Check out our latest work in the International Journal of Molecular Sciences

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Key Points:

• Previously unreported allosteric regulation of Mycobacterium tuberculosis ClpC1 by ClpS.

• Unlike in homologous organisms (E. coli ClpA:ClpS), this interaction only inhibits ClpC1 instead of ceasing activity.

• The N-terminal domain (NTD) of ClpC1 is not required for regulation by ClpS

Abstract:

ClpC1 hexamers couple the energy of ATP hydrolysis to unfold and, subsequently, translocate specific protein substrates into the associated ClpP protease. Substrate recognition by ATPases associated with various cellular activities (AAA+) proteases is driven by the ATPase component, which selectively determines protein substrates to be degraded. The specificity of these unfoldases for protein substrates is often controlled by an adaptor protein with examples that include MecA regulation of Bacillus subtilis ClpC or ClpS-mediated control of Escherichia coli ClpA. No adaptor protein-mediated control has been reported for mycobacterial ClpC1. Using pulldown and stopped-flow fluorescence methods, we report data demonstrating that Mycobacterium tuberculosis ClpC1 catalyzed unfolding of an SsrA-tagged protein is negatively impacted by association with the ClpS adaptor protein. Our data indicate that ClpS-dependent inhibition of ClpC1 catalyzed SsrA-dependent protein unfolding does not require the ClpC1 N-terminal domain but instead requires the presence of an interaction surface located in the ClpC1 Middle Domain. Taken together, our results demonstrate for the first time that mycobacterial ClpC1 is subject to adaptor protein-mediated regulation in vitro. 

see below for the figure summary of the work