UNIPROT:P11021 - FACTA Search

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Query: UNIPROT:P11021 (BiP)
2,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Members of the 70-kD heat shock protein family have been found in all free-living organisms investigated and in major compartments of eukaryotic cells where they are essential to a wide range of functions, including protein folding and targeting. We have isolated a mitochondrial homolog (mtHSP70) from rat liver using ATP agarose affinity chromatography. Its identity was confirmed on the basis of immunological analysis and Ca(2+)-dependent autophosphorylation. Using protein sequence obtained from the amino termius and nine endo Lys-C peptide fragments, we have employed oligonucleotides to isolate a full-length cDNA clone. The open reading frame encodes a protein of 679 amino acids and calculated M(r) 73,913 daltons. The sequence has a high degree of identity with other members of the HSP70 family, including Escherichia coli DnaK (51%), Saccharomyces cerevisiae SSC1p (65%), the constitutive cytosolic HSP70 from rat, HSC70 (46%), and the rat endoplasmic reticulum isoform, BiP, (49%). The cDNA encodes a precursor protein with a 46-amino-acid signal peptide that is absent from the protein isolated from rat liver. The protein also shows a high degree of identity (98%) with a protein isolated from mouse and human tissues (PBP74, Domanico et al., 1993; mortalin, Wadhwa et al., 1993a; CSA, Michikawa et al., 1993a); however, the intracellular localization of these proteins is uncertain. We show that the precursor of mtHSP70 is efficiently imported into isolated mitochondria from rat liver and processed from 74 kD to the mature 69-kD protein.
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PMID:cDNA cloning and efficient mitochondrial import of pre-mtHSP70 from rat liver. 781 87

Sindbis virus codes for two membrane glycoproteins, E1 and PE2, which assemble into heterodimers within the endoplasmic reticulum. We have examined the role of the molecular chaperone BiP (grp78) in the maturation of these two proteins. E1, which folds into its mature conformation via at least three intermediates differing in the configurations of their disulfide bonds, was found to interact strongly and transiently with BiP after synthesis. ATP depletion mediated by carbonyl cyanide m-chlorophenylhydrazone treatment results in the stabilization of complexes between BiP and E1. The depletion of intracellular ATP levels also greatly inhibits conversions between the E1 folding intermediates and results in the slow incorporation of E1 into disulfide-stabilized aggregates. These results suggest that the ATP-regulated binding and release of BiP have a role in modulating disulfide bond formation during E1 folding. In comparison with E1, very little PE2 is normally recovered in association with BiP. However, under conditions in which E1 folding is aberrant, increased amounts of PE2 become directly associated with BiP. The formation of these BiP-PE2 interactions occurs after E1 begins to misfold or fails to fold efficiently. We propose that nascent PE2 is stable prior to pairing with E1 for only a limited period of time, after which unpaired PE2 becomes recognized by BiP. This implies that the productive association of PE2 and E1 must occur within a restricted time frame and only after E1 has accomplished certain folding steps mediated by BiP binding and release. Kinetic studies which show that the pairing of E1 with PE2 is delayed after translocation support this conclusion.
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PMID:Involvement of the molecular chaperone BiP in maturation of Sindbis virus envelope glycoproteins. 785 97

The 94-kDa glucose-regulated protein (endoplasmin, grp94) is an abundant member of the 90-kDa molecular chaperone family in the endoplasmic reticulum. We have found earlier that the 50% homologous 90-kDa heat shock protein, hsp90, has ATP-binding site(s) and autophosphorylating activity (Csermely, P., and Kahn, C. R. (1991) J. Biol. Chem. 266, 4943-4950). In the present paper we demonstrate that highly purified grp94 is also able to autophosphorylate itself on serine and threonine residues. grp94 can be freed from the co-purifying casein kinase II by concanavalin A affinity chromatography, and its phosphorylation is unaffected by activators and inhibitors of numerous protein kinases known to associate with the homologous hsp90. The autophosphorylation persists in immunoprecipitates and in SDS-polyacrylamide gel-purified and renatured grp94. Autophosphorylation displays a monomolecular kinetics, is activated by micromolar calcium concentrations, has an extreme heat stability, and can utilize both ATP and GTP with relatively high km values of 243 +/- 14 microM and 116 +/- 23 microM, respectively. Sequence analysis of grp94 shows the presence of two ATP-binding sites. The major product of limited proteolysis of grp94 by chymotrypsin or papain is an N-terminal 85-kDa fragment that can bind to ATP-agarose but does not show autophosphorylation. Our data suggest that grp94 has an enzymatic function analogous in many respects to the similar activity of hsp70, hsp90, and grp78 (BiP). Autophosphorylation may participate in/regulate the complex formation of these proteins, so it may be involved in their chaperone function.
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PMID:Autophosphorylation of grp94 (endoplasmin). 789 Jul 76

