Edward F. Keen scite author profile

In Escherichia coli, Rob activates transcription of the SoxRS/MarA/Rob regulon. Previous work revealed that Rob resides in 3-4 immunostainable foci, that dipyridyl and bile salts are inducers of its activity, and that inducers bind to Rob's C-terminal domain (CTD). We propose that sequestration inactivates Rob by blocking its access to the transcriptional machinery and that inducers activate Rob by mediating its dispersal, allowing interaction with RNA polymerase. To test "sequestrationdispersal" as a new mechanism for regulating the activity of transcriptional activators, we fused Rob's CTD to SoxS and used indirect immunofluorescence microscopy to determine the effect of inducers on SoxS-Rob's cellular localization. Unlike native SoxS, which is uniformly distributed throughout the cell, SoxS-Rob is sequestered without inducer, but is rapidly dispersed when cells are treated with inducer. In this manner, Rob's CTD serves as an anti-sigma factor in regulating the co-sigma factor-like activity of SoxS when fused to it. Rob's CTD also protects its N-terminus from Lon protease, since Lon's normally rapid degradation of SoxS is blocked in the chimera. Accordingly, Rob's CTD has novel regulatory properties that can be bestowed on another E. coli protein.

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Transcription Activation by Escherichia coli Rob at Class II Promoters: Protein–Protein Interactions between Rob's N-Terminal Domain and the σ70 Subunit of RNA Polymerase

Taliaferro¹,

Keen²,

Sanchez-Alberola³

et al. 2012

Journal of Molecular Biology

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Edward F. Keen

Two Functions of the C-Terminal Domain of Escherichia coli Rob: Mediating “Sequestration–Dispersal” as a Novel Off–On Switch for Regulating Rob’s Activity as a Transcription Activator and Preventing Degradation of Rob by Lon Protease

Transcription Activation by Escherichia coli Rob at Class II Promoters: Protein–Protein Interactions between Rob's N-Terminal Domain and the σ70 Subunit of RNA Polymerase

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