Direct interactions between the coiled-coil tip of DksA and the trigger loop of RNA polymerase mediate transcriptional regulation
- Christopher W. Lennon1,
- Wilma Ross1,
- Stephen Martin-Tumasz2,
- Innokenti Toulokhonov1,
- Catherine E. Vrentas1,
- Steven T. Rutherford1,
- Jeong-Hyun Lee1,
- Samuel E. Butcher2 and
- Richard L. Gourse1,3
- 1Department of Bacteriology, University of Wisconsin at Madison, Madison, Wisconsin 53706, USA;
- 2Department of Biochemistry, University of Wisconsin at Madison, Madison, Wisconsin 53706, USA
Abstract
Escherichia coli DksA is a transcription factor that binds to RNA polymerase (RNAP) without binding to DNA, destabilizing RNAP–promoter interactions, sensitizing RNAP to the global regulator ppGpp, and regulating transcription of several hundred target genes, including those encoding rRNA. Previously, we described promoter sequences and kinetic properties that account for DksA's promoter specificity, but how DksA exerts its effects on RNAP has remained unclear. To better understand DksA's mechanism of action, we incorporated benzoyl-phenylalanine at specific positions in DksA and mapped its cross-links to RNAP, constraining computational docking of the two proteins. The resulting evidence-based model of the DksA–RNAP complex as well as additional genetic and biochemical approaches confirmed that DksA binds to the RNAP secondary channel, defined the orientation of DksA in the channel, and predicted a network of DksA interactions with RNAP that includes the rim helices and the mobile trigger loop (TL) domain. Engineered cysteine substitutions in the TL and DksA coiled-coil tip generated a disulfide bond between them, and the interacting residues were absolutely required for DksA function. We suggest that DksA traps the TL in a conformation that destabilizes promoter complexes, an interaction explaining the requirement for the DksA tip and its effects on transcription.
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Footnotes
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↵3 Corresponding author.
E-mail rgourse{at}bact.wisc.edu
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Supplemental material is available for this article.
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Article is online at http://www.genesdev.org/cgi/doi/10.1101/gad.204693.112.
- Received August 29, 2012.
- Accepted October 10, 2012.
- Copyright © 2012 by Cold Spring Harbor Laboratory Press