Abstract
A family of variants of the PRM promoter of lambda phage was constructed, bearing nine base pair substitutions in a stretch of the spacer DNA separating the contacted -10 and -35 regions. The substituted sequences were chosen for their potential to adopt structures different from those of average B-form DNA and thus to affect the interaction of RNA polymerase with the two contacted regions. Characterization of the promoters in vitro and in vivo provides additional support for the lack of specific contacts in the substituted spacer region and shows that a small change in the relative rotational orientation of the -10 and -35 regions is inconsequential to promoter function. However, a 2-3-fold reduction in promoter activity is observed with promoters bearing substitutions of nonalternating dG-dC base pairs in either orientation. This corroborates other studies indicating the anomalous behavior of such sequences and suggests that the structure of the spacer DNA can modulate promoter recognition.
Published Version
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