305,158 research outputs found
Interfering with apoptosis: Ca(2+)-binding protein ALG-2 and Alzheimer's disease gene ALG-3.
DISSOCIATION OF APOPTOSIS AND ACTIVATION OF IL-1BETA-CONVERTING ENZYME/CED-3 PROTEASES BY ALG-2 AND THE TRUNCATED ALZHEIMER'S GENE ALG-3.
ISOLATION AND DEDUCED AMINO-ACID-SEQUENCE OF THE GENE ENCODING GP115, A YEAST GLYCOPHOSPHOLIPID-ANCHORED PROTEIN CONTAINING A SERINE-RICH REGION
gp115 is a N- and O-glycosylated protein of Saccharomyces cerevisiae. It is also modified by addition of glycosylphosphatidylinositol, which anchors the protein to the plasma membrane. The gene encoding gp115 (GGP1) has been cloned by a two-step procedure. By an immunoscreening of a yeast genomic DNA library in the expression vector lambda-gt11, a 3'-terminal 0.9-kilobase portion of the gene has been isolated and then used as a molecular probe to screen a yeast genomic DNA library in YEp24. In this way, the whole GGP1 gene has been cloned. Its identity with the gp115 gene has been confirmed by gene disruption, which has also indicated that the function of gp115 is not essential for cell viability. The features of the sequence are also entirely consistent with it corresponding to the gp115 gene. The nucleotide sequence of GGP1 predicts a 60-kDa polypeptide, in agreement with the molecular mass of the gp115 precursor detected in sec53 mutant cells at restrictive temperature. Two hydrophobic sequences, one NH2- and the other COOH-terminal were found. The former has the features of the cleavable signal sequence, which allows the entry of proteins in the secretory pathway. The latter could be the signal sequence that has to be removed during the addition of glycosylphosphatidylinositol. The predicted amino acid sequence of gp115 shows 10 sequons for N-glycosylation and a high proportion of serine-threonine residues (22%) that could provide several sites for O-glycosylation. The unusual concentration of 27 serines in the COOH-terminal portion of the protein shares homology with a similar polyserine repeat of the serine repeat antigen (SERA protein) of Plasmodium falciparum. A two-dimensional analysis of the "in vitro" translational product of the GGP1 mRNA has been carried out, allowing the identification of the "in vivo" gp115 precursor in a two-dimensional gel
CHANGES IN THE PROTEIN-SYNTHESIS PATTERN DURING A NUTRITIONAL SHIFT-DOWN TRANSITION IN SACCHAROMYCES-CEREVISIAE
In Saccharomyces cerevisiae cells (strain A364A) during a shift-down from glucose to raffinose, a rapid reduction in the rate of RNA accumulation was observed whereas the rate of protein accumulation was unaffected for at least 2 h. Following the transition the percentage of unbudded cells slightly increased and the cell volume distribution showed a newly formed subpopulation of smaller cells. To study the effects of the shift-down on the protein synthesis pattern, total [35S]-methionine pulse-labeled extracts were fractionated by high-resolution two-dimensional gel electrophoresis. The synthesis of two classes of proteins (I and II) was modulated during the transitory state of growth: one positively, the other negatively. Two polypeptides of 57 kDa showed the most dramatic increase in synthesis during the shift-down. Also a heat-shock protein (HSP 256) appeared to be positively correlated to the shift-down transition
Immunochemical characterization of gp115, a yeast glycoprotein modulated by the cell cycle
A cell cycle-modulated glycoprotein (gp115, 115 kDa, isoelectric point 4.8-5) of Saccharomyces cerevisiae has been purified by Concanavalin A-affinity chromatography, followed by preparative two-dimensional gel electrophoresis, from yeast membrane proteins solubilized in Triton X-100. Antisera have been generated against the electrophoretically purified protein. Their specificity has been established by immunoblot analysis and by comparison of the partial proteolytic map obtained for the immunoprecipitated 35S-labeled 115 kDa polypeptide with that of the in vivo [35S]methionine-labeled gp115 isolated from two-dimensional gels. In tunicamycin-treated cells the immunoblot analysis identifies an unglycosylated precursor (86-88 kDa) and in sec18 mutant cells at the restrictive temperature an intermediary precursor of about 100 kDa. Six to seven carbohydrate chains have been estimated to be present on the gp115 protein, accounting for an electrophoretic shift corresponding to about 27 to 29 kDa of its relative molecular mass. Affinity-purified antibodies against the unglycosylated precursor (86-88 kDa) of gp115 were prepared and used to localize gp115 by indirect immunofluorescence microscopy. The similarity between the pattern of fluorescence obtained with these antibodies and that obtained using anti-plasma membrane H+-ATPase antibodies suggests an association of gp115 with the plasma membrane
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