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

We have cloned the gene for the resident luminal ER protein BiP from the fission yeast, Schizosaccharomyces pombe. The predicted protein product is equally divergent from the budding yeast and mammalian homologues. Disruption of the BiP gene in S. pombe is lethal and BiP mRNA levels are regulated by a variety of stresses including heat shock. Immunofluorescence of cells expressing an epitope-tagged BiP protein show it to be localized to the nuclear envelope, around the cell periphery and in a reticular structure through the cytoplasm. Unexpectedly, we find the BiP protein contains an N-linked glycosylation site which can be utilized. The C-terminal four amino acids of BiP are Ala-Asp-Glu-Leu, a new variant of the XDEL sequence found at the C-termini of luminal endoplasmic reticulum proteins. To determine whether this sequence acts as a sorting signal in S.pombe we expressed an acid phosphatase fusion protein extended at its C-terminus with the amino acids ADEL. Analysis of the sorting of this fusion protein indicates that the ADEL sequence is sufficient to cause the retention of proteins in the endoplasmic reticulum. The sequences DDEL, HDEL and KDEL can also direct ER-retention of acid phosphatase in S.pombe.
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PMID:Analysis of the BiP gene and identification of an ER retention signal in Schizosaccharomyces pombe. 137 79

High-level gene expression does not always lead to corresponding high-level secretion of heterologous proteins in yeast. The rate-limiting step in many cases has been shown to exit from the endoplasmic reticulum (ER). Within the ER, the correct folding of secreted proteins is required for export competence; hence, the cellular proteins involved in these events are likely to be important for efficient secretion. We have found that the extractable levels of two ER-resident proteins involved in folding--heavy chain binding protein (BiP) and protein disulfide isomerase (PDI)--are significantly reduced by prolonged constitutive overexpression of human granulocyte colony stimulating factor (GCSF), human erythropoietin, or Schizosaccharomyces pombe acid phosphatase. However, the rate of BiP synthesis measured in pulse--chase radiolabeling experiments is not reduced by GCSF overexpression, and galactose-directed transcription of the BiP gene does not restore normal BiP protein levels once they have been depleted. The observed loss of lumenal resident proteins, either by proteolysis or irreversible aggregation, is expected to contribute significantly to the inefficiency of foreign protein secretion in yeast.
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PMID:Constitutive overexpression of secreted heterologous proteins decreases extractable BiP and protein disulfide isomerase levels in Saccharomyces cerevisiae. 753 23

Schizosaccharomyces pombe was treated with either cycloheximide or anisomycin at levels sufficient to inhibit > 95% of protein synthesis for periods upon to 3 h, equivalent to one cell cycle. Treatment for as little as 1 h caused significant loss of the Golgi apparatus by both immunofluorescence and electron microscopy. The loss was quantitated by stereology on electron micrographs. Nearly 90% of the stacked Golgi was lost over a 3 h period. No other intracellular membrane compartment seemed to be affected. Measurement of enzyme activities confirmed these observations. The activity of a resident of the Golgi apparatus, alpha-1,2 galactosyltransferase, was reduced over this time, whereas the endoplasmic reticulum marker, BiP, and the cytoplasmic enzyme, hexokinase, were unaffected. The morphological changes associated with cycloheximide addition were reversed on its removal, though there was a lag before cells recommenced growth or secretion of the enzyme, acid phosphatase.
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PMID:Inhibition of protein synthesis disrupts the Golgi apparatus in the fission yeast, Schizosaccharomyces pombe. 820 44

Increased levels of the endoplasmic reticulum-resident protein folding chaperone BiP would be expected to either increase protein secretory capacity by improved solubilization of folding precursors or decrease secretory capacity by binding and retaining misfolded proteins. To address this question, the relationship between BiP levels and heterologous secretion in yeast was determined. A yeast strain was constructed in which BiP expression is tunable from 5 to 250% of wild-type levels, and this strain was used to explore the effect of varying BiP level on overall secretion of three heterologous proteins: human granulocyte colony-stimulating factor, Schizosaccharomyces pombe acid phosphatase, and bovine pancreatic trypsin inhibitor. For all three proteins examined, reduction in BiP expression below wild-type level diminished overall secretion, whereas 5-fold BiP overexpression from a constitutive glycolytic promoter did not substantially increase or decrease secretion titers. These results are consistent with a positive role for BiP in promoting membrane translocation and solubilization of folding precursors but are inconsistent with a negative role in proofreading and improper retention of heterologous secreted proteins.
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PMID:Reduction of BiP levels decreases heterologous protein secretion in Saccharomyces cerevisiae. 862 55

Leishmaniasis is a vector-borne infectious disease with a wide range of pathologies depending on the species of Leishmania. Leishmania parasites are transmitted by the sand fly vector as promastigotes; within the mammalian host, Leishmania parasites differentiate into amastigotes and replicate in macrophages. The A2 protein from Leishmania donovani is expressed predominantly in amastigotes and therefore likely plays a role in survival in the mammalian host. In the present study, we have determined that the A2 protein colocalized with the Leishmania endoplasmic reticulum binding protein, BiP, was induced by stress and complexed with BiP following heat shock. The A2 gene in Leishmania major is a non-expressed pseudogene, and we present evidence that ectopic expression of a transfected A2 gene in L. major enhanced its viability following heat shock. A2 may therefore play a role in protecting L. donovani from stress associated with infection in visceral organs, including the fever typically associated with visceral leishmaniasis. Interestingly, when comparing A2 protein localization, we also observed that the Leishmania secreted acid phosphatase SAcP protein was transported out of the parasite-containing phagolysosome and was located throughout the macrophage cytoplasm in vesicles, providing the first example of a secreted Leishmania-derived protein exiting the parasite-containing phagolysosome.
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PMID:Localization and induction of the A2 virulence factor in Leishmania: evidence that A2 is a stress response protein. 2049 97

We attempted to identify the total proteome in sesame lipid droplets. Results from two-dimensional electrophoresis showed 139 protein spots in lipid droplet samples. Each spot was isolated, digested with trypsin, and applied to liquid chromatography-tandem mass spectrometry (Q-Tof Premier). As a result, 103 spots were identified. Although oleosin, caleosin, and steroleosin are known major components of the lipid droplet, many other proteins were also found in the lipid droplet. In addition to the three major proteins, TAG factor protein, glyceraldehyde-3-phosphate dehydrogenase, F1 ATPase, 70-kDa heat shock protein, seed maturation protein PM24, and 11S globulin precursor isoforms 3 and 4 were found in the lipid droplet. Three types of oleosins, 15-, 15.5-, and 17-kDa were present in the sesame lipid droplet, and the 15.5-kDa oleosin had high homology with oleosin from Coffea canephora. It has been shown by acid phosphatase treatment that oleosin proteins contain phosphate groups. Protein disulfide-isomerase 2 precursor, calreticulin-1, and BiP, which are known as marker proteins of the endoplasmic reticulum, were found as the components of the lipid droplet. Immunoconfocal microscopy was used to show that 11S globulin precursor isoform 3 and 4 were indeed localized in the lipid droplet. The presence of 11S globulin in the lipid droplets suggested a new mechanism for the lipid droplet formation.
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PMID:Proteomic Analysis of Lipid Droplets in Sesamum indicum. 3247 80