Abstract
The conserved, ATP-dependent bacterial DnaK chaperones process client substrates with the aid of the co-chaperones DnaJ and GrpE. However, in the absence of structural information, how these proteins communicate with each other cannot be fully delineated. For the study reported here, we solved the crystal structure of a full-length Geobacillus kaustophilus HTA426 GrpE homodimer in complex with a nearly full-length G. kaustophilus HTA426 DnaK that contains the interdomain linker (acting as a pseudo-substrate), and the N-terminal nucleotide-binding and C-terminal substrate-binding domains at 4.1-Å resolution. Each complex contains two DnaKs and two GrpEs, which is a stoichiometry that has not been found before. The long N-terminal GrpE α-helices stabilize the linker of DnaK in the complex. Furthermore, interactions between the DnaK substrate-binding domain and the N-terminal disordered region of GrpE may accelerate substrate release from DnaK. These findings provide molecular mechanisms for substrate binding, processing, and release during the Hsp70 chaperone cycle.
Highlights
The Hsp70 chaperone cycle mediates stress-denatured protein refolding
We present the structure of a DnaK-GrpE complex containing the DnaK interdomain linker and substrate-binding domain
There are two GkDnaK-GkGrpE complexes per asymmetric unit, and the interdomain linker in GkDnaK interacts with the substrate-binding site in a neighboring complex
Summary
Results: We present the structure of a DnaK-GrpE complex containing the DnaK interdomain linker and substrate-binding domain. Interactions between the DnaK substrate-binding domain and the N-terminal disordered region of GrpE may accelerate substrate release from DnaK. These findings provide molecular mechanisms for substrate binding, processing, and release during the Hsp chaperone cycle. The structure of the complex suggests two possible modes of interaction between GkDnaK and GkGrpE during the nucleotide exchange step, and it offers insights into how the long GrpE ␣-helices and interaction between the DnaK lid domain and the N-terminal disordered region of GrpE affect the chaperone cycle
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