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)

BiP is a constitutively-expressed resident protein of the endoplasmic reticulum (ER) of all eucaryotic cells, and belongs to the highly conserved hsp70 protein family. In the ER, BiP is involved in polypeptide translocation, protein folding and presumably protein degradation as well. These functions are essential to cell viability, as has been shown for yeast. In this review, I will summarize the structural features of hsp70 proteins and focus on those experiments which revealed the biological function of BiP.
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PMID:BiP (GRP78), an essential hsp70 resident protein in the endoplasmic reticulum. 798 59

The synthesis of complex biological structures such as antibodies using recombinant DNA technology is a major biotechnological advance. Active murine antibody (IgG) oligomers, composed of two heavy (H) and two light (L) polypeptide chains, have been expressed and secreted by the baculovirus-insect cell expression system. Unfortunately, expression of the functional antibodies is accompanied by the formation of abnormal protein complexes and aggregates in which the polypeptide chains are bound together into incorrect associations. The formation of these abnormal complexes or protein aggregates in insect cells may be caused by insufficient intracellular levels of two catalytic proteins, immunoglobulin binding protein (BiP or GRP78), and protein disulfide isomerase (PDI). Consequently, we obtained the genes coding for murine BiP and PDI and cloned the genes into the baculovirus vector (Autographa californica nuclear polyhedrosis virus) to obtain AcBB-BiP and AcBB-PDI. Infection of Spodoptera frugiperda (Sf-9) insect cells with these two baculoviruses yielded recombinant proteins of the correct size that were recognized by antibodies to these proteins. Cloning these genes into the baculovirus vector is one approach to engineering the assembly pathway in order to lower aggregation and increase production of functionally active proteins and oligomers.
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PMID:Engineering the assembly pathway of the baculovirus-insect cell expression system. 801 Jun 71

The endoplasmic binding protein BiP and N-linked glycosylation are proposed to be essential components in the processing pathway of secreted protein. In Saccharomyces cerevisiae, BiP is encoded by the KAR2 gene; WBP1 encodes an essential component of the N-oligosaccharyltransferase complex. wbp1 mutations result in reduced oligosaccharyltransferase activity and a temperature-sensitive phenotype. We show that a combination of kar2 and wbp1 mutations results in a synthetic phenotype with a strongly reduced growth rate at the permissive temperature. To investigate the role of N-linked glycosylation in BiP function, the processing of non-glycosylated carboxypeptidase was followed in different kar2 strains at the permissive temperature. In all kar2 strains, the processing of non-glycosylated carboxypeptidase Y was drastically reduced. A specific BiP/non-glycosylated carboxypeptidase Y complex was detected in kar2-159 and kar2-203 cells whereas the kar2-1 mutation did not result in such a complex. Our data show that BiP and N-linked glycosylation are directly involved in the processing of secreted proteins. The results support the hypothesis that BiP stabilizes the folding-competent and assembly-competent state of a polypeptide, whereas N-linked oligosaccharides are structural components required in the folding process after the polypeptide is released from BiP.
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PMID:The genetic interaction of kar2 and wbp1 mutations. Distinct functions of binding protein BiP and N-linked glycosylation in the processing pathway of secreted proteins in Saccharomyces cerevisiae. 802 May

In Saccharomyces cerevisiae Ydj1p, a DnaJ homolog, is localized to the cytosol with the Ssa and Ssb Hsp70 proteins. Ydj1p helps facilitate polypeptide translocation across mitochondrial and endoplasmic reticulum membranes (Caplan, A. J., Cyr, D. M., and Douglas, M. G. (1992) Cell 71, 1143-1155) and can directly interact with Ssa1p to regulate chaperone activity (Cyr, D. M., Lu, X., and Douglas, M. G. (1992) J. Biol. Chem. 267, 20927-20931). In this study, the role of Ydj1p in modulating ATP-dependent reactions catalyzed by Ssa and Ssb Hsp70 proteins has been examined using purified components and compared with that of other Hsp70 homologs BiP and DnaK. Ssa1p, Ssa2p, and Ssb1/2p all formed stable complexes with the mitochondrial presequence peptide, F1 beta(1-51). ATP alone had only modest effects on polypeptide complex formation with Ssa1p and Ssa2p, but prevented the majority of polypeptide binding to BiP and DnaK. ATP by itself also reduced polypeptide binding to Ssb1/2p to a level that was intermediate between that observed for the Ssa Hsp70 proteins tested and BiP and DnaK. ATP hydrolysis by Ssa1p, Ssa2p, and Ssb1/2p occurred at similar rates. Ydj1p was a potent modulator of the both the ATPase and polypeptide binding activities of Ssa1p and Ssa2p. In contrast, Ydj1p had little effect on the ATPase and polypeptide binding activity of Ssb1/2p. Therefore the chaperone-related activities of Ssa and Ssb Hsp70 proteins exhibit significant differences in sensitivity to ATP and YDJ1p. These data indicate that regulation of Hsp70 activity by DnaJ homologs can be specific. The specificity of interactions between Ydj1p and the Ssa and Ssb Hsp70 proteins observed could contribute in determining the functional specificity of these chaperones in the cytosol. In related experiments, F1 beta(1-51) was found to reduce the extent to which Ydj1p stimulated Ssa1p ATPase activity. This effect correlated with the formation of F1 beta(1-51).Ssa1p complexes. We propose that intramolecular communication between the polypeptide binding, ATPase and DnaJ regulatory domains on Ssa1p plays a role in the regulation of chaperone activity.
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PMID:Differential regulation of Hsp70 subfamilies by the eukaryotic DnaJ homologue YDJ1. 814 72

