scholarly article | Q13442814 |
P819 | ADS bibcode | 1991PNAS...88.5719P |
P356 | DOI | 10.1073/PNAS.88.13.5719 |
P953 | full work available at URL | https://europepmc.org/articles/PMC51949 |
https://europepmc.org/articles/PMC51949?pdf=render | ||
https://pnas.org/doi/pdf/10.1073/pnas.88.13.5719 | ||
P932 | PMC publication ID | 51949 |
P698 | PubMed publication ID | 1829527 |
P5875 | ResearchGate publication ID | 21325509 |
P2093 | author name string | W. J. Welch | |
A. L. Fink | |||
D. R. Palleros | |||
P2860 | cites work | Three-dimensional structure of the ATPase fragment of a 70K heat-shock cognate protein | Q27667092 |
Transfer of a beta-turn structure to a new protein context | Q27704849 | ||
Homologous plant and bacterial proteins chaperone oligomeric protein assembly | Q28283580 | ||
The heat-shock response | Q29619473 | ||
Requirement for hsp70 in the mitochondrial matrix for translocation and folding of precursor proteins | Q29620285 | ||
Speculations on the functions of the major heat shock and glucose-regulated proteins | Q34562570 | ||
Interactions of misfolded influenza virus hemagglutinin with binding protein (BiP). | Q36220870 | ||
The two mammalian mitochondrial stress proteins, grp 75 and hsp 58, transiently interact with newly synthesized mitochondrial proteins | Q36742458 | ||
Rapid purification of mammalian 70,000-dalton stress proteins: affinity of the proteins for nucleotides | Q36889814 | ||
The dnaK protein of Escherichia coli possesses an ATPase and autophosphorylating activity and is essential in an in vitro DNA replication system | Q37512747 | ||
Polypeptide chain binding proteins: catalysts of protein folding and related processes in cells | Q38367129 | ||
ATP catalyzes the sequestration of clathrin during enzymatic uncoating | Q41814203 | ||
Dissociation of clathrin from coated vesicles by the uncoating ATPase | Q44666656 | ||
Interaction of Hsp 70 with newly synthesized proteins: implications for protein folding and assembly. | Q45950874 | ||
Heavy-chain binding protein recognizes aberrant polypeptides translocated in vitro | Q46922748 | ||
70K heat shock related proteins stimulate protein translocation into microsomes | Q49486847 | ||
The occurrence of polyunsaturated aldehydes in choline-containing phosphoglycerides of a human brain meningioma | Q51204307 | ||
Peptide binding and release by proteins implicated as catalysts of protein assembly | Q69671552 | ||
The ATPase core of a clathrin uncoating protein | Q70161623 | ||
P433 | issue | 13 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | protein denaturation | Q22282563 |
P304 | page(s) | 5719-5723 | |
P577 | publication date | 1991-07-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Interaction of hsp70 with unfolded proteins: effects of temperature and nucleotides on the kinetics of binding | |
P478 | volume | 88 |
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Q36255958 | A 70-kDa molecular chaperone, DnaK, from the industrial bacterium Bacillus licheniformis: gene cloning, purification and molecular characterization of the recombinant protein |
Q42444846 | A mutational study of the peptide-binding domain of Hsc70 guided by secondary structure prediction |
Q38316600 | A small heat shock protein cooperates with heat shock protein 70 systems to reactivate a heat-denatured protein |
Q35843729 | A zinc finger-like domain of the molecular chaperone DnaJ is involved in binding to denatured protein substrates. |
Q54649801 | ATP-induced protein-Hsp70 complex dissociation requires K+ but not ATP hydrolysis. |
Q34189878 | Activation of heat-shock transcription factor by graded reductions in renal ATP, in vivo, in the rat. |
Q28118171 | Activation of human heat shock genes is accompanied by oligomerization, modification, and rapid translocation of heat shock transcription factor HSF1 |
Q28116875 | Activation of the DNA-binding ability of human heat shock transcription factor 1 may involve the transition from an intramolecular to an intermolecular triple-stranded coiled-coil structure |
Q36278147 | An ATP- and hsc70-dependent oligomerization of nascent heat-shock factor (HSF) polypeptide suggests that HSF itself could be a "sensor" for the cellular stress response |
Q70693735 | Autostimulation of the DnaK (HSP 70) ATPase of Escherichia coli |
Q42102187 | BAG-1, a negative regulator of Hsp70 chaperone activity, uncouples nucleotide hydrolysis from substrate release. |
Q42983805 | Binding of ATP and ATP analogues to the uncoating ATPase Hsc70 (70 kDa heat-shock cognate protein). |
Q71070590 | Binding of mitochondrial presequences to yeast cytosolic heat shock protein 70 depends on the amphiphilicity of the presequence |
Q43976254 | Binding to chaperones allows import of a purified mitochondrial precursor into mitochondria |
Q36872194 | Biological role and regulation of the universally conserved heat shock proteins |
Q24338386 | CHIP participates in protein triage decisions by preferentially ubiquitinating Hsp70-bound substrates |
Q30362083 | Chaperone functions of the E3 ubiquitin ligase CHIP. |
Q89763905 | Chaperonin-assisted protein folding: a chronologue |
Q40824757 | Characterization of a receptor for heat shock protein 70 on macrophages and monocytes |
