A Bacterial Control Circuit Integrates Polar Localization and Proteolysis of Key Regulatory Proteins with a Phospho-Signaling Cascade

Dynamic protein localization is an integral component of the regulatory circuit that drives the Caulobacter cell cycle. The ClpXP protease is localized to the Caulobacter cell pole, where it catalyzes the degradation of the CtrA master regulator at specific times in the cell cycle. Clearance of acti...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2008-10, Vol.105 (43), p.16602-16607
Main Authors: Iniesta, Antonio A., Shapiro, Lucy
Format: Article
Language:English
Subjects:
Bacteria
Bacterial Proteins - metabolism
Biological Sciences
Caulobacter
Cell Cycle
Cell cycle proteins
Cells
Deoxyribonucleic acid
DNA
DNA replication
Endopeptidase Clp - metabolism
Geodetic position
Perceptual localization
Phosphorylation
Plasmids
Proteases
Proteins
Regulator genes
Signal Transduction
Systems Biology
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Summary:Dynamic protein localization is an integral component of the regulatory circuit that drives the Caulobacter cell cycle. The ClpXP protease is localized to the Caulobacter cell pole, where it catalyzes the degradation of the CtrA master regulator at specific times in the cell cycle. Clearance of active CtrA at the G1/S transition allows the initiation of DNA replication and cell-cycle progression. The polar localization of ClpXP is dependent on the polar positioning of the CpdR single-domain response regulator. Only the unphosphorylated form of CpdR localizes and activates ClpXP. We demonstrate that another single domain response regulator, DivK, promotes the polar accumulation of unphosphorylated CpdR and that CpdR is subsequently degraded at the cell pole by the localized ClpXP protease. Thus, CpdR function is regulated by a feedback loop that incorporates its differential phosphorylation, the transient polar localization and activity of the ClpXP protease, and the clearance of the CpdR by polar ClpXP that, in turn, releases ClpXP from the pole relieving the degradation of CtrA. CtrA∼P then accumulates and activates the transcription of cpdR, completing the regulatory loop, establishing an integrated network that controls a robust cell-cycle transition.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0808807105