Using the polymerase chain reaction with degenerate primers, three new members of the hsp70 gene family of Trypanosoma brucei have been identified. A genomic clone of one of these, gA, has been fully sequenced and the corresponding gene product has been characterized using antibody to recombinant gA fusion protein. gA is the trypanosomal homologue of BiP, an endoplasmic reticulum resident hsp70 gene family member, based on four lines of evidence: (1) gA protein has 64% deduced amino acid identity with rat BiP; (2) the deduced amino acid sequence has a putative secretory signal peptide; (3) the gA gene product is a soluble luminal resident of a trypanosomal microsome fraction; (4) the gA polypeptide does not cofractionate with mitochondrial markers. Trypanosomes are the most primitive eukaryote yet in which BiP has been identified. The gA polypeptide has been used as a specific marker for the direct visualization of endoplasmic reticulum in trypanosomes by both indirect immunofluorescence and cryoimmuno electron microscopy. The endoplasmic reticulum is seen as a tubular network that extends throughout the cell excluding the flagellum. The C-terminal tetrapeptide of gA is MDDL, which, together with the C-terminal tetrapeptide (KQDL) of a trypanosome protein disulfide isomerase homologue (Hsu et al. (1989) Biochemistry 28, 6440-6446), indicates that endoplasmic reticulum retrieval signals in trypanosomes may be as divergent and heterogeneous as any seen in the other eukaryotes yet studied.
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PMID:Molecular cloning and cellular localization of a BiP homologue in Trypanosoma brucei. Divergent ER retention signals in a lower eukaryote. 822 99

We reconstituted prepro-alpha-factor translocation and signal peptide processing using a yeast microsomal detergent soluble fraction formed into vesicles with soybean phospholipids. Reconstituted translocation required ATP, and was deficient when sec63 and kar2 (BiP) mutant cells were used as a source of membranes. Normal translocation was observed with vesicles reconstituted from a mixture of pure wild-type yeast BiP and a soluble fraction of kar2 mutant membranes. Two other heat-shock cognate (hsc) 70 homologs, yeast cytosolic hsc70 (Ssalp) and E. coli dnaK protein did not replace BiP. Conversely, BiP was not active under conditions where translocation into native ER vesicles required cytosolic hsc70. We conclude that cytosolic hsc70 and BiP serve noninterchangeable roles in polypeptide translocation, possibly because distinct, asymmetrically oriented membrane proteins are required to recruit each protein to opposing surfaces of the ER membrane.
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PMID:Reconstitution of protein translocation from solubilized yeast membranes reveals topologically distinct roles for BiP and cytosolic Hsc70. 841 98

To clarify the roles of Kar2p (BiP) and Sec63p in translocation across the ER membrane in Saccharomyces cerevisiae, we have utilized mutant alleles of the essential genes that encode these proteins: kar2-203 and sec63-1. Sanders et al. (Sanders, S. L., K. M. Whitfield, J. P. Vogel, M. D. Rose, and R. W. Schekman. 1992. Cell. 69:353-365) showed that the translocation defect of the kar2-203 mutant lies in the inability of the precursor protein to complete its transit across the membrane, suggesting that the lumenal hsp70 homologue Kar2p (BiP) binds the transiting polypeptide in order to facilitate its passage through the pore. We now show that mutation of a conserved residue (A181-->T) (Nelson, M. K., T. Kurihara, and P. Silver. 1993. Genetics. 134:159-173) in the lumenal DnaJ box of Sec63p (sec63-1) results in an in vitro phenotype that mimics the precursor stalling defect of kar2-203. We demonstrate by several criteria that this phenotype results specifically from a defect in the lumenal interaction between Sec63p and BiP: Neither a sec62-1 mutant nor a mutation in the cytosolically exposed domain of Sec63p causes precursor stalling, and interaction of the sec63-1 mutant with the membranebound components of the translocation apparatus is unimpaired. Additionally, dominant KAR2 suppressors of sec63-1 partially relieve the stalling defect. Thus, proper interaction between BiP and Sec63p is necessary to allow the precursor polypeptide to complete its transit across the membrane.
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PMID:Interaction between BiP and Sec63p is required for the completion of protein translocation into the ER of Saccharomyces cerevisiae. 852 80

