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1.
Epithelial cells of the rat small intestine were collected as a gradient of villus to crypt cells. Homogenates of these cells incubated with GDP-D-[14C]mannose in the presence of MnCl2 incorporated radioactivity into dolichyl mannosyl phosphate and a mixutre of dolichyl pyrophosphate oligosaccharides varying in the size of their oligosaccharide moiety. The labeled oligosaccharides formed in villus cell homogenates appeared shorter than those formed in crypt cell homogenates. The addition of dolichyl phosphate greatly stimulated the synthesis of dolichyl mannosyl phosphate. The initial rate of synthesis of dolichyl mannosyl phosphate from GDP-D-[14C]mannose and exogenous dolichyl phosphate was highest in an intermediate cell fraction having a low specific activity of sucrase and alkaline phosphatase and an intermediate specific activity of thymidine kinase. To compare the rates of dolichyl mannosyl phosphate synthesis in the different cell fractions, it was essential to control degradation of GDP-D-[14]mannose by the addition of AMP to the incubation, since villus cells degraded GDP-D-[14C]mannose much faster than crypt cells.  相似文献   

2.
Dolichyl D-[14C]mannosyl phosphate formed in calf pancreas microsomes was compared to dolichyl alpha-D-[14C]mannopyranosyl phosphate, a chemical synthesis of which is described. Jack bean alpha-mannosidase, which converted citronellyl alpha-D-mannopyranosyl phosphate, but not its beta anomer, to citronellyl phosphate and D-mannose, was effective in releasing D-[14C]mannose from dolichyl alpha-D-[14C]manopyranosyl phosphate in the presence of detergent. In contrast, alpha-mannosidase did not cause any significant release from the pancreatic dolichyl D-[14C]mannosyl phosphate. Alkali treatment (0.1 M NaOH in propanol at 65 and 90 degrees) degraded both dolichyl D-[14C]mannosyl phosphates with the formation of water-soluble 14C-labeled products. The pattern of 14C-labeled breakdown products formed from the synthetic dolichyl alpha-D-[14C]mannopyranosyl phosphate differed from that obtained from the pancreatic dolichyl D-[14C]mannosyl phosphate. Dolichyl alpha-D-[14C]mannopyranosyl phosphate yielded several 14C-labeled products, including a trace of D-[14C]mannosyl phosphate, and an acidic fraction which appeared to result from degradation of D-[14C]mannose. The pancreatic dolichyl D-[14C]mannosyl phosphate gave various products, depending on the temperature of the reaction: at 90 degrees, 20 to 30% of the radioactivity was found in D-[14C]mannosyl phosphate and the rest in acidic breakdown products; at 65 degrees, about two-thirds of the radioactivity was recovered in a compound which behaved as D-MANNOSE 2-PHOSPHATE, A Product characteristic of a beta-linked D-mannosyl residue. It is concluded that the pancreatic compound is dolichyl beta-D-[14C]mannosyl phosphate.  相似文献   

3.
A crude membrane preparation of the unicellular green alga Chlamydomonas reinhardii was found to catalyse the incorporation of D-[14C]mannose from GDP-D-[14C]-mannose into a chloroform/methanol-soluble compound and into a trichloroacetic acid-insoluble polymer fraction. The labelled lipid revealed the chemical and chromatographic properties of a short-chain (about C55-C65) alpha-saturated polyprenyl mannosyl monophosphate. In the presence of detergent both long-chain (C85-C105) dolichol phosphate and alpha-unsaturated undecaprenyl phosphate (C55) were found to be effective as exogenous acceptors of D-mannose from GDP-D-[14C]mannose to yield their corresponding labelled polyprenyl mannosyl phosphates. Exogenous dolichyl phosphate stimulated the incorporation of mannose from GDP-D-[14C]mannose into the polymer fraction 5-7-fold, whereas the mannose moiety from undecaprenyl mannosyl phosphate was not further transferred. Authentic dolichyl phosphate [3H]mannose and partially purified mannolipid formed from GDP-[14C]mannose and exogenous dolichyl phosphate were found to function as direct mannosyl donors for the synthesis of labelled mannoproteins. These results clearly indicate the existence of dolichol-type glycolipids and their role as intermediates in transglycosylation reactions of this algal system. Both the saturation of the alpha-isoprene unit and the length of the polyprenyl chain may be regarded as evolutionary markers.  相似文献   

