Escherichia coli DnaJ and GrpE heat shock proteins jointly stimulate ATPase activity of DnaK.

Liberek, Krzysztof; Marszałek, Jarosław; Áng, D. D.; Georgopoulos, Costa; Żylicz, Maciej

doi:10.1073/pnas.88.7.2874

Cited by 808 publications

(696 citation statements)

References 28 publications

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“…4). A wide range of values have been reported for the basal ATPase activity of EcDnaK with V max values ranging from 0.43 to 3.5 nmol Pi/min and K M values ranging from 20 nM to 20 μM ATP [6,40,41].…”

Section: Properties Of Bldnakmentioning

confidence: 99%

“…The molecular chaperone function of Hsp70/DnaK proteins seems to be based on its ATPase activity and this activity is stimulated by Hsp40/ DnaJ, GrpE and substrate binding [6]. The chaperone activity of Hsp70/DnaK proteins is dependent on a close interaction between the substrate-binding domain and the ATPase domain.…”

Section: Introductionmentioning

confidence: 99%

“…The ATPase activity is regulated by the co-chaperone protein DnaJ [7,8]. The DnaJ proteins stimulate the low basal ATP hydrolysis activity of partner Hsp70s/DnaKs [6,9] and in doing so enhance the Hsp70s/Dnaks substrate-binding activity and hence their chaperone activity.…”

Section: Introductionmentioning

confidence: 99%

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A 70-kDa molecular chaperone, DnaK, from the industrial bacterium Bacillus licheniformis: gene cloning, purification and molecular characterization of the recombinant protein

et al. 2009

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The heat shock protein 70 (Hsp70/DnaK) gene of Bacillus licheniformis is 1,839 bp in length encoding a polypeptide of 612 amino acid residues. The deduced amino acid sequence of the gene shares high sequence identity with other Hsp70/DnaK proteins. The characteristic domains typical for Hsps/DnaKs are also well conserved in B. licheniformis DnaK (BlDnaK). BlDnaK was overexpressed in Escherichia coli using pQE expression system and the recombinant protein was purifi ed to homogeneity by nickel-chelate chromatography. The optimal temperature for ATPase activity of the purifi ed BlDnaK was 40°C in the presence of 100 mM KCl. The purifi ed BlDnaK had a V max of 32.5 nmol Pi/min and a K M of 439 μM. In vivo, the dnaK gene allowed an E. coli dnaK756-ts mutant to grow at 44°C, suggesting that BlDnaK should be functional for survival of host cells under environmental changes especially higher temperature. We also described the use of circular dichroism to characterize the conformation change induced by ATP binding. Binding of ATP was not accompanied by a net change in secondary structure, but ATP together with Mg 2+ and K + ions had a greater enhancement in the stability of BlDnaK at stress temperatures. Simultaneous addition of DnaJ, GrpE, and NR-peptide (NRLLLTG) synergistically stimulates the ATPase activity of BlDnaK by 11.7-fold.

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Section: Properties Of Bldnakmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A 70-kDa molecular chaperone, DnaK, from the industrial bacterium Bacillus licheniformis: gene cloning, purification and molecular characterization of the recombinant protein

et al. 2009

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“…Under physiological conditions of high ATP concentration, nucleotide exchange is rate limiting for substrate release. Nucleotide exchange of DnaK, however, is slow but stimulated 5000-fold by the nucleotide exchange factor GrpE (Liberek et al 1991;Packschies et al 1997;Brehmer et al 2004). The currently accepted mechanism for DnaK-assisted refolding of a denatured protein assumes that a misfolded protein substrate (e.g.…”

Section: Introductionmentioning

confidence: 99%

The Hsp70 chaperone system maintains high concentrations of active proteins and suppresses ATP consumption during heat shock

Tomita

2007

Syst Synth Biol

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Hsp70 chaperones assist protein folding by cycling between the ATP-bound T state with low affinity for substrates and the ADP-bound R state with high affinity for substrates. The transition from the T to R state is catalyzed by the synergistic action of the substrate and DnaJ cochaperones. The reverse transition from the R state to the T state is accelerated by the nucleotide exchange factor GrpE. These two processes, T-to-R and R-to-T conversion, are affected differently by temperature change. Here we modeled Hsp70-mediated protein folding under permanent and transient heat shock based on published experimental data. Our simulation results were in agreement with in vitro wild-type Escherichia coli chaperone experimental data at 25°C and reflected R-to-T ratio dynamics in response to temperature effects. Our simulation results suggested that the chaperone system evolved naturally to maintain the concentration of active protein as high as possible during heat shock, even at the cost of recovered activity after return to optimal growth conditions. They also revealed that the chaperone system evolved to suppress ATP consumption at non-optimal high growing temperatures.

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“…The high conservation of Hsp70 homologues throughout evolution is thought to help maintain their function as molecular chaperones in such diverse cellular reactions as protein folding, hormone receptor function, proteolysis and protein translocation. Central to the function of Hsp70 homologues as molecular chaperones is a weak ATPase activity which at least in the case of DnaK is accelerated about 50-fold by the concerted effort of the heat shock proteins DnaJ and GrpE [3]. Furthermore, DnaJ and GrpE appear to regulate the ability of DnaK to bind unfolded proteins and release them in an ATP-dependent manner and together they comprise a 'chaperone machine' which, in one form or the other, may operate in all compartments of eukaryotic cells.…”

Section: Introductionmentioning

confidence: 99%

Isolation and characterisation of a cDNA encoding rat mitochondrial GrpE, a stress‐inducible nucleotide‐exchange factor of ubiquitous appearance in mammalian organs

1996

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In contrast to the E. coli chaperones DnaK, GroEL and GroES, cDNAs encoding mitochondrial homologues of DnaJ and GrpE from higher eukaryotes have yet to be reported. Based on peptide sequences, we have isolated a cDNA encoding a 217 residue nuclear encoded precursor of rat mitochondrial GrpE (mt-GrpE) including a typical mitochondrial presequence of 27 residues. Western blotting revealed that the 21 kDa GrpE homologue is present exclusively in the mitochondrial fraction where it comprises only ~ 0.03% of the total soluble protein, while Northern blotting showed that the mt-GrpE transcript is present in most if not all organs. By contrast to other mitochondrial chaperones, the levels of mt-GrpE and its transcript in cultured cells are only marginally increased in response to the proline analog L-azetidine 2-carboxylic acid but not by heat shock. Furthermore, members of the GrpE family exhibit a much lower degree of sequence identity than do the well studied members of the Hsp70, Hsp60 and Hspl0 families.

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Escherichia coli DnaJ and GrpE heat shock proteins jointly stimulate ATPase activity of DnaK.

Cited by 808 publications

References 28 publications

A 70-kDa molecular chaperone, DnaK, from the industrial bacterium Bacillus licheniformis: gene cloning, purification and molecular characterization of the recombinant protein

A 70-kDa molecular chaperone, DnaK, from the industrial bacterium Bacillus licheniformis: gene cloning, purification and molecular characterization of the recombinant protein

The Hsp70 chaperone system maintains high concentrations of active proteins and suppresses ATP consumption during heat shock

Isolation and characterisation of a cDNA encoding rat mitochondrial GrpE, a stress‐inducible nucleotide‐exchange factor of ubiquitous appearance in mammalian organs

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