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)

In all eukaryotes examined so far, hsp70 gene families include cognate genes (hsc70) encoding proteins of about 70 Kd which are expressed constitutively during normal growth and development. We have investigated the structural relationship of heat-inducible and cognate members of the human hsp70 gene family. Among several human genomic clones isolated using Drosophila hsp/hsc70 probes, one contained an hsc70 gene. Its complete sequence is reported here. It is split by eight introns and encodes a predicted protein of 70899 d that would be 81% homologous to hsp70. Structural comparisons with corresponding genes from other species provide one of the most striking examples of gene conservation. Isolation of a corresponding cDNA clone, RNA-mapping and in vitro translation data demonstrate that the gene is expressed constitutively and directs the synthesis of a 71 kd protein. The latter is very likely to be identical to a clathrin uncoating ATPase recently identified as a member of the hsp70-like protein family.
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PMID:Structure and expression of a human gene coding for a 71 kd heat shock 'cognate' protein. 303 89

hsp70 proteins of both eukaryotes and prokaryotes possess both ATPase and peptide binding activities. These two activities are crucial for the chaperone activity of hsp70 proteins. The activity of DnaK, the primary hsp70 of Escherichia coli, is modulated by the GrpE and DnaJ proteins. In the yeast Saccharomyces cerevisiae, the predominant cytosolic hsp70, Ssa1p, interacts with a DnaJ homologue, Ydj1p. In order to better understand the function of the Ssa1p/Ydj1p chaperone, the effects of polypeptide substrates and Ydj1p on Ssa1p ATPase activity were assessed using a combination of steady-state kinetic analysis and single turnover substrate hydrolysis experiments. Polypeptide substrates and Ydj1p both serve to stimulate ATPase activity of Ssa1p. The two types of effector are biochemically distinct, each conferring a characteristic K+ dependence on Ssa1p ATPase activity. However, in single turnover ATP hydrolysis experiments, both polypeptide substrates and Ydj1p destabilized the ATP.Ssa1p complex through a combination of accelerated hydrolysis of bound ATP and accelerated release of ATP from Ssa1p. The acceleration of ATP release by Ydj1p is a previously unidentified function of a DnaJ homologue. In the case of Ydj1p-stimulated Ssa1p, steady-state ATPase activity is increased less than 2-fold at physiological K+ concentrations, despite a 15-fold increase in the hydrolysis of bound ATP. The primary effect of Ydj1p appears to be to disfavor an ATP form of Ssa1p. On the other hand, peptide stimulation of Ssa1p ATPase activity was enhanced at physiological K+ concentrations, supporting the idea that cycles of ATP hydrolysis play an important role in the interaction of hsp70 with polypeptide substrates. The enhanced ATP dissociation caused by both polypeptide substrates and Ydj1p may play a role in the regulation of Ssa1p chaperone activity by altering the relative abundance of ATP-and ADP-bound forms.
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PMID:The dissociation of ATP from hsp70 of Saccharomyces cerevisiae is stimulated by both Ydj1p and peptide substrates. 773 74

The import of preproteins into mitochondria involves translocation of the polypeptide chains through putative channels in the outer and inner membranes. Preprotein-binding proteins are needed to drive the unidirectional translocation of the precursor polypeptides. Two of these preprotein-binding proteins are the peripheral inner membrane protein MIM44 and the matrix heat shock protein hsp70. We report here that MIM44 is mainly exposed on the matrix side, and a fraction of mt-hsp70 is reversibly bound to the inner membrane. Mt-hsp70 binds to MIM44 in a 1:1 ratio, suggesting that mt-hsp70 is localizing to the membrane via its interaction with MIM44. Formation of the complex requires a functional ATPase domain of mt-hsp70. Addition of Mg-ATP leads to dissociation of the complex. Overexpression of mt-hsp70 rescues the protein import defect of mutants in MIM44; conversely, overexpression of MIM44 rescues protein import defects of mt-hsp70 mutants. In addition, yeast strains with conditional mutations in both MIM44 and mt-hsp70 are barely viable, showing a synthetic growth defect compared to strains carrying single mutations. We propose that MIM44 and mt-hsp70 cooperate in translocation of preproteins. By binding to MIM44, mt-hsp70 is recruited at the protein import sites of the inner membrane, and preproteins arriving at MIM44 may be directly handed over to mt-hsp70.
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PMID:Mitochondrial protein import: biochemical and genetic evidence for interaction of matrix hsp70 and the inner membrane protein MIM44. 779 11

