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Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The experiments reported here further characterize a approximately 26[3H] kD cell surface glycoprotein that can be detected on rat cauda
epididymal
sperm using the
galactose oxidase
/NaB[3H]4 technique (1). When labeled sperm are treated with PI-PLC the 26[3H] kD is completely released from the cell. The released molecule can be recovered undegraded from incubation supernatant. Release by PI-PLC converts the hydrophobic, membrane-anchored form into a hydrophilic molecule as assessed by partition studies using Triton X114. Isoelectric focusing studies using both untreated (control) and PI-PLC treated samples shows that there is charge heterogeneity with two major peaks at pls of approximately 5.0 and approximately 4.5. We also show for the first time that the molecule persists on ejaculated cells.
...
PMID:The major maturation glycoprotein found on rat cauda epididymal sperm surface is linked to the membrane via phosphatidylinositol. 254 2
This paper explores the relationship between the
galactose oxidase
-sensitive glycoproteins from rat caudal
epididymal
sperm and fluid and, in addition, their relatedness to the 32,000-Da major acidic secretory glycoproteins of caudal
epididymal
fluid. The major acidic secretory glycoproteins were purified by a combination of high-resolution anion-exchange (Mono Q) and gel permeation (Bio-Sil TSK 125) chromatographic steps. Immunoprecipitation studies, peptide mapping, and the inability to label the purified glycoprotein by
galactose oxidase
/sodium boro[3H]hydride clearly established that the
galactose oxidase
-sensitive fluid and membrane glycoproteins were not related to these acidic secretory glycoproteins. Membrane and fluid tritium-labeled glycoproteins were shown to be closely related, but not identical, polypeptides. Sugar analysis indicated that both glycoproteins contain N- and O-linked saccharide chains and that the
galactose oxidase
-sensitive residue was present only on O-linked sugars. It was also found that efficient labeling of the 32,000-Da fluid glycoprotein was possible only if protease inhibitors were omitted from all buffers used in the isolation of caudal
epididymal
fluid and subsequent labeling procedures. This suggests that the fluid glycoprotein was acquired by the unintentional proteolysis of the membrane glycoprotein. Polyclonal antibodies raised against caput sperm plasma membranes immunoprecipitated tritium-labeled glycoproteins from both caudal
epididymal
fluid and sperm membrane, suggesting that a precursor form of the caudal
galactose oxidase
-sensitive glycoprotein may be present on caput sperm.
...
PMID:Characterization of the maturation-associated galactose oxidase-sensitive glycoproteins of rat caudal sperm plasma membrane and epididymal fluid. 293 Jan 87
Glycoproteins on the plasma membrane of testicular and cauda epididymidal spermatozoa have been labeled with
galactose oxidase
/NaB [3H]4 and sodium metaperiodate/NaB[3H]4, followed by analysis on SDS polyacrylamide gels. The major glycoprotein labeling on testicular spermatozoa has a molecular weight 110,000 whereas on cauda epididymidal spermatozoa greater than 90% of the radio-label is incorporated into proteins of molecular weight 32,000. These 32,000-mol wt X proteins are homologous with proteins of similar molecular weight purified from the
epididymal
secretion and which have been shown previously to be synthesized in the caput epididymidis under hormonal control. Immunofluorescence revealed that the 32,000-mol wt proteins are present on the flagellum of mature but not immature spermatozoa and that they have a patchy distribution suggesting that they are mobile within the plane of the membrane. The membrane-bound 32,000-mol wt proteins possess hydrophobic domains as revealed by charge-shift electrophoresis and they also label with a lipophilic photoaffinity probe suggesting that they are in contact with the lipid bilayer. The evidence indicates that there is a considerable reorganization of the molecular structure of the plasma membrane of spermatozoa during maturation in the epididymis and that some of the changes are brought about by a direct interaction with
epididymal
secretory proteins.
...
PMID:Changes in plasma membrane glycoproteins of rat spermatozoa during maturation in the epididymis. 629 50
Spermatozoa from the testis and cauda epididymidis of the rat were surface labelled with radioactive iodide. Detergent extracts of radioiodinated spermatozoa immunoprecipitated with antisera against specific
epididymal
proteins, followed by polyacrylamide gel electrophoresis, revealed two proteins (D and E of Mr 27 000 and 28 000, respectively) which became associated with spermatozoa during
epididymal
transit. These proteins were observed by immunofluorescence microscopy to be located over a restricted area of the head surface. Proteins with similar molecular weight were labelled on spermatozoa from the cauda epididymidis, but not from the testis, by reaction with sodium boro[3H]hydride in the presence of
galactose oxidase
. However, failure to immunoprecipitate with antibodies to Proteins D and E and non-coincident migration on two-dimensional gel electrophoresis established the non-identity of these proteins. Compared with Proteins D and E, two other major
epididymal
secretory proteins (Proteins B and C of Mr 16 000) associated with spermatozoa to a relatively minor extent during
epididymal
transit.
