A cDNA for parafusin, an evolutionarily conserved phosphoglycoprotein involved in exocytosis, has been cloned and sequenced from a uniceilular eukaryote, Paramecium tetraurelia. A Paramecium cDNA library was screened with an oligonucleotide probe synthesized to an internal amino acid sequence of isolated parafusin. The insert was 3 kb long with an open reading frame of 1.75 kb. Data base searches of the deduced amino acid sequence showed that Paramecium parafusin had a 50.7% sequence identity to rabbit muscle phosphoglucomutase, although no detectable phosphoglucomutate activity has been detected in isolated parafusin. The deduced parafusin amino acid sequence had four inserts and two deletions, which might confer on the protein specific functions in signal transduction events related to exocytosis. Furthermore, searches for potential phosphorylation sites showed the presence of a protein kinase C site (KDFSFR) specifi to parafusin. Southern blot analysis with probes specific for parafusin and phosphoglucomutase suggested that these proteins-were products of different genes. We propose that parafusin and phosphoglucomutase are members of a superfamily that conserve homologies important for the tertiary structure of the molecules.Previously we discovered a cytosolic phosphoprotein, parafusin, that plays a role in regulated exocytosis in the unicellular eukaryote Paramecium (1, 2) and that is evolutionarily conserved (3). Parafusih has been shown to be phosphorylated via a Ca2+-dependent protein kinase (4). Surprisingly, parafusin is also a phosphoglycoprotein in which a short chain ofmannose residues is 0-linked to serine. This chain is phosphoglucosylated by a glucose-1-phosphate phosphotransferase that uses UDP glucose (5). We have recently demonstrated that dephosphoglucosylation is catalyzed by a Ca2+-activated phosphodiesterase. Cells in which parafusin is normal but that are unable to release the content of their dense core secretory vesicles upon stimulation show inactive phosphodiesterase, suggesting that dephosphoglucosylation is a critical event in the pathway to exocytosis (4).Tryptic digests of parafusin purified as described earlier (6)
Helicobacter pylori, a cause of peptic ulcer disease and certain types of gastric cancers, has usually been cultured on diverse agar-based media, resulting in a requirement for 2 to 4 days of growth at 37°C. We have developed a novel broth medium consisting of a base medium supplemented with 2% newborn calf serum, Mg 2؉ , Cu 2؉ , Fe 2؉ , Zn 2؉ , Mn 2؉ , and 1 mg of lysed human erythrocytes per ml. This medium supports rapid growth of H. pylori, with a doubling time of about 50 min. Optimal growth was obtained in a pH range higher than that supporting most other gram-negative bacteria (at pH 8.5). H. pylori cultured in this supplemented broth retains the spiral morphology seen in both histological sections and cultures from agar-based media and also retains a high urease activity. After 18 h in this broth, H. pylori transforms to a coccal form with a complete loss of urease activity. Previously these cocci have been reported to be senescent, since they could not be subcultured on agar medium. Our experiments suggest that some of the cocci can revert back to the spiral morphology with full recovery of urease activity when subcultured in fresh microaerobic broth medium.
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