1,721,037 research outputs found
DansylAlanylLysylChlromethylketone as fluorescent probe for localization of acrosin in boar and human spermatozoa
No full textThe localization of acrosin (EC 3.4.21.10) activity in mammalian spermatozoa was investigated by use of the fluorescent site-directed acrosin inhibitor, dansylalanyllysylchloromethyl ketone (DALCK). Fluorescence microscope preparations revealed, after the spermatozoa were subjected to a specific treatment, that acrosin activity is confined specifically to the inner acrosomal membrane (IAM). Spectrofluorometric and fluorescence polarization investigations verified that the fluorescent probe, once it is specifically bound to the treated spermatozoa, lies in a very hydrophobic environment and shows a remarkable reduction of rotational freedom. These results are compatible with the hypothesis that, under the experimental conditions used, active acrosin is tightly bound to the IAM and that the "specificity site" of the acrosin-active center is probably of a highly hydrophobic nature
mUBPy and MSJ-1, a deubiquitinating enzyme and a molecular chaperone specifically expressed in testis, associate with the acrosome and centrosome in mouse germ cells
No full textCytochemical demonstration that acrosin is unavailable in intact ejaculated boar and bull spermatozoa
No full textThe cytochemical localization of acrosin (EC 3.4.21.10) was investigated using a fluorescent technique, based on the use of fluorogenic substrates, derivatives of 4-methoxy-beta-naphthylamine, which liberate a fluorescent tag that, if coupled to 5-nitrosalicylaldehyde, generates an insoluble, fluorescent product. From the data obtained from boar and bull spermatozoa that had been subjected to different treatments, we have found that the acrosomal, trypsinlike proteinase is practically inaccessible in intact, freshly ejaculated spermatozoa. Acrosin activity was detected after subjecting the spermatozoa to a treatment that simulates the process they undergo at the moment of fertilization, showing a particulate localization in the acrosome of some of the spermatozoa
Identification of proteins cross-reactive to phosphotyrosine antibodies and of a tyrosine kinase activity in boar spermatozoa
No full textWe used two different anti-phosphotyrosine antibodies to identify phosphotyrosine-containing proteins in a germ cell, the boar spermatozoon. Ejaculated spermatozoa presented three major polypeptides, of Mr 43,000, 40,000 and 36,000, respectively, that were immunorecognized on Western blots. These proteins were selectively enriched in the Triton X-100-soluble fraction and were released neither after an A23187-induced acrosome reaction nor after sperm homogenization. These findings suggest the presence of the three proteins in plasma membrane regions not involved in the acrosomal vesiculation. When epididymal boar spermatozoa were investigated, Western blot analysis of the detergent-soluble fractions from caput sperm did not reveal any detectable 43,000, 40,000 and 36,000 Mr proteins cross-reactive with phosphotyrosine antibodies, whereas the detergent-soluble fractions from cauda sperm yielded very strong immunoreactive signals. Labelling of freshly ejaculated spermatozoa with [32P]orthophosphate yielded a wide range of labelled phosphoproteins, but we failed to identify specific tyrosine phosphorylation under the experimental conditions employed. Tyrosine phosphorylation occurred when specific synthetic polymers of tyrosine, commonly used for studying tyrosine protein kinases, were assayed as substrates against both the Triton-soluble and Triton-insoluble sperm fractions. This is the first immunological and biochemical report on the presence of phosphotyrosine-containing proteins and protein kinase activities that phosphorylate tyrosine residues in a mammalian mature spermatozoon
The deubiquitinating enzyme mUBPy interacts with the sperm-specific molecular chaperone MSJ-1 : the relation with the proteasome, acrosome, and centrosome in mouse male germ cells