Q28581007 | Characterization of functional domains of the eukaryotic co-chaperone Hip |
Q44942951 | Characterization of interactions between the anti-apoptotic protein BAG-1 and Hsc70 molecular chaperones |
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Q38296271 | Different combinations of the heat-shock cognate protein 70 (hsc70) C-terminal functional groups are utilized to interact with distinct tetratricopeptide repeat-containing proteins |
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Q46718808 | DnaK ATPase activity revisited |
Q38770546 | Dual role of ribosome-associated chaperones in prion formation and propagation. |
Q72536404 | Effect of nucleotide on the binding of peptides to 70-kDa heat shock protein |
Q71245482 | Effect of nucleotides, peptides, and unfolded proteins on the self-association of the molecular chaperone HSC70 |
Q24622449 | Eukaryotic homologues of Escherichia coli dnaJ: a diverse protein family that functions with hsp70 stress proteins |
Q36531478 | Examining the function and regulation of hsp 70 in cells subjected to metabolic stress |
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Q33938572 | Function in protein folding of TRiC, a cytosolic ring complex containing TCP-1 and structurally related subunits |
Q24536019 | GrpE-like regulation of the hsc70 chaperone by the anti-apoptotic protein BAG-1 |
Q28609629 | Heat shock gene regulation by nascent polypeptides and denatured proteins: hsp70 as a potential autoregulatory factor |
Q34388079 | Heat shock proteins and cardiovascular pathophysiology. |
Q34447069 | Heat shock proteins and heat adaptation of the whole organism |
Q34605740 | Heat shock proteins: modifying factors in physiological stress responses and acquired thermotolerance |
Q36623282 | Heat shock response to vaccinia virus infection |
Q90306393 | Heat shock-induced chaperoning by Hsp70 is enabled in-cell |
Q35071715 | Heat stress induces hsc70/nuclear topoisomerase I complex formation in vivo: evidence for hsc70-mediated, ATP-independent reactivation in vitro |
Q40671239 | Heat-shock proteins, stress, and the heart |
Q28579897 | High-level expression of soluble rat hsc70 in Escherichia coli: purification and characterization of the cloned enzyme |
Q28569622 | Hip, a novel cochaperone involved in the eukaryotic hsc70/hsp40 reaction cycle |
Q36691341 | Hsc70-binding Peptides Selected from a Phage Display Peptide Library that Resemble Organellar Targeting Sequences |
Q41334691 | Hsp-70 is closely associated with the transferrin receptor in exosomes from maturing reticulocytes |
Q28590261 | Hsp105 but not Hsp70 family proteins suppress the aggregation of heat-denatured protein in the presence of ADP |
Q34533688 | Hsp70 architecture: the formation of novel polymeric structures of Hsp70.1 and Hsc70 after proteotoxic stress. |
Q39978383 | Hsp70 associates with Rictor and is required for mTORC2 formation and activity |
Q34808252 | Hsp70 oligomerization is mediated by an interaction between the interdomain linker and the substrate-binding domain |
Q39935467 | Hsp72 chaperone function is dispensable for protection against stress-induced apoptosis |
Q45061733 | Hsp72 inhibits apoptosis upstream of the mitochondria and not through interactions with Apaf-1. |
Q34114447 | Human heat shock protein 70 (hsp70) protects murine cells from injury during metabolic stress |
Q28543073 | Human mitochondrial Hsp70 (mortalin): shedding light on ATPase activity, interaction with adenosine nucleotides, solution structure and domain organization |
Q52080039 | Identification of a Hsp70 recognition domain within the rubisco small subunit transit peptide. |
Q40806764 | Identification of a regulatory motif in Hsp70 that affects ATPase activity, substrate binding and interaction with HDJ-1. |
Q40805748 | Identification of an interaction between SOX9 and HSP70. |
Q36400369 | Immunization with a lymphocytic choriomeningitis virus peptide mixed with heat shock protein 70 results in protective antiviral immunity and specific cytotoxic T lymphocytes |
Q71824022 | In Vitro Dissociation of BiP-Peptide Complexes Requires a Conformational Change in BiP after ATP Binding but Does Not Require ATP Hydrolysis |
Q36277498 | Inhibitory effects of HSP70 chaperones on nascent polypeptides |
Q28545057 | Interaction of ATP with a small heat shock protein from Mycobacterium leprae: effect on its structure and function |
Q37345451 | Interaction of asymmetric ABCC9-encoded nucleotide binding domains determines KATP channel SUR2A catalytic activity |
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Q36879915 | Interactions of liver Grp78 and Escherichia coli recombinant Grp78 with ATP: multiple species and disaggregation |
Q36234211 | Involvement of 70-kD heat-shock proteins in peroxisomal import |
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Q27932878 | Mitochondrial Hsp70/MIM44 complex facilitates protein import |
Q24606489 | Molecular chaperones as HSF1-specific transcriptional repressors |
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Q48964338 | Purification and characterization of a 66-kDa protein from rabbit reticulocyte lysate which promotes the recycling of hsp 70. |
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