Previous studies have demonstrated that the Escherichia coli DnaK, DnaJ, and GrpE heat shock proteins participate in the initiation of bacteriophage lambda DNA replication by mediating the required disassembly of a preinitiation nucleoprotein structure that is formed at the phage replication origin. To gain some understanding in a simpler system of how the DnaJ and GrpE cochaperonins influence the activity of DnaK, we have examined the effect of the cochaperonins on the weak intrinsic ATPase activity of the molecular chaperone DnaK in the presence and absence of peptide effectors. We have found that random sequence peptide chains of 8 or 9 amino acid residues in length yield optimal (10-fold) activation of the DnaK ATPase, whereas peptides with 5 or fewer residues fail to stimulate the ATPase of this bacterial hsp70 homologue. Furthermore, we have discovered that those peptides that interact best with DnaK, as judged by their KA as activators of ATP hydrolysis by DnaK, also act as strong inhibitors of lambda DNA replication in vitro. The inhibitory effect of peptides on lambda DNA replication was overcome by increasing the concentration of DnaK in the replication system. Diminished inhibition was also found when the replication system was supplemented with GrpE cochaperonin, a protein known to increase the effectiveness of DnaK action in lambda DNA replication. These and other results suggest that the peptide-binding site of DnaK is required for its function in lambda DNA replication. Apparently, peptides sequester free DnaK protein and block lambda DNA replication by reducing the amount of DnaK that is free to mediate disassembly of nucleoprotein preinitiation structures. In related studies, we have found that DnaJ, like short peptides, activates the intrinsic ATPase activity of DnaK. DnaJ, however, is substantially more potent in this regard, since it activates DnaK at concentrations 1000-fold below those required for a peptide of random sequence. By itself, the GrpE cochaperonin has no effect on the peptide-independent ATPase activity of DnaK, but GrpE does vigorously stimulate the peptide-dependent ATPase of the DnaK chaperone. Under steady-state conditions, the Vmax of ATP hydrolysis by DnaK was elevated approximately 40-fold by the presence of GrpE and saturating levels of peptides.
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PMID:Modulation of the ATPase activity of the molecular chaperone DnaK by peptides and the DnaJ and GrpE heat shock proteins. 787 26

We have recently shown that the N-terminal ATPase fragment of hsp70 (1-375, composed of domains I and II) as well as the subsequent domain III (376-520) may share three-dimensional similarities with hsp60. In this study, we propose that domain III, common to the hsp60s and hsp70s is also found in the hsp90s and adopts a beta-alpha-beta Rossmann-folded structure which is encountered in the NAD-binding domain of dehydrogenases. Consequently, with the help of the domain IV (in hsp70s and hsp90s) or of hsp10/GroES (in hsp60s) and possibly that of auxilliary partners, the hsp molecules could act as "unfoldases" or "reset systems" by disrupting secondary structures through redox reactions on the main polypeptidic chain with which they interact. The models built on this hypothesis may open up a new way for understanding the chaperone functions within the folding/unfolding processes.
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PMID:Redox mechanism for the chaperone activity of heat shock proteins HSPs 60, 70 and 90 as suggested by hydrophobic cluster analysis: hypothesis. 788 55

In the presence of ATP, bovine brain hsp70 has been shown to remove clathrin from bovine brain clathrin-coated vesicles in a rapid stoichiometric initial burst followed by slow steady-state uncoating. In addition, it has been found recently that a 100-kDa cofactor is required for hsp70 to uncoat clathrin baskets prepared with the assembly protein AP-2. In this study the ATPase activity associated with uncoating was investigated, with baskets formed from clathrin and assembly proteins. Mixed assembly proteins or assembly protein AP-2 could not be used in ATPase studies because they activated the hsp70 ATPase activity even in the absence of clathrin. However, this was not the case with assembly protein AP180. A stoichiometric initial burst of ATP hydrolysis was found to accompany the initial burst of uncoating of AP180-clathrin baskets by hsp70, with 1 mol of hydrolyzed ATP/mol of released clathrin heavy chain. Furthermore, the presence of a 100-kDa cofactor was needed for both processes. These results suggest that an initial burst of uncoating occurs with all clathrin baskets, that an initial burst of ATP hydrolysis accompanies this initial burst of uncoating, and that a 100-kDa cofactor is required for both.
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PMID:ATPase activity associated with the uncoating of clathrin baskets by Hsp70. 796 2

MSF, a mitochondrial import stimulation factor purified from rat liver cytosol, is an ATP-dependent precursor protein conformational modulator. As a step toward understanding the specificity of substrate recognition by MSF, various synthetic peptides were examined for their ability to induce MSF ATPase activity. The peptides corresponding to various mitochondria-targeting signal sequences elicited significant ATPase activity. MSF bound the synthetic mitochondrial signal peptides, and ATP hydrolysis caused dissociation of the peptides from MSF. Basic amino acid residues in the signal peptides seemed to be essential for recognition. Thus, MSF is a member of the polypeptide chain-binding protein family with unique recognition specificity and is distinct from the hsp70 family of proteins.
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PMID:Recognition of mitochondria-targeting signals by a cytosolic import stimulation factor, MSF. 798 21

