Synergistic activation of transcription by Escherichia coli cAMP receptor protein.

Activation of gene expression in eukaryotes generally involves the action of multiple transcription factors that function synergistically when bound near a particular target gene. Such effects have been suggested to occur because multiple activators can interact simultaneously with one or more components of the basal transcription machinery. In prokaryotes, examples of synergistic effects on transcription are much more limited and can often be explained by cooperative DNA binding. Here we show that the Escherichia coli cAMP receptor protein (CRP) functions synergistically to activate transcription from a derivative of the lac promoter that bears a second CRP-binding site upstream of the natural binding site. We present evidence indicating that cooperative DNA binding of two CRP dimers does not account for the magnitude of the observed cooperative activation. We suggest, instead, that the two dimers stimulate transcription directly by contacting two distinct surfaces of RNA polymerase simultaneously. Thus, synergistic activation by CRP may provide a relatively simple model for examining the molecular basis of such effects in higher organisms.