Deletion analysis of the C-terminal region of a molecular chaperone DnaK from Bacillus licheniformis

Liang, Wan-Chi; Lin, Min-Guan; Chi, Meng-Chun; Hu, Hui-Yu; Lo, Huei-Fen; Chang, Hui-Ping; Lin, Long-Liu

doi:10.1007/s00203-009-0485-8

Cited by 8 publications

(7 citation statements)

References 45 publications

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“…The overlapping complementary primers (Table 1) were designed to introduce the single point mutations at residues Phe 120 , Phe 174 , Phe 186 , Phe 378 and Phe 396 of BlDnaK in the plasmid pQE-BlDnaK [11]. Mutations were verified by DNA sequencing with dye terminator cycle sequencing kit and an automatic Perkin Elmer ABI Prism DNA sequencer.…”

Section: Site-directed Mutagenesismentioning

confidence: 99%

“…Earlier, a recombinant Bacillus licheniformis DnaK (BlDnaK) was functionally expressed in E. coli M15 cells and allowed a heat sensitive strain (dnaK756-ts) to grow at the stringent temperature [11]. In the primary sequence of BlDnaK, the putative ATPase domain is located at the amino-terminal 364 residues and a putative SBD is spanned by residues 373-488, but the function of the carboxyl-terminal 134 residues remains to be elucidated.…”

Section: Introductionmentioning

confidence: 99%

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Introduction of a unique tryptophan residue into various positions of Bacillus licheniformis DnaK

Chen

Lin

et al. 2013

International Journal of Biological Macromolecules

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Section: Site-directed Mutagenesismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Introduction of a unique tryptophan residue into various positions of Bacillus licheniformis DnaK

Chen

Lin

et al. 2013

International Journal of Biological Macromolecules

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“…Mutations were introduced into pQE-Bl DnaK plasmid [Liang et al, 2009] using the QuikChange II site-directed mutagenesis kit according to the manufacturer's protocol. Two overlapping complementary primers containing the desired nucleotide changes were designed for each mutation ( table 3 ).…”

Section: Site-directed Mutagenesismentioning

confidence: 99%

“…licheniformis DnaJ ( Bl DnaJ) and GrpE ( Bl grpE) were expressed and purified as described elsewhere [Liang et al, 2009].…”

Section: Expression and Purification Of Wild-type And Mutant Proteinsmentioning

confidence: 99%

“…Earlier, a recombinant Bacillus licheniformis DnaK ( Bl DnaK) was expressed in E. coli cells and allowed a dnakK756-ts mutant to grow at the stringent temperature [Liang et al, 2009]. Within the 622-residue sequence of Bl DnaK, the ATPase domain is located in the amino-terminal 364 residues, a SBD is spanned by residues 373-488, and the function of the carboxyl-terminal 134 residues remains unclear.…”

Section: Introductionmentioning

confidence: 99%

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Involvement of Residues Asp8, Asn13, Glu145, Asp168, and Thr173 in the Chaperone Activity of a Recombinant DnaK from <i>Bacillus licheniformis</i>

et al. 2011

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Based on the sequence homology, we have modeled the three-dimensional structure of Bacillus licheniformis DnaK (BlDnaK), a counterpart of Hsp70, and identified five different amino acids that might be responsible for maintaining ADP-Mg²⁺-Pi in the correct configuration at the ATP-binding cleft of the protein. As compared with wild-type BlDnaK, site-directed mutant proteins D8A, N13D, E145A, D168A, and T173A had a dramatic reduction in their chaperone activities. Complementation test revealed that the mutant proteins lost completely the ability to rescue the temperature-sensitive growth defect of Escherichia colidnaK756-ts. Wild-type BlDnak assisted the refolding of denatured firefly luciferase, whereas a significant decrease in this ability was observed for the mutant proteins. Simultaneous addition of B. licheniformis DnaJ, BlGrpE, and NR-peptide, did not synergistically stimulate the ATPase activity of D8A, E145A, D168A and T173A. Circular dichroism spectra were nearly identical for wild-type and mutant proteins, and they, except D8A, also exhibited a similar sensitivity towards temperature-induced denaturation. These results suggest that the selected residues are critical for the proper function of BlDnaK.

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Fine Tuning of a Biological Machine: DnaK Gains Improved Chaperone Activity by Altered Allosteric Communication and Substrate Binding

et al. 2011

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DnaK is a member of the Hsp70 family of molecular chaperones. This molecular machine couples the binding and hydrolysis of ATP to binding and release of substrate proteins. The switches that are involved in allosteric communication within this multidomain protein are mostly unknown. Previous insights were largely obtained by mutants, which displayed either wild-type activity or reduced folding assistance of substrate proteins. With a directed evolution approach for improved folding assistance we selected a DnaK variant characterized by a glycine to alanine substitution at position 384 (G384A); this resulted in a 2.5-fold higher chaperone activity in an in vitro DnaK-assisted firefly luciferase refolding assay. Quantitative biochemical characterization revealed several changes of key kinetic parameters compared to the wild type. Most pronounced is a 13-fold reduced rate constant for substrate release in the ATP-bound state, which we assume, in conjunction with the resulting increase in substrate affinity, to be related to improved chaperone activity. As the underlying mechanistic reason for this change we propose an altered interface of allosteric communication of mutant G384A, which is notably located at a hinge position between nucleotide and substrate binding domain.

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Deletion analysis of the C-terminal region of a molecular chaperone DnaK from Bacillus licheniformis

Cited by 8 publications

References 45 publications

Introduction of a unique tryptophan residue into various positions of Bacillus licheniformis DnaK

Introduction of a unique tryptophan residue into various positions of Bacillus licheniformis DnaK

Involvement of Residues Asp8, Asn13, Glu145, Asp168, and Thr173 in the Chaperone Activity of a Recombinant DnaK from <i>Bacillus licheniformis</i>

Fine Tuning of a Biological Machine: DnaK Gains Improved Chaperone Activity by Altered Allosteric Communication and Substrate Binding

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