Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Vitelline coats (VCs) of Phallusia mammillata were isolated and purified following homogenization of live eggs in order to investigate the molecular basis of sperm-egg recognition. Clean VCs were partly solubilized by sonication in H2O and the soluble fraction (SFVC), derived from the outer surface of VCs, was used for further characterization. Electrophoretic analyses of radioiodinated VCs revealed that SFVC consists of two major glycoprotein components with apparent average Mr's of 450,000 and 180,000, respectively. The 450,000 Mr component is composed of several charge isomers, whereas the 180,000 Mr component is supposed to consist of two oligomers, both with acidic pI, held together by a disulfide linkage(s). Each of the two components possesses WGA-binding sites as shown by transblotting followed by WGA-peroxidase treatment. The amino acid composition of SFVC was determined after acid hydrolysis and its carbohydrate composition was analyzed and quantified by GLC. GlcNAc and GalNAc were found to predominate with 86% by weight of total sugar content and fucose, mannose, and glucose accounted for the remaining 14%. The susceptibility of SFVC to enzymatic (N-glycosidase F) and chemical (TFMS) deglycosylation as well as to protease (
trypsin
and chymotrypsin) digestion was investigated. Furthermore,
sperm receptor
activity of SFVC was tested in a fertilization assay. The fertilization rate decreased in a concentration-dependent manner when sperm were preincubated with SFVC. Additionally, sperm treated with SFVC showed binding for FITC-WGA or WGA-gold at the apical portion of the sperm head. Therefore, we strongly assume that one or both of the identified glycoprotein macromolecules of SFVC are involved in sperm-egg recognition.
...
PMID:Glycoprotein constituents of the vitelline coat of Phallusia mammillata (Ascidiacea) with fertilization inhibiting activity. 166 Apr 20
This paper presents morphological data on mouse oocyte maturation and fertilization, reviews evidence supporting the existence of a
sperm receptor
, and suggests future directions for this line of research. We used scanning electron microscopy to examine oocytes under a variety of conditions. The surfaces of mature mouse oocytes are seen to be similar whether maturation occurs in vivo or in vitro. Capacitated sperm (both acrosome-intact and acrosome-reacted) are observed to interact with the microvilli of the oocyte surface. Little is known about oocyte surface proteins that mediate fertilization in mammals. Data of ours and others show that enzyme treatment of live unfertilized eggs interferes with sperm binding. Enzyme treatment (
trypsin
, chymotrypsin treatment, or pronase) reduces the number of bound sperm, suggesting removal of a surface protein involved in fertilization. Trypsin treatment also causes some lengthening of surface microvilli in a belt surrounding the metaphase II region. After metabolic labeling, proteins of zona-free unfertilized eggs can be identified by SDS-PAGE and autoradiography. Comparison of 1-D gels from untreated and enzyme-treated eggs show the nearly complete disappearance of proteins of 263, 170, 137, 97, and 87 kD after digestion; an increase in a 66 kD protein after
trypsin
or chymotrypsin; and a major new band of 20 kD after chymotrypsin treatment. Fertilized eggs show the loss of a 255-265 kD band among other changes. Proteins of 97 kD and 87 kD were seen previously by surface labeling (Johnson and Calarco, 1980b), and our 97 kD and 66 kD bands are similar in molecular weight to those identified by Boldt et al. (1989). Taken together, these data identify a few candidate proteins for the role of
sperm receptor
on the egg surface. Future work should focus on identification of the surface protein(s) which functions physiologically in fertilization by developing fertilization-blocking antibodies. Relatedness to other mammalian sperm receptors and identification of the genes involved would provide valuable information to our understanding of fertilization and to the problems of infertility and contraception.
...
