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Target Concepts:
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Query: UNIPROT:P11021 (
BiP
)
2,049
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Wheat seed storage proteins are deposited in protein bodies (PB) inside vacuoles, but their subcellular site of aggregation and their route to vacuoles are still controversial. In the present work, an ultra structural analysis of developing wheat endosperm at early to mid maturation was performed to address these issues. Golgi complexes were rarely detected, indicating that their role in wheat storage protein transport is limited. In contrast, a considerable amount of PB was detected in the cytoplasm. Many of these PB were surrounded by
RER
membranes and were enlarged by fusion of smaller PB. Small, electron lucent vesicles were detected around the surfaces of the PB in the cytoplasm, or attached to them, suggesting that such attachments and subsequent fusion of the vesicles with each other lead to the formation of small vacuoles containing PB inclusions. Immunogold labeling with serum raised against yeast-
BiP
, an ER-localized protein, demonstrated that the wheat
BiP
homolog was present within the PB in the cytoplasm as well as inside vacuoles. This confirmed that the PB were formed within the
RER
and that the Golgi complex was not involved in their transport to vacuoles. It is concluded that a considerable part of the wheat storage proteins aggregate into PB within the
RER
and are then transported as intact PB to the vacuoles by a novel route that does not utilize the Golgi complex.
...
PMID:Evidence for a novel route of wheat storage proteins to vacuoles. 144 91
The
RER
retains a specific subset of ER proteins, many of which have been shown to participate in the translocation of nascent secretory and membrane proteins. The mechanism of retention of
RER
specific membrane proteins is unknown. To study this phenomenon in yeast, where no
RER
-specific membrane proteins have yet been identified, we expressed the human
RER
-specific protein, ribophorin I. In all mammalian cell types examined, ribophorin I has been shown to be restricted to the membrane of the
RER
. Here we ascertain that yeast cells correctly target, assemble, and retain ribophorin I in their
RER
. Floatation experiments demonstrated that human ribophorin I, expressed in yeast, was membrane associated. Carbonate (pH = 11) washing and Triton X-114 cloud-point precipitations of yeast microsomes indicated that ribophorin I was integrated into the membrane bilayer. Both chromatography on Con A and digestion with endoglycosidase H were used to prove that ribophorin I was glycosylated once, consistent with its expression in mammalian cells. Proteolysis of microsomal membranes and subsequent immunoblotting showed ribophorin I to have assumed the correct transmembrane topology. Sucrose gradient centrifugation studies found ribophorin I to be included only in fractions containing rough membranes and excluded from smooth ones that, on the basis of the distribution of
BiP
, included smooth ER. Ribosome removal from rough membranes and subsequent isopycnic centrifugation resulted in a shift in the buoyant density of the ribophorin I-containing membranes. Furthermore, the rough and density-shifted fractions were the exclusive location of protein translocation activity. Based on these studies we conclude that sequestration of membrane proteins to rough domains of ER probably occurs in a like manner in yeast and mammalian cells.
...
PMID:Protein retention in yeast rough endoplasmic reticulum: expression and assembly of human ribophorin I. 226 58
In guinea pig exocrine pancreatic cells intracisternal granules (ICGs) occur at a low frequency within the lumen of the
RER
. By starving and refeeding guinea pigs or injecting them in CoCl2 solution, the number of these granules is greatly increased. We show here that ICGs contain the complete set of secreted pancreatic digestive enzymes and proenzymes. Two other soluble proteins in the lumen of the
RER
, GRP 78/
BiP
and protein disulphide isomerase (PDI), are specifically excluded from ICGs. The formation of ICGs, which occurs without acidification of the
RER
cisternae, is therefore a sorting event involving the cocondensation of a complete set of secretory enzymes and proenzymes, which for brevity we refer to collectively as the zymogens. With the exception of approximately 50% of the RNase, the zymogens in ICGs are covalently cross-linked by intermolecular disulphide bonds. The synthesis of all three resident ER cisternal proteins--PDI, GRP 78/
BiP
, and GRP 94--with the carboxy-terminal sequence KDEL, is induced in response to the accumulation of massive amounts of misfolded secretory protein in the ICGs in the lumen of the
RER
. After injection of rats with large doses of parachlorophenylalanine-methylester, crystals form in the lumen of the
RER
. We show that these crystals appear to be a lattice of amylase with the other zymogens incorporated between the layers. Both GRP 78/
BiP
and PDI are excluded from these crystals. The formation of these amylase crystals within the
RER
and the inclusion of other zymogens is, therefore, also a sorting event. These data establish that in exocrine pancreatic cells zymogens can cocondense in the
RER
into either amorphous aggregates or crystals that exclude other soluble
RER
proteins. This demonstrates that cocondensation is a mechanism capable of sorting zymogens within the secretory pathway.
...
PMID:Condensation-sorting events in the rough endoplasmic reticulum of exocrine pancreatic cells. 274 55
Secretion of newly synthesized proteins across the mammalian rough endoplasmic reticulum (translocation) is supported by the membrane proteins Sec61p and TRAM, but may also include accessory factors, depending on the particular translocation substrate. Studies designed to investigate the binding of anti-peptide antibodies to the carboxyl terminus of the alpha-subunit of Sec61 (Sec61palpha) lead us to the isolation of a complex of proteins that occlude the cytosolic face of Sec61palpha in microsomes that have been prepared by standard protocols used to study translocation in vitro [Walter, P., and Blobel, G. (1983) Methods Enzymol. 96, 84-93]. This complex was shown by nanospray tandem mass spectrometry to be composed of protein disulfide isomerase (PDI), calcium binding protein 1 (CABP1/P5), 72 kDa endoplasmic reticulum protein (ERp72), and
BiP
(heat shock protein A5/HSPA5), and has been named TR-PDI for "translocon-resident protein disulfide isomerase complex". This constitutes a novel location for these proteins, which are known to be major constituents of the lumen of the rough endoplasmic reticulum. We have not established the function of TR-PDI at this location, but did observe that the absence of this complex results in a relative loss of correct topology of prion protein insertion across
RER
membranes, indicating the possibility of a functional role in vivo.
...
PMID:A complex of chaperones and disulfide isomerases occludes the cytosolic face of the translocation protein Sec61p and affects translocation of the prion protein. 1459 96
