EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DnaK, the sole Escherichia coli member of the highly conserved 70-kDa heat shock protein (HSP70) family of proteins, autophosphorylates when incubated with ATP in vitro. We show that threonine-199 is the amino acid that becomes phosphorylated and we demonstrate that threonine-199 is critical for the ATPase activity of DnaK. We also report that both the ATPase and autophosphorylating activities of DnaK increase very strongly over the range of temperatures that is physiologically relevant for E. coli growth. The temperature dependence of either or both of these activities could be of significance with respect to the postulated role of DnaK as a molecular chaperone in helping cells ameliorate the deleterious consequences of elevated temperature. Furthermore, we postulate that DnaK plays a key role in regulation of the heat shock response by serving as a cellular thermometer that directly senses the environmental temperature.
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PMID:DnaK as a thermometer: threonine-199 is site of autophosphorylation and is critical for ATPase activity. 183 85

A plasmid containing the human HSP70 gene was used to transfect and express the protein in Escherichia coli. The bacterial product was a fusion protein containing 640 amino acids of HSP70, plus 33 additional NH2 terminal amino acids; 12 from the bacterial expression vector and 21 from a 5' human sequence that is not normally translated. It was partially purified by ion-exchange and ATP-Sepharose affinity column chromatography. The bacterially produced human HSP70 protein was then compared with HSP70 obtained from cultured 293 cells. Both shared the same staphylococcal V8 protease peptide fragment pattern, ATP binding, and a weak ATPase activity (about 10-15 nmol ATP hydrolyzed per milligram protein per minute at 30 degrees C). The bacterially produced human HSP70 protein differed in its V8 protease pattern with an E. coli ATP-binding protein that corresponded in molecular mass to the E. coli dnaK gene product. Mutants in the human HSP70 gene were constructed which significantly reduced a predicted major alpha-helical domain in the HSP70 molecule that has partial homology to an ATP-binding site of several protein kinases. One HSP70 mutant clone contained a deletion of 20% at the NH2 terminus, and expressed a 57-kDa product, while the other was missing the middle 50% of the gene (40-kDa product). Neither protein fragment bound to an ATP affinity column, suggesting that ATP binding to HSP70 may be conformationally affected by a region about 20% internal to the NH2 terminal end of the molecule. Recently, a similar location of the ATP-binding site has been reported by Milarski and Morimoto (27).
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PMID:Isolation and characterization of human HSP70 expressed in Escherichia coli. 214 Dec 45

The HSP70 family of heat-shock proteins constitutes the major proteins synthesized in response to elevated temperatures and other forms of stress. In eukaryotes members of the HSP70 family also include a protein similar if not identical to bovine brain uncoating ATPase and glucose-regulated proteins. An intriguing relation has been established between expression of heat-shock proteins and transformation in mammalian cells. Elevated levels of HSP70 are found in some transformed cell lines, and viral and cellular gene products that are capable of transforming cells in vitro can also stimulate transcription of HSP70 genes. To determine the organization of this complex multigene family in the human genome, we used complementary approaches: Southern analysis and protein gels of Chinese hamster-human somatic cell hybrids, and in situ hybridization to human chromosomes. We demonstrate that functional genes encoding HSP70 proteins map to human chromosomes 6, 14, 21, and at least one other chromosome.
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PMID:Chromosomal location of human genes encoding major heat-shock protein HSP70. 347 Sep 51

HSP70 family proteins bind ATP and hydrolyze it, but the precise role of these activities in their in vivo chaperoning function has not been determined. In this report, we characterized wild-type hamster BiP isolated from bacteria in terms of its ATP binding and ATPase activities. Recombinant BiP behaved essentially the same as endogenous BiP in terms of oligomeric status, protease digestion patterns, and ATPase properties. By engineering a Factor Xa cleavable site following the His tag which was used for affinity purification, we demonstrated that the six histidines had no effect on either the structural or ATPase properties of recombinant BiP. We also found that bacteria-synthesized BiP had a tightly bound ADP that was resistant to dialysis. Removal of the bound nucleotide allowed us to directly measure the binding affinity of ATP and ADP to BiP (Kd of 0.2 microM for ATP and 0.29 microM for ADP) by equilibrium dialysis. Careful characterization of wild-type BiP will allow us to use this system to characterize BiP ATP binding site mutants that can be used to probe the role of ATP binding and ATPase activity in BiP functions.
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PMID:Characterization of the nucleotide binding properties and ATPase activity of recombinant hamster BiP purified from bacteria. 759 93

