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Query: UNIPROT:P56851 (
epididymal
)
11,273
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A new melanocyte-stimulating peptide has been isolated from acid extracts of frozen human pituitary glands by salt/ethanol fractionation, Sephadex G-75 gel filtration and DEAE- and cM-cellulose ion-exchange chromatography. The peptide is glycosylated, has an N-terminal tryptophan residue and an apparent mol.wt. of 16000 as estimated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Its amino acid analysis closely resembles residues Trp-105 to Gln-29 predicted for the common
precursor protein
of bovine corticotropin and beta-lipotropin by Nakanishi, Inoue, Kita, Nakamura, Chang, Cohen & Numa [(1979) Nature (London) 278, 423-427]. This fragment is expected to have melanotropin activity due to the tetrapeptide -His-Phe-Arg-Trp- (residues -51 to -48) of the predicted sequence of the common precursor. It was found to have a molar potency of 1 X 10(-5) relative to alpha-melanotropin in the frog skin bioassay. These characteristics are consistent with the isolated melanotropin peptide being a non-corticotropin, non-lipotropin peptide of the human common
precursor protein
of corticotropin and lipotropin. The peptide neither potentiates the adrenal weight-maintenance activity of corticotropin-(1-24)-tetracosapeptide when administered to hypophysectomized rats, nor stimulates release of non-esterified fatty acids from isolated rat
epididymal
cells. A second N-terminal-tryptophan glycopeptide was also isolated, which had an amino-acid composition similar to that predicted for the bovine common
precursor protein
, residues Trp-105 to Gly-35.
...
PMID:Purification and characterization of a gamma-melanotropin precursor from frozen human pituitary glands. 747 89
SP-10 is a testis-specific acrosomal protein that has been detected in several species including humans. Extracts from whole human testis and
epididymal
, ejaculated, and capacitated sperm were analyzed by Western blot for SP-10 polypeptides. The testis extracts contained a full-length SP-10 protein at approximately 45 kDa as well as other immunoreactive SP-10 peptides at 32, 30, 28, and 26 kDa. Extracts from
epididymal
, ejaculated, and capacitated sperm contained several immunoreactive SP-10 peptides that co-migrated with the 32-26-kDa SP-10 peptides in the testis extracts. Epididymal, ejaculated, and capacitated sperm extracts did not contain the 45-kDa SP-10 peptide observed in testis extracts, but did contain immunoreactive SP-10 peptides from 25 to 18 kDa that were not detected in testis extracts. These results indicate that a full-length 45-kDa SP-10
precursor protein
is present in the testis and that SP-10 peptides of 32, 30, 28, and 26 kDa result from proteolytic processing of the SP-10
precursor protein
in the testis and/or alternative splicing. In addition, SP-10 peptides of 25-18 kDa were first detected in extracts of caput
epididymal
sperm and probably resulted from the proteolytic processing of the 45- and 32-26-kDa SP-10 peptides in the initial segment or caput epididymidis. Also, no additional SP-10 bands were detected in extracts of cauda
epididymal
, ejaculated, or capacitated sperm, suggesting that no further processing of the 32-18-kDa SP-10 peptides occurred during
epididymal
transit, ejaculation, and capacitation. Electron microscopic immunocytochemical observations of
epididymal
, ejaculated, and capacitated sperm revealed that colloidal gold labeling of SP-10 was most abundant within the principal segment and posterior bulb of the equatorial segment of the acrosome, while the colloidal gold labeling of SP-10 was sparse in the anterior equatorial segment of the acrosome. After a follicular fluid-induced acrosome reaction, SP-10 was detected on the inner acrosomal membrane in the equatorial segment and was associated with hybrid vesicles. This localization after the acrosome reaction is consistent with the hypothesis that SP-10 may be involved in sperm-zona binding or penetration.
...
PMID:Human SP-10: acrosomal distribution, processing, and fate after the acrosome reaction. 788 99
We have cloned and sequenced cDNAs encoding autoantigen 1 (AA1), a testis-specific protein and the major autoantigen of the guinea pig sperm acrosome. The cDNA predicts a
precursor protein
of 244 amino acids including a 21 amino acid hydrophobic, secretory signal sequence. The mature polypeptide is predicted to have a molecular mass of 24,891 Daltons which agrees with the experimentally determined molecular weight of 25,000. Consistent with previous studies demonstrating that AA1 is not a glycoprotein, the predicted amino acid sequence contained no canonical sites for N-linked glycosylation. Comparison with other sequences showed that AA1 is the guinea pig homologue of the testis-specific protein Tpx-1 in mice and TPX1 in humans. AA1 also showed significant amino acid sequence homology with other cysteine-rich secretory proteins (CRISP's): rat and mouse acidic
epididymal
glycoproteins (AEG; also known as proteins D/E in rats) and helothermine, a toxin from the Mexican beaded lizard. In addition, AA1 had a lesser degree of homology with antigen 5 (vespid wasp venom), PR-1 (a plant pathogenesis related protein), and GliPR (a protein identified in human gliomas). Northern analysis of RNA from purified guinea pig spermatogenic cells showed that a 1.5 kb message was first detected in pachytene spermatocytes, was strongest in round spermatids, and was detected at a low level in condensing spermatids. Immunoblot analysis and metabolic labeling data of AA1 in spermatogenic cells showed that the protein was synthesized as early as the pachytene spermatocyte stage of spermatogenesis. Thus, the patterns of AA1 mRNA and protein expression during spermatogenesis are similar to the expression of other acrosomal mRNAs and proteins that are first detected meiotically.
...
PMID:Autoantigen 1 of the guinea pig sperm acrosome is the homologue of mouse Tpx-1 and human TPX1 and is a member of the cysteine-rich secretory protein (CRISP) family. 911 20
The hamster sperm acrosome contains a stable matrix complex that binds specific hydrolases and appears to regulate their release during the acrosome reaction. This complex comprises two contiguous but ultrastructurally distinct regions that are segregated to specific sites within the acrosome. In this study, we define the temporal expression, processing, and localization of major matrix proteins of 29 kDa (AM29) and 22 kDa (AM22) during spermiogenesis and post-testicular sperm maturation in the epididymis. Peptide mapping, N-terminal microsequence analysis, immunoblotting, and immunocytochemistry were used to demonstrate that AM29 and AM22 of mature spermatozoa are structurally related and appear to arise from a common 40-kDa
precursor protein
expressed in round spermatids. A monoclonal antibody that recognized only the mature forms of the matrix proteins and a polyclonal antibody that recognized both the precursor and fully processed matrix proteins were prepared and used to demonstrate that the
precursor protein
is present in the acrosome of round spermatids and that it undergoes size processing during the terminal stages of spermiogenesis so that the mature matrix polypeptides are evident in
epididymal
spermatozoa. Finally, using light and electron microscopic immunocytochemistry, we demonstrated that the matrix polypeptides are excluded from the equatorial segment and are localized to both structurally distinct matrix domains of the mature acrosome. These data show that processing of the major proteins of the acrosomal matrix occurs in a temporally regulated fashion after their transport to the acrosome and that the processed products can assemble into ultrastructurally distinct matrix elements.
...
PMID:Acrosome biogenesis in the hamster: ultrastructurally distinct matrix regions are assembled from a common precursor polypeptide. 947 90
