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Initial events involved in the synthesis of the lysosomal enzyme alpha-mannosidase in Dictyostelium discoideum 总被引:4,自引:0,他引:4
In Dictyostelium discoideum the lysosomal enzyme alpha-mannosidase is initially synthesized in vivo as a 140,000 Mr protein which is subsequently processed into two mature acidic glycoproteins of 60,000 and 58,000 Mr. To investigate the initial events involved in the synthesis of this protein, mRNA isolated from growing cells was translated in vitro and the resulting protein products were immunoprecipitated with antibodies prepared against the purified enzyme. Messenger RNA prepared from membrane-bound but not free polysomes directed the synthesis of an immunoprecipitable 120K protein that was identified as the alpha-mannosidase primary translation product by a variety of criteria. Translation in vitro in the presence of dog pancreas microsomes resulted in the conversion of the 120K primary translation product to a 140K form. This 140K species was not accessible to added trypsin under conditions preserving membrane integrity, suggesting it is sequestered in the lumen of the endoplasmic reticulum following synthesis. Treatment of either the in vitro modified or cellular 140K alpha-mannosidase precursors with endoglycosidase H resulted in the appearance of proteins 2K larger than the primary translation product. The pulse-labeled cellular precursor and the in vitro processed form have similar isoelectric points as revealed by two-dimensional gel electrophoresis. These results imply that the precursor is N-glycosylated in the endoplasmic reticulum possibly without removal of the signal sequence and that the majority of acidic modifications are added late in the post-translational pathway. 相似文献
24.
Carmelo B. Bruni M. Stella Carlomagno Silvestro Formisano Giovanni Paolella 《Molecular & general genetics : MGG》1986,203(3):389-396
Summary A detailed comparative analysis of the Escherichia coli and Salmonella typhimurium hisIE and hisD gene products and the functionally equivalent, single, HIS4 gene product of Saccharomyces cerevisiae permitted several insights concerning the relationship between these genes. Our analysis supports the idea that HIS4 results from the fusion of hisIE and hisD. The comparison permitted a more precise definition of the functional domains of hisI/HIS4A and hisE/HIS4B as well as the two functional domains of hisD/HIS4C. The homologies between the bacterial and yeast sequences suggest a region of the hisD/HIS4C protein that may constitute one of the active centres. A large fragment at the amino terminal region of the yeast protein is missing from the bacterial hisIE gene product and is probably not needed for catalytic activity. Another region of non-homology in the yeast protein is probably a peptide bridge connecting the HIS4AB domain to HIS4C. Although the overall homology at the level of amino acid sequence is modest (about 38%) there is a striking similarity when the hydropathic patterns and predicted secondary structural configurations of these proteins are compared. 相似文献
25.
Sergio Sgorbati Marisa Levi Elio Sparvoli Federica Trezzi Giovanni Lucchini 《Physiologia plantarum》1986,68(3):471-476
Cytometry and flow cytometry were used to study characteristics of fluorescence of the DNA-DAPI complex in nuclei released from different fresh and formaldehyde-fixed pea ( Pisum sativum L. cv. Lincoln) tissues. The two methods of isolation are compared and discussed as well as their possible use for quantitative analysis of DNA in plant tissues. With fixed tissues it is possible to obtain a number of nuclei sufficient for the flow cytometric analysis, even using small amounts of plant tissue. 相似文献
26.
Lysosomal enzymes in Dictyostelium discoideum are transported to lysosomes at distinctly different rates 总被引:6,自引:3,他引:3 下载免费PDF全文
We are investigating the molecular mechanisms involved in the localization of lysosomal enzymes in Dictyostelium discoideum, an organism that lacks any detectable mannose-6-phosphate receptors. The lysosomal enzymes alpha-mannosidase and beta-glucosidase are both initially synthesized as precursor polypeptides that are proteolytically processed to mature forms and deposited in lysosomes. Time course experiments revealed that 20 min into the chase period, the pulse-labeled alpha-mannosidase precursor (140 kD) begins to be processed, and 35 min into the chase 50% of the polypeptides are cleaved to mature 60 and 58-kD forms. In contrast, the pulse-labeled beta-glucosidase precursor (105 kD) begins to be processed 10 min into the chase period, and by 30 min of the chase all of the precursor has been converted into mature 100-kD subunits. Between 5 and 10% of both precursors escape processing and are rapidly secreted from cells. Endoglycosidase H treatment of immunopurified radioactively labeled alpha-mannosidase and beta-glucosidase precursor polypeptides demonstrated that the beta-glucosidase precursor becomes resistant to enzyme digestion 10 min sooner than the alpha-mannosidase precursor. Moreover, subcellular fractionation studies have revealed that 70-75% of the pulse-labeled beta-glucosidase molecules move from the rough endoplasmic reticulum (RER) to the Golgi complex less than 10 min into the chase. In contrast, 20 min of chase are required before 50% of the pulse-labeled alpha-mannosidase precursor exits the RER. The beta-glucosidase and alpha-mannosidase precursor polypeptides are both membrane associated along the entire transport pathway. After proteolytic cleavage, the mature forms of both enzymes are released into the lumen of lysosomes. These results suggest that beta-glucosidase is transported from the RER to the Golgi complex and ultimately lysosomes at a distinctly faster rate than the alpha-mannosidase precursor. Thus, our results are consistent with the presence of a receptor that recognizes the beta-glucosidase precursor more readily than the alpha-mannosidase precursor and therefore more quickly directs these polypeptides to the Golgi complex. 相似文献
27.