An immunoblotting technique was used to identify lymphostimulatory antigens within sized polypeptide fractions of Eimeria maxima sporozoites. Six fractions contained polypeptides that specifically stimulated the proliferation of immune lymphocytes in an in vitro assay, and polyclonal antisera were made in rabbits against these fractions. cDNA clones, isolated with antisera against a lymphostimulatory fraction of around 70 kDa, were found to encode four different antigens including a classical hsp70, a molecule homologous to an endoplasmic reticulum chaperonin (BiP/GRP), and a calcium-dependent serine/threonine protein kinase that appears homologous to a recently described molecule from Plasmodium falciparum. The protein kinase cDNA clone was overexpressed in Escherichia coli, and the recombinant antigen was found to induce both antibody and lymphoproliferative responses in chickens when administered subcutaneously. Thus, immunoblotting, in combination with in vitro lymphoproliferation assays, can be used as an initial screen for the identification of lymphostimulatory antigens from a complex pool of polypeptides, and a combination of cDNA cloning, expression, and immunization allows assessment of the lymphostimulatory activity of individual polypeptides. These studies should facilitate further evaluation of antigens that are potential candidates for inclusion in a recombinant vaccine against poultry coccidiosis.
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PMID:Nitrocellulose immunoblotting for identification and molecular gene cloning of Eimeria maxima antigens that stimulate lymphocyte proliferation. 854 29

Prolyl 4-hydroxylase (EC 1.14.11.2) catalyses the post-translational formation of 4-hydroxyproline in collagens. The vertebrate enzymes are alpha2beta2 tetramers, their beta subunit being identical to protein disulphide isomerase (PDI). The function of the PDI-beta subunit in prolyl 4-hydroxylases is not fully understood, but it seems to be that of keeping the highly insoluble alpha subunits in solution. We report here that expression of the alpha subunit of human type I prolyl 4-hydroxylase in insect cells together with BiP polypeptide leads to the formation of both soluble and insoluble alpha-subunit-BiP complexes. Formation of the soluble complexes was evident from (1) a marked increase in the amount of the alpha subunit in the soluble fraction of the cell homogenates when expressed together with BiP, (2) immunoprecipitation experiments and (3) demonstration of the presence of some of the complexes by polyacrylamide gel electrophoresis under non-denaturing conditions. Formation of the insoluble complexes was suggested by an increase in the amount of BiP in the insoluble fraction when expressed together with the alpha subunit. Nevertheless the soluble alpha-subunit-BiP complexes had no prolyl 4-hydroxylase activity. This indicates that the function of the PDI-beta subunit in the prolyl 4-hydroxylase tetramer is not only that of keeping the alpha subunits in solution but appears to be more specific, probably that of keeping them in a catalytically active, non-aggregated conformation.
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PMID:Co-expression of the alpha subunit of human prolyl 4-hydroxylase with BiP polypeptide in insect cells leads to the formation of soluble and insoluble complexes. Soluble alpha-subunit-BiP complexes have no prolyl 4-hydroxylase activity. 861 37

Fibrinogen is a plasma protein consisting of six polypeptide chains which are linked by disulfide bonds. During protein synthesis, assembly of the molecule proceeds through the formation of alphagamma and betagamma heterodimers followed by the generation of alphabetagamma half-molecules and dimerizing to generate the mature six-chain molecule. In the present study, sequences required for the formation of the alphagamma and betagamma heterodimers were examined in stably transfected baby hamster kidney cells expressing combinations of normal as well as modified polypeptide chains. Deletion of the amino terminus and the proximal first half of the coiled-coil region of the three fibrinogen chains had little or no effect on heterodimer and half-molecule formation. These deletions, however, did prevent half-molecules from forming the six-chain molecule. Deletion of the distal second half of the coiled-coil region of each chain completely prevented the assembly process. Point mutations in the second half of the coiled-coil region also indicated that hydrophilic residues that form ion pairs between interacting chains were not critical in the formation of the heterodimeric complexes. These results suggest that the initial formation of the alphagamma and betagamma complexes depends primarily on hydrophobic interactions of amino acids located in the second half of the coiled-coil region of the molecule. These interactions occur in the rough endoplasmic reticulum in the presence of various chaperones such as BiP.
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PMID:The assembly of human fibrinogen. The role of the amino-terminal and coiled-coil regions of the three chains in the formation of the alphagamma and betagamma heterodimers and alphabetagamma half-molecules. 891 Mar 97

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