The isolation and characterization of a monoclonal antibody (MAb 2G5) specific for the bacterial DnaK (HSP70) protein is described. The 2G5 MAb was initially selected because of its ability to bind to DnaK under denaturing conditions. Isotype analyses indicated that 2G5 was an immunoglobulin G2a. Dose-response Western blot (immunoblot) experiments with purified but unconcentrated 2G5 permitted detection of 10 ng of pure DnaK protein. The DnaK epitope was determined by Western blot analysis of a series of truncated DnaK fragments overproduced in Escherichia coli using 5' and 3' dnaK-deleted expression plasmids. The epitope mapped to a 22-amino-acid region spanning DnaK residues 288 and 310. Phylogenetic distribution of the epitope was examined by Western blot analysis of a wide variety of bacterial species and indicated that the epitope was uniquely present in gram-negative organisms. The proximity of the epitope to the presumed DnaK ATP-binding pocket suggested that MAb binding might inhibit DnaK ATPase activity. In vitro analysis supported this prediction and demonstrated that MAb-mediated inhibition of ATPase activity was antibody specific and occurred at stoichiometric molar ratios of MAb to DnaK. Possible mechanisms to explain the ability of the 2G5 MAb to inhibit DnaK activity are discussed.
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PMID:Monoclonal antibody recognition and function of a DnaK (HSP70) epitope found in gram-negative bacteria. 769 95

In this study, the conservation of strong structural landmarks between all the members of two chaperone families (HSP60 and HSP70) was deduced from their sequences by hydrophobic cluster analysis. On this basis, we propose that the ATP-binding environment is maintained by a similar fold in both protein families. The observed similarities extend throughout the proteins, including both the ATPase domain and the C-terminal substrate-binding domain.
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PMID:Structural similarities between chaperone molecules of the HSP60 and HSP70 families deduced from hydrophobic cluster analysis. 790 49

We have purified a soluble rabbit reticulocyte protein, previously termed the supernatant factor, that reverses the inhibition of protein synthesis in hemin-deficient lysate by promoting the inactivation of the hemin-controlled eIF-2 alpha kinase (HCR) mediating the effect of hemin deficiency. We have identified the supernatant factor as a member of the heat shock protein 70 family, denoted hsp 70(R), based upon its size (72 kDa), specific reaction to a monoclonal antibody against eukaryotic hsp 70, strong binding affinity for ATP, and endogenous ATPase activity. We have investigated the role of hsp 70(R) and hemin in the regulation of the activation of HCR from its latent precursor (ProHCR) and the translational control of protein synthesis in rabbit reticulocyte lysate. We find that autophosphorylation of Pro-HCR is reduced by about 75% by adding saturating hsp 70(R) and almost completely reduced by adding either saturating hemin or limiting hemin plus limiting hsp 70(R). In contrast, autophosphorylation of HCR, which is similar in magnitude to that of ProHCR, is unaffected by adding either saturating hsp 70(R), saturating hemin, or limiting amounts of both. The activation of HCR (measured by inhibition of protein synthesis) from isolated ProHCR is completely prevented by hsp 70(R) in the presence, but not absence, of dithiothreitol. This suppression appears to be due to the association of hsp 70(R) with ProHCR, since hsp 70(R) action is prevented by ATP/Mg2+ and because activation of HCR from less purified ProHCR, that has associated hsp 70(R), is suppressed by dithiothreitol alone. This association is confirmed by sucrose gradient centrifugation, which shows co-sedimentation of some hsp 70(R) with ProHCR following preincubation together that is prevented by ATP/Mg2+ and does not occur after conversion of ProHCR to HCR. Limiting hsp 70(R) reduces the concentration of hemin required to prevent activation of HCR from isolated ProHCR from 0.75 to 0.15 microM and the optimal hemin concentration needed to maintain protein synthesis in reticulocyte lysate from 25 to 10 microM. Limiting hsp 70(R) also allows the delayed addition of hemin to suppress activation of HCR from ProHCR and to reverse inhibition of protein synthesis in hemin deficient lysate. The association of hsp 70(R) with ProHCR also underlies the observation that much more protein is synthesized in reticulocyte lysate in the absence of hemin at 25 degrees C than at temperatures of 30 degrees C or greater. These observed effects may be specific to hsp 70(R), since they are not observed with rabbit reticulocyte eIF-2 or eIF-2B, and since the comparable hsp 70 from bovine brain is incapable of maintaining or restoring protein synthesis in hemin-deficient lysate.
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PMID:Control of protein synthesis by hemin. Purification of a rabbit reticulocyte hsp 70 and characterization of its regulation of the activation of the hemin-controlled eIF-2(alpha) kinase. 791 18

