Discrimination between bacteriophage T3 and T7 promoters by the T3 and T7 RNA polymerases depends primarily upon a three base-pair region located 10 to 12 base-pairs upstream from the start site.

The bacteriophage T3 and T7 RNA polymerases are closely related, yet are highly specific for their own promoter sequences. To understand the basis of this specificity, T7 promoter variant that contain substitutions of T3-specific base-pairs at one or more positions within the T7 promoter consensus sequence were synthesized and cloned. Template competition assays between variant and consensus promoters demonstrate that the primary determinants of promoter specificity are located in the region from -10 to -12, and that the base-pair at -11 is of particular importance. Changing this base-pair from G.C, which is normally present in T7 promoters, to C.G, which is found at this position in T3 promoters, prevented utilization by the T7 RNA polymerase and simultaneously enabled transcription from the variant T7 promoter by the T3 enzyme. Substitution of T7 base-pairs with T3 base-pairs at other positions where the two consensus sequences diverge affected the overall efficiency with which the variant promoter was utilized by the T7 RNA polymerase, but these changes were not sufficient to permit recognition by the T3 RNA polymerase. Switching the -11 base-pair in the T3 promoter consensus to the T7 base-pair prevented utilization by the T3 RNA polymerase, but did not allow the T3 variant promoter to be utilized by the T7 RNA polymerase. This probably reflects a greater specificity of the T7 RNA polymerase for base-pairs at other positions where the promoter sequences differ, most notably at -15. The magnitude of the effects of base substitutions in the T7 promoter on promoter strength (-11C much greater than -10C greater than -12A) correlates with the affinity of the T7 polymerase for the promoter variants, suggesting that the discrimination of the phage RNA polymerases for their promoters is mediated primarily at the level of DNA binding, rather than at the level of initiation.

Specific contacts between the bacteriophage T3, T7, and SP6 RNA polymerases and their promoters.

The specificity and structural simplicity of the bacteriophage T3, T7, and SP6 RNA polymerases make these enzymes particularly well suited for studies of polymerase-promoter interactions. To understand the initial recognition process between the enzyme and its promoters, DNA fragments that carry phage promoters were chemically modified by three different methods: base methylation, phosphate ethylation, and base removal. The positions at which these modifications prevented or enhanced binding by the RNA polymerases were then determined. The results indicate that specific contacts within the major groove of the promoter between positions-5 and -12 are important for phage polymerase binding. Removal of individual bases from either strand of the initiation region (-5 to +3) resulted in enhanced binding of the polymerase, suggesting that disruption of the helix in this region may play a role in stabilization of the polymerase-promoter complexes.

Abortive initiation by bacteriophage T3 and T7 RNA polymerases under conditions of limiting substrate.

Initiation of RNA synthesis by the phage polymerases is abortive if the concentration of pyrimidine triphosphates is limiting. Under abortive initiation conditions the polymerases repeatedly initiate transcription but produce ribooligonucleotides that terminate just prior to the first occurrence of the limiting substrate. Abortive initiation is most severe if the limiting substrate occurs within the first 8-12 nucleotides of the nascent RNA chain and is particularly evident when UMP is limiting. The formation of stable elongation complexes (as determined by gel retardation experiments) occurs after the synthesis of an RNA product 8-12 nucleotides in length.