RNA polymerase as a repressor of transcription in the hut(P) region of mutant Klebsiella aerogenes histidine utilization operons

Mutants of Klebsiella aerogenes able to express the hutUH operon in the absence of positive effectors were isolated and characterized. These mutations improve the hutUH promoter (PUH) by changing the -10 region to match the consensus sequence more closely. These mutations also affect another, oppositely oriented promoter in this region, PC. Although the mutations lie far outside PC, they cause PC to be inactive, apparently because binding of RNA polymerase to the PUH promoter blocks the overlapping PC site. Thus, in the mutants, RNA polymerase bound at the strong (mutant) PUH site effectively repress the PC promoter.     

A gel electrophoresis method for quantifying the binding of proteins to specific DNA regions: application to components of the Escherichia coli lactose operon regulatory system.

The use of gel electrophoresis for quantitative studies of DNA-protein interactions is described. This rapid and simple technique involves separation of free DNA from DNA-protein complexes based on differences in their electrophoretic mobilities in polyacrylamide gels. Under favorable conditions both unbound DNA and DNA associated with protein can be quantified. This gel method is applied to the study of the E. coli lactose operon regulatory system. At ionic strengths in the physiological range, the catabolite activator protein (CAP) is shown to form a long-lived complex with the wild type lac promotor, but not with a CAP-insensitive mutant. Formation of a stable "open" or "melted-in" complex of RNA polymerase with the wild type promoter requires the participation of CAP and cyclic AMP. Further, it is demonstrated that even when pre-formed in the presence of CAP-cAMP, the polymerase-promoter open complex becomes unstable if CAP is then selectively removed.