An analysis of the genetic organization, regulated expression and biochemical properties of the cytoplasmic/nuclear (hsp70) and mitochondrial (mtp70) 70-kDa heat shock proteins of Trypanosoma cruzi is presented. The two proteins are encoded by tandemly arranged gene families that are located on different chromosomes. Both are mildly heat-inducible but have different optimal temperatures for expression. During the switch from proliferation to differentiation that occurs during the growth of T. cruzi in culture, the hsp70 level decreases dramatically while the mtp70 level falls only slightly. The subcellular locations of the two proteins differ during heat shock. While mtp70 remains associated with the kinetoplast at all temperatures, hsp70 becomes more concentrated in the nucleus at higher temperatures. Biochemical analysis of hsp70 and mtp70 revealed both to be potent ATPases. Each protein binds ATP with a Km of about 70 microM and hydrolyzes ATP with a kcat of about 100 min-1, 100 times greater than the kcat of human hsp70. The high ATPase activities of hsp70 and mtp70 are further stimulated by incubation with peptides, suggesting that these trypanosome heat shock proteins have protein chaperone activity. Finally, mtp70, but not hsp70, was found to possess autophosphorylation activity in vitro, a property that it shares with prokaryotic hsp70. These findings demonstrate unique cellular and biochemical characteristics of T. cruzi mtp70 and hsp70 that suggest that they play distinct physiologic roles in the biology of the cell.
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PMID:Molecular and biochemical comparison of the 70-kDa heat shock proteins of Trypanosoma cruzi. 810 32

The interactions of the 70-kDa heat-shock proteins (hsp70s) with their protein substrates appear to be regulated by bound nucleotide. Previous work has shown that the nucleotide binding site of the bovine brain uncoating ATPase, a constitutive member of the hsp70 family, crystallographically resembles the nucleotide binding site of actin and, like actin, the uncoating ATPase has a strongly bound ADP which cannot be removed by dialysis or treatment with ethylenediaminetetraacetic acid (EDTA). This suggests that, like the bound nucleotide of actin, it may be required for the enzyme to retain its native structure. In this study, the strongly bound ADP was removed by first replacing it with 5'-adenylyl imidodiphosphate (AMP-PNP) and then removing the bound AMP-PNP by dialysis. Following this treatment, more than 95% of the uncoating ATPase becomes nucleotide-free. The nucleotide-free uncoating ATPase retains its ability to bind and hydrolyze ATP and to uncoat clathrin-coated vesicles, even after 10 days of storage at 4 degrees C. Therefore, in contrast to actin, the bound nucleotide of the uncoating ATPase is not required to prevent denaturation of the enzyme. Using nucleotide-free uncoating ATPase, we were able to accurately measure the dissociation constants of ATP, ADP, and the nucleotide analogues AMP-PNP and 2'-deoxyadenosine 5'-triphosphate (dATP). The dissociation constants of both ATP and ADP are about 10(-8) M, more than 1-2 orders of magnitude stronger than previously reported, while AMP-PNP and dATP bind 2-3 orders of magnitude more weakly than ATP.
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PMID:Characterization of nucleotide-free uncoating ATPase and its binding to ATP, ADP, and ATP analogues. 811 62

Stress-induced proteins (or heat shock proteins (HSPs)) of 96 kDa size (gp96) have been shown previously to elicit specific immunity to tumors from which they are isolated. In this report, we show that in contrast to Meth A-derived gp96, gp96 preparations derived from normal tissues did not elicit immunity to Meth A sarcoma at any dose tested. Further, in light of recent studies showing that other major cellular HSPs hsp90 and hsp70 also elicit tumor-specific immunity, we have compared the relative immunogenicities of gp96, hsp90, and hsp70 derived from the Meth A sarcoma. The proteins gp96 and hsp70 were observed to be highly and equally immunogenic, whereas the immunogenicity of hsp90 was approximately 10% of that of gp96 or hsp70. It is suggested that the poor immunogenicity of hsp90 results from its lack of a measurable ATPase activity, which has been implicated in the ability of HSPs to transfer peptide to acceptor molecules. This is the first study that documents the lack of immunogenicity of gp96 preparations derived from normal tissues and compares the immunogenicity of each of the three major cellular HSPs in one tumor system.
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PMID:Comparison of tumor-specific immunogenicities of stress-induced proteins gp96, hsp90, and hsp70. 818 59

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