The 0 degree C closed complexes between Escherichia coli RNA polymerase and two promoters, T7-A3 and lacUV5.

The promoter-specific binding of Escherichia coli RNA polymerase to the T7-A3 and the lacUV5 promoters at 0 degrees C was analyzed by DNase I footprinting. At 37 degrees C, the footprint from RNA polymerase bound to the A3 promoter is essentially the same as that reported by Galas, D.J., and Schmitz, A., (1978) Nucleic Acids Res. 5, 3157-3170 for the lacUV5 promoter. At 0 degrees C, the footprint for the A3 promoter is well defined but reduced in size. The principal difference between the 0 and 37 degrees C footprints is a region from -2 to +18 which is protected by polymerase at the higher but not at the lower temperature. In contrast, the 0 degree C footprint for the lacUV5 promoter differs substantially in character from the footprint for A3 at 0 degree C. The footprint is similar to the pattern of DNase I digestion of DNA bound to a surface; alternating regions of sensitive and protected DNA are spaced at intervals of about 10 base pairs. This region of DNase I-sensitive and -resistant DNA has the same boundaries as the 0 degree C footprint on T7-A3. Temperature shift experiments confirmed the sequence specificity of the RNA polymerase interaction with UV5 at 0 degree C. These results indicate that RNA polymerase binds specifically to each promoter sequence in a closed complex. The increased time and amounts of RNA polymerase required to form the 0 degree C footprint on the lacUV5 promoter indicate that it binds RNA polymerase more weakly than does the T7-A3 promoter. Therefore there is a correlation between the binding constant for closed complex formation estimated from kinetic measurements and the formation of the 0 degree C footprint. The -35 region of the promoter may be more important in establishing the 0 degree C footprint because the T7-A3 promoter is a better match to the consensus sequence. Conversely, the -10 region seems less important because lacUV5 is a perfect match to the consensus, whereas the T7-A3 promoter matches at only five out of seven positions. The 0 degree C footprints encompass both regions along with the spacer; the combination of these regions rather than an individual region may determine the character of the footprint and the magnitude of the binding constant.