...
PMID:Localization of epididymal secretory proteins on rat spermatozoa. 635 62
Three radiolabeling procedures were applied to ram spermatozoa obtained at three different stages of posttesticular development: on leaving the testis (testicular sperm); after
epididymal
transit (cauda
epididymal
sperm); and after exposure to accessory sex gland secretions (ejaculated sperm). The washed spermatozoa were subjected to three radiolabeling treatments: 1)
galactose oxidase
and sodium boro [3H]hydride (galactosyl and galactosaminyl residues); 2) sodium metaperiodate and NaBH4 (sialyl residues); and 3) chloroglycoluril and Na125 I (tyrosyl residues). High resolution sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoretic analysis of the surface radiolabeling patterns confirms earlier studies in demonstrating an overall shift in the predominant labeled glycoproteins from the zone 78-115 kd in testicular spermatozoa to relatively low molecular weights of between 15 and 95 kd in cauda
epididymal
or ejaculated spermatozoa. Labeling procedures specific for glycoproteins and sialoglycoproteins revealed additional complexities in the surface transformation patterns of ram spermatozoa and suggest that cauda
epididymal
spermatozoa exposed to accessory sex gland secretions adsorb or produce a component of high molecular weight (approx. 350 kd).
...
PMID:Surface glycoprotein changes in ram spermatozoa during epididymal maturation. 662 54
A Mr = 32,000 membrane glycoprotein can be uniquely labeled by
galactose oxidase
/[3H]sodium borohydride on rat caudal, but not caput,
epididymal
sperm. It has been suggested that this protein is related to a Mr = 32,000
galactose oxidase
-sensitive glycoprotein present in rat caudal
epididymal
fluid. The tritiated membrane glycoprotein was solubilized and its hydrodynamic properties were determined by conventional gel filtration, high performance gel filtration, sedimentation rate determination in linear sucrose gradients prepared in H2O and D2O, and equilibrium isopycnic centrifugations in CsCl. The Stokes radius and sedimentation coefficient were 4.87 +/- 0.07 nm and 1.73 +/- 0.08 S, respectively. The sedimentation profile in CsCl gradients was asymmetric with a major peak occurring at a density of 1.081 g/cm3 (v = 0.92 cm3/g) and a shoulder at 1.108 g/cm3 (v = 0.90 cm3/g). The glycoprotein did not enter a 5 to 20% linear sucrose gradient prepared in D2O and could be extracted from the intact sperm into acidic chloroform:methanol solutions. These data are consistent with a protein which binds substantial amounts of detergent and/or lipid and has exposed hydrophobic regions. Two-dimensional gel electrophoresis indicated that the membrane protein exhibits charge heterogeneity, with the major components having pI values of 5.4 and 4.9. The fluid glycoprotein was monodisperse on two-dimensional gel electrophoresis having a pI of 3.8. Binding studies failed to demonstrate specific binding of the Mr = 32,000 caudal fluid glycoprotein to caput cells. Moreover, "Western blots" of electrophoretically resolved caput and caudal fluid proteins, followed by immunolabeling with antibodies raised against unfractionated caudal fluid, demonstrated the presence of a Mr = 32,000 protein in caudal fluid which was absent from caput
epididymal
fluid. Using the same technique, it was shown that antibodies raised against caudal fluid proteins did not cross-react with a Mr = 32,000 caudal membrane glycoprotein. Our data do not support the view that the Mr = 32,000 fluid and membrane proteins are identical.
...
PMID:Characterization of a maturation-associated glycoprotein on the plasma membrane of rat caudal epididymal sperm. 669 99
We have studied the synthesis of protein-bound carbohydrates in differentiating male germ cells in the mouse. Spermatocytes and spermatids synthesize asparagine-linked and high-molecular-weight glycopeptides as the major classes of protein bound carbohydrates. Asparagine-linked glycopeptides were found to be mainly composed of the complex bi-antennary type as shown by affinity chromatography on concanavalin-A Sepharose; high-molecular-weight glycopeptides were represented by nonfucosylated lactosaminoglycans since they were metabolically labeled with [14C]glucosamine but not with [3H]fucose, did not bind to DEAE-cellulose, and were susceptible to endo-beta-galactosidase. Labeling with
galactose oxidase
/Na B3H4 technique demonstrated that lactosaminoglycans were present on the surface of differentiating germ cells and of testicular and
epididymal
spermatozoa. Since lactosaminoglycans from germ cells and testicular spermatozoa were not retained on a column of fucose-binding lectin, it was concluded that these molecules do not contain fucose. On the other hand,
epididymal
spermatozoa lactosaminoglycans bound to the lectin and therefore contained fucose. A soluble fucosyltransferase, capable of transferring fucose to germ cell lactosaminoglycans, was found to be present in the epididymis but not in the testis. These data show that developing germ cells synthesize nonfucosylated lactosaminoglycans which are probably preserved throughout spermiogenesis. We suggest that these molecules are fucosylated in vivo by a fucosyltransferase secreted by the
epididymal
epithelium.
