The DnaK chaperone system of Escherichia coli: quaternary structures and interactions of the DnaK and GrpE components
- PMID: 7836448
- DOI: 10.1074/jbc.270.5.2183
The DnaK chaperone system of Escherichia coli: quaternary structures and interactions of the DnaK and GrpE components
Abstract
The DnaK (Hsp70), DnaJ, and GrpE heat shock proteins of Escherichia coli constitute a cellular chaperone system for protein folding. Substrate interactions are controlled by the ATPase activity of DnaK which itself is regulated by the nucleotide exchange factor GrpE. To understand the structure-function relationship of this chaperone system, the quaternary structures of DnaK, GrpE, and DnaK-GrpE complexes were analyzed by gel filtration chromatography, dynamic light scattering, analytical ultracentrifugation, and native gel electrophoresis. GrpE formed dimers in solution. DnaK formed monomers, dimers, and higher mole mass oligomers, the equilibrium between these forms being dependent on the DnaK concentration. The behavior of DnaK and GrpE in gel filtration and dynamic light scattering suggested elongated shapes of both molecules. In the absence of added nucleotides, DnaK and GrpE formed stable complexes containing one molecule of DnaK and two molecules of GrpE. A 44-kDa N-terminal ATPase fragment of DnaK also formed complexes with GrpE with the same 1:2 stoichiometry. DnaK-GrpE complex formation was unaffected by elimination of DnaK-bound nucleotides or addition of saturating concentrations of a DnaK peptide substrate. These findings allow the correlation of DnaK-GrpE interactions with a role for GrpE in the functional cycle of the DnaK chaperone system.
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