No full textThe mouse USP8/mUBPy gene codifies a deubiquitinating enzyme expressed preferentially in testis and brain. While the ubiquitin-specific processing proteases (UBPs) are known to be important for the early development in invertebrate organisms, their specific functions remain still unclear in mammals. Using specific antibodies, raised against a recombinant mUBPy protein, we studied mUBPy in mouse testis. The mUBPy is expressed exclusively by the germ cell component and is maintained in epididymal spermatozoa. The enzyme is functionally active, being able to detach ubiquitin moieties from endogenous protein substrates. Protein interaction assays showed that sperm UBPy interacts with MSJ-1, the sperm-specific DnaJ protein evolutionarily conserved for spermiogenesis. Immunocytochemistry revealed that mUBPy shares with MSJ-1 the intracellular localization during spermatid cell differentiation; intriguingly, we show here that the proteasomes also locate in mUBPy/MSJ-1-positive sites, such as the cytoplasmic surface of the developing acrosome and the centrosomal region. These colocalization sites are maintained in epididymal spermatozoa. The demonstration of a protein interaction between a deubiquitinating enzyme and a molecular chaperone and the documentation on the proteasomes in both differentiating and mature mouse male germ cells suggest that members of the chaperone and ubiquitin/proteasome systems could cooperate in the fine control of protein quality to yield functional spermatozoa
Biochemical studies on proacrosin and acrosin from epididymal boar spermatozoa: in vitro translation of boar testicular proacrosin mRNA
No full textAn inactive form of acrosin was extracted from epididymal boar spermatozoa utilizing acid pH conditions. When subjected to activation in alkaline environment, this form turns into an enzymatically active species, which exhibits close-related electrophoretic characteristics. Both the precursor and the activated species, when incubated in the presence of thermolysin, give rise to two fastly moving acrosin molecular forms. In order to establish the nature of the true acrosin zymogen, we isolated poly(A+)-RNA from boar testicles, performed its translation in vitro in the presence of [35S]-methionine and reticulocyte lysate, immunoprecipitated the translation products with anti-boar acrosin antibody, and analyzed them by SDS-polyacrylamide gel electrophoresis and autoradiography. A single translation product of molecular weight 55,000 was detected. It is concluded that the polypeptide chain of the boar zymogen is of 55,000; increases in molecular weight are due to post-translational modifications, like glycosylation
Analysis of protein and cell volume distribution in glucose-limited continuous cultures of budding yeast
No full textMethod of flow cytometric analysis have recently been developed that make it possible to obtain segregated data on a single cell basis. In particular, it has been previously demonstrated that protein distributions obtained by flow cytometry give information about the law of growth of the cell population and the law of growth of the single cell; thus these distribution show how the microbial population is actually growing at the moment of the analysis and may yield more accurate and predictive information. We have extended the analysis of protein distribution and cell volume distribution to continuous cultures of Saccharomyces cerevisiae growing in a glucose-limited chemostat. We have found that: (1) to each dilution rate corresponds a given protein and volume distribution that does not change with time in steady state cultures; (2) there is a good proportionality between the average cell volume and the average protein content; (3) the protein distribution obtained can be easily analyzed with the model of growth of yeast previously developed in our laboratory; (4) the analysis of perturbed states shows that both protein distribution and volume distribution change very quickly; thus they are very sensitive parameters and can be used for monitoring and controlling industrial fermentation
Yeast 2 micron vectors replicate and undergo recombination in Torulaspora delbrueckii
No full textIn order to develop a procedure for transformation of the industrial yeast Torulaspora delbrueckii, we have constructed a set of recombinant plasmids carrying Saccharomyces cerevisiae ARS and 2 microns origin of replication and kanamycin-G418 resistance gene of Tn903(601) as a selective marker. In this paper we show that S. cerevisiae ARS vectors can replicate autonomously and that vectors bearing the whole S. cerevisiae 2 microns sequence yield stable transformants. We also present evidence to show that 2 microns vectors undergo an FLP-mediated inter- and intramolecular recombination, which suggests that T. delbrueckii can support the amplification and partition mechanisms of these plasmids
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