Interplay between σ region 3.2 and secondary channel factors during promoter escape by bacterial RNA polymerase.

In bacterial RNA polymerase (RNAP), conserved region 3.2 of the σ subunit was proposed to contribute to promoter escape by interacting with the 5'-end of nascent RNA, thus facilitating σ dissociation. RNAP activity during transcription initiation can also be modulated by protein factors that bind within the secondary channel and reach the enzyme active site. To monitor the kinetics of promoter escape in real time, we used a molecular beacon assay with fluorescently labeled σ ⁷⁰ subunit of Escherichia coli RNAP. We show that substitutions and deletions in σ region 3.2 decrease the rate of promoter escape and lead to accumulation of inactive complexes during transcription initiation. Secondary channel factors differentially regulate this process depending on the promoter and mutations in σ region 3.2. GreA generally increase the rate of promoter escape; DksA also stimulates promoter escape on certain templates, while GreB either stimulates or inhibits this process depending on the template. When observed, the stimulation of promoter escape correlates with the accumulation of stressed transcription complexes with scrunched DNA, while changes in the RNA 5'-end structure modulate promoter clearance. Thus, the initiation-to-elongation transition is controlled by a complex interplay between RNAP-binding protein factors and the growing RNA chain.
(© 2017 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society.)