PMID:Fertilization of the mouse oocyte. 186 39
Boar sperm acrosin is an acrosomal protease with
trypsin
-like specificity, and it functions in fertilization by assisting sperm passage through the zona pellucida by limited hydrolysis of this extracellular matrix. In addition to a proteolytic active site domain, acrosin binds the zona pellucida at a separate binding domain that is lost during proacrosin autolysis. In this study, we quantitate the binding of proacrosin to the physiological substrate for acrosin, the zona pellucida, and to a non-substrate, the polysulfated polysaccharide fucoidan. Binding was analogous to sea urchin sperm bindin that binds egg jelly fucan and the vitelline envelope of sea urchin eggs. Proacrosin was found to bind to fucoidan and to the zona pellucida with binding affinities similar to bindin interaction with egg jelly fucan. These interactions were competitively inhibited by similar relative molecular mass polysulfated polymers. Since bindin and proacrosin have distinctly different amino acid sequences, their interaction with acidic sulfate esters demonstrates an example of convergent evolution wherein different macromolecules localized in analogous sperm compartments have the same biological function. From cDNA sequence analysis of proacrosin, this binding may be mediated through a consensus sequence for binding sulfated glycoconjugates. Proacrosin binding to the zona pellucida may serve as both a recognition or primary
sperm receptor
, as well as maintaining the sperm on the zona pellucida once the acrosome reaction has occurred.
...
PMID:The interaction of boar sperm proacrosin with its natural substrate, the zona pellucida, and with polysulfated polysaccharides. 190 70
In earlier studies from our laboratory, the intact
sperm receptor
was partially purified from Strongylocentrotus purpuratus crude egg membranes, but due to its insolubility, it was not possible to purify it to homogeneity. Nonetheless, this receptor preparation bound with species specificity to acrosome-reacted sperm, thereby inhibiting fertilization. Antibodies against the partially pure receptor inhibited fertilization in S. purpuratus (but not Arbacia punctulata) by coating the egg surface, indicating the presence of binding sites that can be species-specifically recognized by both sperm and antibody molecules. Recently we were able to further purify and characterize the receptor from S. purpuratus eggs. Chaotropic agent solubilization of the receptor prepared from crude egg membranes yielded a very high molecular weight glycoconjugate that had many of the properties of a proteoglycan. The receptor interacted with binding in an in vitro assay and bound with species specificity to acrosome-reacted sperm to inhibit fertilization. Unfortunately, this receptor preparation was soluble only in certain chaotropic agents. Exhaustive Pronase digestion of the intact receptor yielded a soluble high-molecular-weight (greater than 10(6)) polysaccharide that was virtually devoid of protein. This glycosaminoglycan-like fragment was highly sulfated, and contained fucose, galactosamine, and iduronic acid. The fragment inhibited fertilization, but did not do so with species specificity. Recently, soluble molecules with receptor activity were generated by treating intact dejellied eggs with
trypsin
. These proteolytically derived molecules contained (on a weight basis) approximately equal amounts of protein and carbohydrate. Importantly, they inhibited fertilization with species specificity. The results suggested that the binding activity was conferred by the polysaccharide component of the receptor and that the intact receptor and the tryptic fragments contained structural elements in the polypeptide chain necessary for species recognition.
...
PMID:Characterization of the Strongylocentrotus purpuratus egg cell surface receptor for sperm. 382 83
Intact and univalent antibodies were prepared against mechanically isolated mouse zonae pellucidae solubilized in a variety of ways (heat, low pH, SDS, urea and
trypsin
). The antisera bound avidly and specifically to solubilized iodinated zona antigens and the intact zona structure. When the concentrations of immunoreactive Fab material in the intact and univalent antibody preparations were equalized and compared for their ability to block the sperm-binding stage of fertilization, only the intact gamma-globulin preparations possessed antifertility activity. These results indicate that antibodies raised against intact solubilized zonae pellucidae block fertilization by cross-linking antigens on the outer zona surface, thereby indirectly masking the
sperm receptor
sites. The integrity of these surface components did not appear to be affected by solubilization procedures that disrupt non-covalent bonds (heating, low pH, SDS and urea) although they did appear to be adversely affected by
trypsin
treatment. None of the antisera tested contained antibodies directed against the
sperm receptor
site indicating that these critical components lack immunogenicity.
...
PMID:Properties of intact and univalent (Fab) antibodies raised against isolated, solubilized, mouse zonae pellucidae. 618 Dec 52
