seemingly anomalous behaviour. Here, we used rapid-pulse UV laser photo-footprinting to monitor the transient structural intermediates formed at the Escherichia coli tyrT promoter. Promoter derivatives with A+T for G/C base substitutions within the G+C-rich discriminator region (-7 to -1) augmented the stability of complexes on both linear fragments and supercoiled plasmid DNA. Analysis of the lifetime of the preinitiation complexes as a function of the discriminator sequence reveals a direct relationship between the A+T content of the DNA-melting region and the stability of the ensuing complex. Our results are consistent with the premise that a G/C block to DNA-untwisting and/or DNA-melting operates to prevent the formation of the stable isomers that are implicated in most other transcription initiation pathways.

Pemberton IK ，Muskhelishvili G ，Travers AA ，Buckle M ... -  《JOURNAL OF MOLECULAR BIOLOGY》

Aromatic amino acids in region 2.3 of Escherichia coli sigma 70 participate collectively in the formation of an RNA polymerase-promoter open complex.

Formation of an initiation-competent RNA polymerase-promoter complex involves DNA melting over a region of about 12 base-pairs, which includes the start site of transcription, thus enabling the template strand to base-pair with the initiating nucleoside triphosphates. By studying the effects of alanine substitutions, we have investigated the role of the aromatic amino residues in the Escherichia coli sigma(70) conserved region 2.3 in promoter strand separation. The resulting mutants were assessed for their activity in vivo in the context of a sigma(70)/sigma(32) hybrid sigma factor that could be targeted to a specific hybrid promoter in the cell. All substitutions lead to an at least twofold reduction in expression of the hybrid promoter-driven reporter gene. The in vitro assay of single substitutions indicated cold sensitivity similar to that previously observed with analogous substitutions in Bacillus subtilis sigma(A). Kinetic assays showed that these substitutions slowed the rate of open complex formation at 37 degrees C as well. RNA polymerase reconstituted with a sigma(70) containing multiple alanine substitutions readily binds to promoter DNA, but then proceeds slowly beyond the first intermediate complex on the pathway to formation of the transcription-competent complex. These data demonstrate that together the aromatic residues in region 2.3 of E. coli sigma(70) ensure that DNA strand separation proceeds efficiently, even if no individual residue may be essential for accomplishment of the process.

Panaghie G ，Aiyar SE ，Bobb KL ，Hayward RS ，de Haseth PL ... -  《JOURNAL OF MOLECULAR BIOLOGY》

FIS modulates the kinetics of successive interactions of RNA polymerase with the core and upstream regions of the tyrT promoter.

We have applied laser UV photo-footprinting to characterise kinetically complexes involving the activator protein FIS, RNA polymerase and the tyrT promoter of Escherichia coli. FIS photo-footprints strongly to three binding sites upstream of the core promoter. The polymerase photo-footprints in the near-consensus -35 hexamer on the non-template strand of DNA in a fashion similar to that of stable complexes involving the lacUV5 promoter. The kinetics of the interactions of polymerase alone with the tyrT promoter differ from those observed previously at the lacUV5 promoter. In the absence of FIS, we observe an upstream polymerase-induced signal at -122 within FIS site III that occurs subsequent to changes in the core promoter region and is strongly dependent on negative supercoiling. These observations support the proposal that the upstream region of the promoter is wrapped around the polymerase. We propose that the wrapped DNA allows the polymerase to overcome, at least in part, the barrier to DNA untwisting imparted by the G+C-rich discriminator. We further suggest that FIS plays a similar role and may facilitate polymerase escape.

Pemberton IK ，Muskhelishvili G ，Travers AA ，Buckle M ... -  《JOURNAL OF MOLECULAR BIOLOGY》

Domain 1.1 of the sigma(70) subunit of Escherichia coli RNA polymerase modulates the formation of stable polymerase/promoter complexes.

The sigma 70 (sigma(70)) subunit of Escherichia coli RNA polymerase specifies transcription from promoters that are responsible for basal gene expression during vegetative growth. When sigma(70) is present within polymerase holoenzyme, two of its domains, 2.4 and 4.2, interact with sequences within the -10 and -35 regions, respectively, of promoter DNA. However, in free sigma(70), DNA binding is prevented by domain 1.1, the N-terminal domain of the protein. Previous work has demonstrated that the presence of domain 1.1 is required for efficient transcription initiation at the lambda promoter P(R). To investigate whether this is a general property of domain 1.1, we have used five promoters to compare polymerases with and without domain 1.1 in in vitro transcription assays, and in assays assessing the formation and decay of stable, pretranscription complexes. We find that the absence of domain 1.1 does not render the polymerase defective at all of these promoters. Depending on the promoter, the absence of domain 1.1 can promote or inhibit transcription initiation by affecting the formation of stable pretranscription complexes. However, domain 1.1 does not affect the stability of these complexes once they are formed. For polymerases containing domain 1.1, the efficiency of stable complex formation correlates with how well the -10 and -35 regions of a promoter match the ideal sigma(70) recognition sequences. However, when domain 1.1 is absent, having this match becomes less important in determining how efficiently stable complexes are made. We suggest that domain 1.1 influences initiation by constraining polymerase to assess a promoter primarily by the fitness of its -10 and -35 regions to the canonical sequences.

Vuthoori S ，Bowers CW ，McCracken A ，Dombroski AJ ，Hinton DM ... -  《JOURNAL OF MOLECULAR BIOLOGY》

A direct real-time spectroscopic investigation of the mechanism of open complex formation by T7 RNA polymerase.

Sastry SS ，Ross BM 《BIOCHEMISTRY》