The Escherichia coli heat shock proteins DnaK and DnaJ function cooperatively as molecular chaperones. Central to their biochemical functions is the ability of DnaJ to interact with DnaK and to stimulate its ATPase activity. Here, we report the genetic isolation of dnaJ12, which has a nonsense mutation at codon 109, yet was able to support lambda growth at 30 degrees C. The 12-kDa DnaJ12 protein was purified to homogeneity and shown to be active in an in vitro lambda-DNA replication system and to be capable of stimulating DnaK's ATPase activity, specifically at the step of ATP hydrolysis. The previously well studied and characterized dnaJ259 mutation was also cloned and sequenced, revealing a single His-->Gln amino acid change at codon 33. The purified DnaJ259 protein was inactive in an in vitro lambda-DNA replication system and was unable to stimulate DnaK's ATPase activity. Consistent with this, an NH2-terminal deletion of the first 34 amino acids or an Asp insertion at residue 35 of DnaJ resulted in a protein that completely lacked DnaJ activity. Collectively, these results demonstrate that the highly conserved NH2-terminal region of DnaJ, the so-called J region, is necessary and sufficient for stimulating both DnaK's ATPase activity and lambda-DNA replication. These results may be applicable to other eukaryotic proteins that contain this conserved J domain as proteins that interact and stimulate the hydrolysis of ATP by their cognate HSP70 proteins.
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PMID:The NH2-terminal 108 amino acids of the Escherichia coli DnaJ protein stimulate the ATPase activity of DnaK and are sufficient for lambda replication. 810 26

SHR (spontaneously hypertensive rat) is the most popular genetic hypertensive model rat. Using the F2 progeny obtained from SHR and normotensive rats, for example, WKY (Wistar-Kyoto rat), many cosegregation studies to find the genes responsible for blood pressure have been done. In this review, we present some studies using F2 rats concerning candidate genes, renin, kallikrein, sodium potassium-ATPase, heat shock protein 70, angiotensin converting enzyme, phospholipase C-delta 1 and SA gene to show whether these genes really associate with blood pressure. We discuss the signification of these genes in the process of producing SHR and stroke-prone SHR from WKY. We hope these studies will lead to identify the mechanism of human essential hypertension.
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PMID:[Cosegregation studies in spontaneously hypertensive rats]. 832 Aug 40

Heat shock protein (HSP) induction is only one change elicited in yeast by heat shock. Trehalose is also accumulated, while declining intracellular pH stimulates plasma membrane ATPase activity. Recently the trehalose induction was shown to be regulated by levels of HSP70 and, to a lesser extent, HSP104. Another HSP which might contribute to regulation is HSP90, especially as HSP90 forms complexes with heat shock transcription factor and several of the regulatory proteins of eukaryotic cells. This possibility was investigated using isogenic yeast strains with normal, decreased or elevated HSP90. The results show HSP90 levels having a small negative influence over the heat inductions of trehalose and the heat shock element, a minor effect compared with the major regulation exerted by HSP70.
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PMID:A small influence of HSP90 levels on the trehalose and heat shock element inductions of the yeast heat shock response. 836 1

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