Operator Sequence Alters Gene Expression Independently of Transcription Factor Occupancy in Bacteria

SummaryA canonical quantitative view of transcriptional regulation holds that the only role of operator sequence is to set the probability of transcription factor binding, with operator occupancy determining the level of gene expression. In this work, we test this idea by characterizing repression in vivo and the binding of RNA polymerase in vitro in experiments where operators of various sequences were placed either upstream or downstream from the promoter in Escherichia coli. Surprisingly, we find that operators with a weaker binding affinity can yield higher repression levels than stronger operators. Repressor bound to upstream operators modulates promoter escape, and the magnitude of this modulation is not correlated with the repressor-operator binding affinity. This suggests that operator sequences may modulate transcription by altering the nature of the interaction of the bound transcription factor with the transcriptional machinery, implying a new layer of sequence dependence that must be confronted in the quantitative understanding of gene expression.

Graphical AbstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Location of lac repressor binding site determines mechanism of repression ► For upstream binding, stronger binding sites lead to lower levels of repression ► Operator sequence can modulate the interaction between repressor and RNAP