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RSS FeedsElectrostatic interactions between middle domain motif-1 and the AAA1 module of the bacterial ClpB chaperone are essential for protein disaggregation [Enzymology] (Journal of Biological Chemistry)

 
 

16 december 2018 08:00:35

 
Electrostatic interactions between middle domain motif-1 and the AAA1 module of the bacterial ClpB chaperone are essential for protein disaggregation [Enzymology] (Journal of Biological Chemistry)
 


ClpB, a bacterial homologue of heat shock protein 104 (Hsp104), can disentangle aggregated proteins with the help of the DnaK, a bacterial Hsp70, and its co-factors. As a member of the expanded superfamily of ATPases associated with diverse cellular activities (AAA+), ClpB forms a hexameric ring structure, with each protomer containing two AAA+ modules, AAA1 and AAA2. A long coiled-coil middle domain (MD) is present in the C-terminal region of the AAA1 and surrounds the main body of the ring. The MD is subdivided into two oppositely directed short coiled-coils, called motif-1 and motif-2. The MD represses the ATPase activity of ClpB, and this repression is reversed by the binding of DnaK to motif-2. To better understand how the MD regulates ClpB activity, here we investigated the roles of motif-1 in ClpB from Thermus thermophilus (TClpB). Using systematic alanine substitution of the conserved charged residues, we identified functionally important residues in motif-1, and using a photoreactive cross-linker and LC-MS/MS analysis, we further explored potential interacting residues. Moreover, we constructed TClpB mutants in which functionally important residues in motif-1 and in other candidate regions were substituted by oppositely charged residues. These analyses revealed that the intra-subunit pair Glu-401-Arg-532 and the inter-subunit pair Asp-404-Arg-180 are functionally important, electrostatically interacting pairs. Considering these structural findings, we conclude that the Glu-401-Arg-532 interaction shifts the equilibrium of the MD conformation to stabilize the activated form and that the Arg-180-Asp-404 interaction contributes to intersubunit signal transduction, essential for ClpB chaperone activities.


 
57 viewsCategory: Biochemistry
 
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