The transmembrane DNA-binding protein, ToxR, of Vibrio cholerae is a g
lobal transcriptional regulator of virulence gene expression. ToxR has
been shown to interact with promoter regions upstream of both the ctx
AB operon encoding cholera toxin, and the regulatory gene toxT. Deleti
on analysis has shown that a repeated sequence, TTTTGAT, is required f
or ToxR binding and activation of the ctxAB promoter. However, this se
quence is not found upstream of the toxT promoter. Genetic selections
using P22 challenge phages were used to define sites within the promot
er for ctxAB which are critical for ToxR-DNA interactions. Single-base
-pair changes and deletion mutations that impair ToxR binding cluster
within two regions: -57 to -69 within two of three tandem TTTTGAT sequ
ences; and from -39 to -47, between the repeat sequences; and the -35
region of the promoter. ToxR does not bind to a synthetic target that
has three tandem repeats which lack a flanking upstream and downstream
sequence. These results suggest that the ToxR-binding site lies immed
iately upstream of the -35 position of the ctx promoter, and that the
affinity of ToxR binding to this site is influenced by the repeat sequ
ences.