We have previously demonstrated that several endoplasmic reticulum (ER) proteins, including BiP, ERp72, grp94, and protein disulfide isomerase, bind to a denatured thyroglobulin (Tg) affinity column and can be specifically eluted by ATP (Nigam, S.K., Goldberg, A.L., Ho, S., Rohde, M.F., Bush, K.T., and Sherman, M.Y. (1994) J. Biol. Chem. 269, 1744-1749). Using chemical cross-linking, we now demonstrate that BiP, ERp72, and grp94 associate with Tg in two types of cultured thyroid cells, FRTL-5 and PCC13. Whereas BiP could be coimmunoprecipitated with anti-Tg antibodies in the absence of cross-linking, only trace amounts of ERp72 and grp94 were coimmunoprecipitated. Likewise, in both cell types, anti-BiP antibodies were able to coimmunoprecipitate Tg in the absence of cross-linking, though ERp72 and grp94 were only minimally present. Coprecipitation of BiP and Tg was abolished when ATP and Mg2+ were added to cell lysates. In contrast, after cross-linking, there was a large increase in the amount of ERp72 and grp94 that coimmunoprecipitated with anti-Tg antibodies, although there was only a slight increase in BiP. Similarly, in cross-linked lysates, grp94 and ERp72 were also coimmunoprecipitated with anti-BiP antibodies. An apparently novel 200-kDa protein was also consistently immunoprecipitated by anti-BiP antibodies in both cell types. In addition, anti-ERp72 antibodies coimmunoprecipitated Tg, BiP, and grp94 only after cross-linking. Analysis of uncross-linked and cross-linked samples by sucrose density gradient centrifugation confirmed that Tg, BiP, grp94, and ERp72 are present together in high molecular weight complexes only after treatment of cells with cross-linking reagent. These results suggest that ERp72, as well as BiP and grp94, function as molecular chaperones in the maturation of Tg, potentially as part of a macromolecular complex.
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PMID:Several endoplasmic reticulum stress proteins, including ERp72, interact with thyroglobulin during its maturation. 791 14

Folding catalysts of the endoplasmic reticulum (ER), such as protein disulfide isomerase (PDI), accelerate the slow chemical steps, such as disulfide bond formation, that accompany protein folding. Molecular chaperones of the ER, notably the heavy chain-binding protein, BiP (grp78), bind and release unfolded proteins in an ATP-dependent fashion. In vitro, the fate of reduced, denatured lysozyme is dependent on whether the substrate interacts first with BiP or PDI. Depending on the ratio of PDI to substrate and order in which the components of the reaction are mixed, PDI can exhibit a foldase/chaperone activity, which increases the rate and extent of lysozyme refolding, or it can function as an anti-chaperone that promotes the formation of inactive, disulfide-linked lysozyme aggregates (Puig, A., and Gilbert, H.F. (1994) J. Biol. Chem. 269, 7764-7771). Reduced, denatured lysozyme, but not the native protein, interacts with BiP and efficiently stimulates its peptide-dependent ATPase activity. When present at substoichiometric amounts, BiP, like PDI, facilitates the formation of large, inactive lysozyme aggregates that are non-covalently associated with BiP. BiP and PDI compete for a limited number of sites in these insoluble aggregates. If BiP is present at a high molar excess, the chaperone binds unfolded lysozyme and inhibits its aggregation by maintaining it in a soluble, yet inactive, conformation, both in the presence or absence of ATP. Increasing concentrations of BiP decrease the extent, but not the initial rate, of refolding, suggesting that BiP and PDI compete for unfolded lysozyme and that the BiP-lysozyme complex is not a very good substrate for PDI either in the presence or absence of ATP. Depending on the BiP and PDI concentrations, unfolded lysozyme may either be efficiently refolded into the native conformation in a PDI-catalyzed reaction, or it may form both soluble and insoluble BiP-lysozyme complexes. In vitro, PDI- and BiP-facilitated aggregation, as well as the competition of the two proteins for substrate, reproduces many of the features of the quality control system of the ER.
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PMID:Anti-chaperone behavior of BiP during the protein disulfide isomerase-catalyzed refolding of reduced denatured lysozyme. 792 93

We have developed a single purification procedure for the four major resident endoplasmic reticulum (ER) proteins: protein disulfide isomerase (PDI), BiP, endoplasmin, and calreticulin. Three of these proteins are thought to play a role in protein folding in vivo, whereas calreticulin is thought to be the major calcium binding protein in the ER. The proteins were purified from fresh bovine liver by taking advantage of individual characteristics of the proteins. Liver microsomes were prepared and then premeabilized to release the lumenal contents. After ammonium sulfate precipitation, the proteins were purified by chromatography; BiP was purified by affinity chromatography on ATP-agarose, and both endoplasmin and calreticulin were purified by affinity chromatography on Con A-Sepharose. PDI was purified by anionic ion exchange chromatography.
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PMID:A single purification procedure for the major resident proteins of the ER lumen: endoplasmin, BiP, calreticulin and protein disulfide isomerase. 795 Mar 79