4.
A particulate enzyme from bovine aorta catalyzes the incorporation of mannose from GDP-D-[14C]mannose into three products as follows: 1. Most of the radioactivity which is incorporated in short term incubations is into a product that is soluble in CHCl3/CH3OH (2/1, v/v). This product was purified by chromatography on DEAE-cellulose and Sephadex LH-20. The purified glycolipid was stable to alkaline saponification but released [14C]mannose when subjected to mild acid hydrolysis (1/2 = 7 min at 100 degrees in 0.01 N HCl). The purified glycolipid had the same mobility on silica gel plates in an acidic, basic, or neutral solvent system as did glycolipid had the same mobility on silica gel plates in an acidic, basic, or neutral solvent system as did authentic dolichyl mannopyranosyl phosphate. The synthesis of the 14C-mannolipid was reversed by the addition of GDP and Mg2+. 2. [14C]mannose is also incorporated, although at a slower rate into products which are soluble in CHCl3/CH3OH/H2O (1/1/0.3, v/v). When the 1/10.3 soluble material was chromatographed on Avicel plates, it gave rise to three distinct radioactive bands which appear to be lipid-linked oligosaccharides. Mild acid hydrolysis of the 1/10.3 soluble material released water-soluble, neutral 14C-oligosaccharides which eluted from Sephadex G-50 in two or three peaks between the standards cytochrome c and GDP-mannose...  相似文献   

5.
Glycoprotein biosynthesis was studied with mouse L-cells grown in suspension culture. Glucose-deprived cells incorporated [3H]mannose into 'high-mannose' protein-bound oligosaccharides and a few relatively high-molecular-weight lipid-linked oligosaccharides. The latter were retained by DEAE-cellulose and turned over quite slowly during pulse--chase experiments. Increased heterogeneity in size of lipid-linked oligosaccharides developed during prolonged glucose deprivation. Sequential elongation of lipid-linked oligosaccharides was also observed, and conditions that prevented the assembly of the higher lipid-linked oligosaccharides also prevented the formation of the larger protein-bound 'high-mannose' oligosaccharides. In parallel experiments, [3H]mannose was incorporated into a total polyribosome fraction, suggesting that mannose residues were transferred co-translationally to nascent protein. Membrane preparations from these cells catalysed the assembly from UDP-N-acetyl-D-[6-3H]glucosamine and GDP-D-[U-14C]mannose of polyisoprenyl diphosphate derivatives whose oligosaccharide moieties were heterogeneous in size. Elongation of the N-acetyl-D-[6-3H]glucosamine-initiated glycolipids with mannose residues produced several higher lipid-linked oligosaccharides similar to those seen during glucose deprivation in vivo. Glucosylation of these mannose-containing oligosaccharides from UDP-D-[6-3H]glucose was restricted to those of a relatively high molecular weight. Protein-bound saccharides formed in vitro were mainly smaller in size than those assembled on the lipid acceptors. These results support the involvement of lipid-linked saccharides in the synthesis of asparagine-linked glycoproteins, but show both in vivo and in vitro that protein-bound 'high-mannose' oligosaccharide formation can occur independently of higher lipid-linked oligosaccharide synthesis.  相似文献   

6.
Pea membranes supplied with GDP-[14C]mannose, UDP-N-[14C]acetylglucosamine or UDP-[14C]glucose catalyze the transfer of 14C-labeled sugars or sugar phosphates to endogenous lipid acceptors as well as to exogenously added dolichyl phosphates. Fully unsaturated polyprenyl phosphates were not used as effective acceptors by this system. Mannosyl-P-dolichol was formed most rapidly in the presence of long-chained dolichyl-P while mannosyl-PP-, glucosyl-PP- and GlcNAc-PP-dolichol were preferentially formed from relatively short-chained dolichyl phosphate acceptors. Glucosyl-PP- and mannosyl-PP-dolichol accumulated in the preparation without further metabolism, but GlcNAc-PP-dolichol was lengthened by addition of a second GlcNAc plus several [14C]mannose units to form an oligosaccharide fraction susceptible to the action of endoglycosidase H. This lipid-linked oligosaccharide could then be glycosylated in the presence of UDP-[14C]glucose to form a longer oligosaccharide. It is concluded that levels of endogenous dolichyl phosphates in pea membranes are rate-limiting for several of the key glycosyltransferases required for oligosaccharide assembly.  相似文献   

