How Escherichia coli RNA polymerase can negatively regulate transcription from a constitutive promoter.

We previously described the structures and functions of specific complexes between the bla promoter from Tn3 (present in pBR322) and RNA polymerase (RNAP), showing that, at excess RNAP, complexes can form in which one or two RNAPs bind to the same promoter (1:1 and 2:1 complexes) (Duval-Valentin and Ehrlich, 1988). We report here that the 2:1 complex cannot be detected below 25 degrees C; above that temperature, a 1:1 complex forms at a rate one order of magnitude faster than that of the 2:1 complex, and above 30 degrees C, the amounts of both species become equal for RNAP/promoter ratio r30 less than or equal to r less than or equal to 70. The 2:1 complex decays back to a 1:1 complex losing the last RNAP at a rate about three times that of the 1:1 complex decay. Functional assays of the complexes formed at excess RNAP show that both 1:1 and 2:1 complexes are immediately and permanently inhibited, even when the promoters are pre-incubated with ribonucleotide selections potentially enabling entrance into abortive cycling or formation of a stressed complex. We conclude that the inhibition step probably takes place in the complex formation pathway between RPi and RPo, at a novel stable intermediate isomer, RPj, formed above 25 degrees C. A possible mechanism of formation of the 2:1 complex is outlined. In vivo studies, in which r was modified by varying the bacterial growth rate, show a reduction of bla expression as r values are upshifted, specific to the bla promoter from Tn3.