Gelatin affinity chromatography has been developed as a simple one-step procedure for purification of members of the hsp 70 kDa family from MDBK cells (a bovine epithelioid cell line), rat liver microsomes and three different protozoan parasites. The ability of the isolated proteins to bind to denatured proteins like gelatin together with their apparent molecular masses, constitutive and inducible expression and their release from gelatin-agarose beads by ATP suggested that these proteins are molecular chaperones. The identity of a gelatin bound, ATP released, 78 kDa protein isolated from rat liver was confirmed by comparison of its NH2-terminal sequence with that of grp 78/BiP from rat. A 68 kDa protein isolated from Trypanosoma brucei brucei (T.b. brucei) and proteins of 68 and 69 kDa from Leishmania donovani (L. donovani) using gelatin affinity chromatography reacted in Western blot analysis with a monoclonal antibody, 7.10, specific for members of the 70 kDa heat shock protein family derived from a wide variety of species. A different monoclonal antibody, SPA-820, which also recognises members of the hsp 70 kDa family, bound to proteins isolated from Theileria parva Muguga transformed lymphoblastoid cell lines (TpM). The gelatin bound ATP released proteins of 72 kDa from T.b. brucei and of 65, 69 and 72 kDa from TpM were detected by recovery sera of the cattle infected with T.b. brucei and T. parva, respectively.
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PMID:A rapid, single-step purification method for immunogenic members of the hsp 70 family: validation and application. 798 83

We have developed assays using cells and isolated membranes to identify factors mediating fusion of the ER-nuclear membrane network in yeast. When cells containing distinctly tagged ER-nuclear envelope membranes are observed during mating, the markers of both parental membranes become colocalized in a process sharing a genetic requirement with karyogamy. Using isolated membranes, we find that fusion between ER compartments requires ATP, but not cytosol, Sec17p (alpha-SNAP), or Sec18p (NSF), the latter two being required at the fusion step in vesicular transport. Proteins tightly associated with the ER membrane are essential for fusion, as is Kar2p (BiP), an ER lumenal hsp70 homolog. BiP may activate an ER-localized fusogen, allowing nuclear fusion and karyogamy in yeast.
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PMID:The karyogamy gene KAR2 and novel proteins are required for ER-membrane fusion. 803 15

In eukaryotic cells export of the vast majority of newly synthesized secretory proteins is initiated at the level of the membrane of the endoplasmic reticulum (microsomal membrane). The precursors of secretory proteins are not transported across the microsomal membrane in their native state. Typically, signal peptides in the precursor proteins are involved in preserving the transport-competent state. Furthermore, there are two alternatively acting mechanisms involved in preserving transport competence in the cytosol. The first mechanism involves two ribonucleoparticles (ribosome and signal recognition particle) and their receptors on the microsomal surface and requires the hydrolysis of GTP. The second mechanism does not involve ribonucleoparticles and their receptors but depends on the hydrolysis of ATP and on cis-acting molecular chaperones, such as heat shock cognate protein 70 (hsc 70). In both mechanisms a translocase in the microsomal membrane mediates protein translocation. This translocase includes a signal peptide receptor on the cis-side of the microsomal membrane and a component that also depends on the hydrolysis of ATP. At least in certain cases, an additional nucleoside triphosphate-requiring step is involved which is related to the trans-acting molecular chaperone BiP.
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PMID:The role of molecular chaperones in protein transport into the endoplasmic reticulum. 809 38

The stress70 protein chaperone family plays a central role in the processing of cytosolic and secretory proteins. We have cloned a human cDNA, designated Stch, that is conserved in rat tissues and which encodes a novel microsome-associated member of the stress70 protein chaperone family. Stch mRNA is constitutively expressed in all human cell types and is induced by incubation with the calcium ionophore A23187, but not by exposure to heat shock. Inspection of the predicted amino acid sequence reveals that the STCH product contains a unique hydrophobic leader sequence and shares homology within the amino terminal domains of the stress70 gene family, but has a 50 residue insertion within the ATP-binding domains and truncates the carboxyl terminal peptide-binding region. Immunofluorescent and subcellular analyses show that STCH migrates predominantly as a 60 kDa species and is enriched in a membrane-bound microsome fraction. In contrast to purified BiP and dnaK, however, STCH demonstrates ATPase activity that is independent of peptide stimulation. Stch, therefore, encodes a calcium-inducible, microsome-associated ATPase activity with properties similar to a proteolytically cleaved N-terminal HSC70/BiP fragment. This truncated stress70 molecule may allow increased diversity in cellular responses to protein processing requirements.
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PMID:Stch encodes the 'ATPase core' of a microsomal stress 70 protein. 813 51

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