Milzani Aldo; Carrera Paolo; Bergna Giovanni; Colombo Roberto 《Bioinformatics (Oxford, England)》1986,2(1):19-22
A program in BASIC is described which allows accurate quantificationof some numerical parameters that can be objectively correlatedto biological indexes in sigmoid biological events. Attentionwas focused on the polymerization process of actin (a muscleprotein with a mol. wt of 42 000 daltons) studied as the variationin the OD360 index with time. The experimental points, if plotted,can be well approximated by a rational function of the typeOD360 = f(t), which passes through the origin and can be representedgraphically by a sigmoid curve. The program was very helpfulin comparing the experimental curves and in analysing significantparameters, such as maximum velocity and asymptote, that characterizethese curves and whose interpretation would otherwise be purelysubjective.
Received on July 11, 1985; accepted on January 13, 1986 相似文献
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Pathways involved in targeting and secretion of a lysosomal enzyme in Dictyostelium discoideum 总被引:10,自引:5,他引:5
In Dictyostelium discoideum, the lysosomal enzyme alpha-mannosidase is first synthesized as an N-glycosylated precursor of Mr 140,000. After a 20-30-min lag period, up to 30% of the precursor molecules are rapidly secreted, whereas the rest remain cellular and are proteolytically processed (t 1/2 = 8 min) to mature subunits of Mr 58,000 and 60,000. The secreted precursor is modified more extensively than the cellular form, as is revealed by differences in size, charge, and sensitivity to endoglycosidase H. Subcellular fractionation has shown that, following synthesis in the rough endoplasmic reticulum, the precursor is transported to a low density membrane fraction that contains Golgi membranes. Proteolytic processing takes place in these vesicles, since newly cleaved mature enzyme, but no precursor, co-fractionates with lysosomes. Under conditions that disrupt vesicular membranes, the precursor remains associated with the membrane fraction, whereas the newly processed mature enzyme is soluble. Proteolytic cleavage of the precursor thus coincides with the release of the mature enzyme into the lumen of a lysosomal compartment. These findings suggest a possible mechanism for lysosomal targeting that involves the specific association of enzyme precursors with Golgi membranes. 相似文献
30.
George P. Livi James A. Cardelli Randall L. Dimond 《Differentiation; research in biological diversity》1985,29(3):207-215
The lysosomal enzyme alpha-mannosidase-1 is one of the earliest developmentally controlled gene products in Dictyostelium discoideum. Although this enzyme is synthesized throughout the first 20 h of development, it is not required for complete morphogenesis, since structural gene (manA) mutants lacking activity develop normally. We isolated six strains deficient in alpha-mannosidase-1 activity which, unlike structural gene mutants, fail to aggregate. Fruiting revertants of these strains accumulate wild-type levels of alpha-mannosidase-1 activity, suggesting that both the enzymatic and morphological defects are caused by single mutations in nonstructural genes essential for early development. Direct genetic evidence for mutations outside of the structural gene was obtained by complementation analysis. We used alpha-mannosidase-1-specific monoclonal antibodies to analyze the biochemical defects in these mad (alpha-mannosidase-1-deficient) mutants. All mad mutants show a significantly reduced relative rate of enzyme precursor biosynthesis. The mad-404 mutation results in a complete lack of precursor biosynthesis, as well as a lack of functional alpha-mannosidase-1 mRNA. In some cases, however, the enzymatic defect results from improper post-translational modification which affects precursor processing. We conclude that a small number of aggregation-essential genes are involved in regulating the synthesis, modification, and processing of alpha-mannosidase-1 during development. 相似文献