...
PMID:Lactosaminoglycans synthesized by mouse male germ cells are fucosylated by an epididymal fucosyltransferase. 670 6
Spermatozoa from the testis and cauda epididymidis of the rat were surface labelled with radioactive iodide, extracted with detergent, and the radioactive proteins separated by two-dimensional polyacrylamide gel electrophoresis. In some instances spermatozoa were also surface labelled with tritiated borohydride in the presence of
galactose oxidase
. Soluble proteins in blood serum, rete testis fluid and cauda
epididymal
plasma were also iodinated and separated by gel electrophoresis. In addition, aliquants of the radioactive sperm extracts, blood serum and reproductive tract fluids were each immunoprecipitated with polyspecific antisera directed against either testicular sperm membranes, caudal sperm membranes, blood serum, rete testis fluid or cauda
epididymal
plasma before gel electrophoresis. From the patterns of radioactive proteins detected on the resultant gels, a two-dimensional map was created for each of the sperm extracts and for the various fluids. Proteins which were nonhomologous between testicular and caudal spermatozoa were identified, as well as proteins which were common to spermatozoa and reproductive tract fluids. Epididymal transit was characterized by the loss of certain proteins from the sperm surface, including three borohydride-labelled proteins of Mr 130 000, and by the addition of others, most notably a highly abundant protein of Mr 42 000. Several of the proteins lost from spermatozoa accumulated in the
epididymal
plasma whilst some of those added to the sperm surface could be identified as direct secretory products of the epididymis. Rete testis fluid contained blood proteins in addition to others presumed to be testis-specific, whilst the composition of cauda
epididymal
plasma was markedly different from blood serum or rete testis fluid.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Analysis of surface proteins of rat spermatozoa during epididymal transit and identification of antigens common to spermatozoa, rete testis fluid and cauda epididymal plasma. 672 83
The major glycoprotein on the plasma membrane of testicular spermatozoa labelled with the
galactose oxidase
/NaB3H4 technique has mol.wt. 110 000. As spermatozoa pass through the epididymis, labelling of this glycoprotein disappears and is replaced by labelling of a 32 000-mol.wt. protein. The latter protein is a major component of
epididymal
secretions. The evidence suggests that it is inserted into or absorbed on to the plasma membrane, and since its appearance on spermatozoa correlates with the acquisition of fertilizing capacity it should serve as a good marker for assessing maturation in vitro.
...
PMID:Labelling of membrane glycoproteins on rat spermatozoa collected from different regions of the epididymis. 734 Aug 48
The principal
galactose oxidase
/NaB[3H]4-labeled membrane protein of rat caudal
epididymal
spermatozoa was isolated by hydrophobic interaction chromatography. The protein is released from the membrane by the action of phosphatidylinositol specific phospholipase C, and thereby its properties are transformed from those of a protein anchored to the hydrophobic membrane to those of a hydrophilic solution protein. Because it is the only membrane-associated protein released by the enzyme which did not absorb to a propylaspartate resin, a simple, single step purification procedure was devised. Although the amino terminus of the protein is blocked to Edman degradation, the majority of the protein structure was determined from a series of tryptic peptides and from limited acid hydrolysis. Approximately 65% of the protein mass is carbohydrate which is primarily attached through O-glycosidic bonds to the 18 threonines. The molecular weight of the glycoprotein was estimated to be 16,600, considerably smaller than the M(r) = 26,000 to 37,000 previously determined by gel electrophoresis. The anomalous electrophoretic behavior is undoubtedly due to the large percentage of carbohydrate. The distribution of carbohydrate on the protein side chains suggests the protein may form a positively charged, specialized scaffolding for the presentation of the carbohydrate moieties. Because the appearance of the ability to label the protein with
galactose oxidase
is correlated with sperm maturation in the epididymis, the glycoprotein structures may be an important component in the fertilization process. The combination of linkage by glycosylphosphatidylinositol and low molecular weight mucin-like structure indicates this may be a member of a new class of membrane proteins.
...
PMID:Characterization of a cell surface glycoprotein associated with maturation of rat spermatozoa. 812 26
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