Overlapping promoters and their control in Escherichia coli: the gal case.

Two overlapping promoters compete for RNA polymerase in the region that controls the expression of the galactose operon in Escherichia coli. Kinetics of open complex formation at P1 and P2 can be followed through the rate of formation of two specific abortive transcripts. The corresponding forward kinetic constants appear to be identical over a wide range of enzyme concentrations and temperatures, indicating that the two processes are strongly coupled. We propose a scheme accounting for our observations. In a first step, the competition between the two sites is a simple kinetic process, involving the "on" rate constants. In a second step, a slow reequilibration occurs, implicating the "off" rate constants and the conversion of one open complex to the other through a set of closed complexes. The first step is clearly affected when the complex between cyclic AMP and its receptor is bound at the activator site. An estimate of the various rate constants describing open complex formation at P1 and P2 is provided, as well as a qualitative description of the effect of the activator complex on these two pathways.