7.
Freshly prepared protoplasts of Saccharomyces cerevisiae X 2180 incorporate [3H]mannose and [14C]glucose for about 30 min into glycolipids and mannoproteins. Among the radioactive glycolipids formed dolichyl phosphate mannose, dolichyl phosphate glucose and dolichyl pyrophosphate oligosaccharides have been identified. The oligosaccharides released by weak acid from the dolichyl pyrophosphate were treated with endo-N-acetylglucosaminidase H and separated by gel filtration on Bio-Gel P-4. The largest oligosaccharide obtained corresponded exactly in size to Glc3Man9GlcNAc1 the compound formed also in animal tissues. Other oligosaccharides released from dolichyl pyrophosphate in addition to the glucose containing ones were mainly Man9GlcNAc1 and Man8GlcNAc1. No mannosyl oligosaccharide corresponding in size to the total inner core region found in native mannoproteins could be detected in a lipid-bound form.The radioactive dolichyl pyrophosphate oligosaccharides were formed transiently; after 40 min only about 40% of the maximal radioactivity was observed in this fraction. In the presence of cycloheximide this decrease did not take place.It is concluded that the dolichol pathway of N-glycosylation of glycoproteins in yeast cells is very similar, if not identical, to the reaction sequence worked out for animal cells.Dedicated to Professor Dr. Otto Kandler on his 60th birthday  相似文献   

8.
Microsomal preparations from malignant human breast tumors catalyzed the transfer of mannose and glucose from GDP-[14C]-Man and UDP-[14C]-Glc into lipid-linked sugars and glycoprotein-like substances. As judged by several criteria the obtained lipid-linked monosaccharides behaved as dolichyl phosphate mannose and dolichyl phosphate glucose whereas lipid-linked oligosaccharides behaved as polyprenyl diphosphate derivatives. The optimum conditions for mannosyl- and glucosyl-transfer reactions and the effect of dolichyl phosphate, detergent and EDTA on incubation mixture were described.  相似文献   

9.
Mitochondria, and specially outer mitochondrial membranes, incorporate D-[14C]glucose from UDP-D-[14C]glucose into products extracted with organic solvents and into a residual precipitate, with a pH optimum of about 6.5 in (2-N-morpholino-ethane)-sulfonic acid (MES) buffer. The chloroform/methanol (2:1, v/v) extract contains two products. The major [14C]glucolipid is stable to mild alkali, but releases [14C]glucose upon mild acid hydrolysis. It is retained on DEAE-cellulose (acetate form) and is eluted with the same ionic strength as an hexosyldolichyl monophosphate diester. This [14C] glucolipid has the same chromatographic behaviour as dolichyl-mannosylphosphate in neutral, acidic and basic solvent systems; and its biosynthesis is greatly increased by exogenous dolichylmonophosphate. The other [14C]glucolipid is stable upon mild acid hydrolysis and is not retained on DEAE-cellulose. On silicic acid it is eluted with acetone. The biosynthesis of this compound is stimulated by exogenous ceramide. This glucolipid has the same chromatographic mobility in different solvent systems as glucosylceramide isolated from the liver of a patient with Gaucher's disease. Biosynthesis of these two glucolipids is inhibited by UDP, but only biosynthesis of dolichylglucosyl monophosphate is reversible with this nucleotide. The biosynthesis of these different glucosylated derivatives is stimulated by the addition of divalent cations (Mn2+, Mg2+). the effect of these two metal ions on dolichylglucosyl monophosphate and glucosylceramide formation is studied in different conditions.  相似文献   

10.
White matter membrane preparations from pig brain catalyze the transfer of [14C]mannose from exogenous [14C]mannosylphosphoryldolichol into an endogenous oligosaccharide lipid. Under the same incubation conditions label is also incorporated into endogenous membrane glycoproteins. The enzymatic labeling of both classes of endogenous acceptors is stimulated by the addition of Ca2+. Several enzymatic properties of the mannosyltransferase activity responsible for the transfer of mannose from mannosylphosphoryldolichol into the oligosaccharide lipid intermediate have been examined. The [Man-14C] oligosaccharide lipid synthesized by this in vitro system has the solubility, hydrolytic and chromatographic characteristics of a pyrophosphate-linked oligosaccharide derivative of dolichol. The free [Man-14C]oligosaccharide liberated from the carrier lipid by mild acid treatment is estimated to contain 8 glycose units. All of the [14C]mannosyl units in the [Man-14C]oligosaccharide derived from exogenous [14C]mannosylphosphoryldolichol are released as free [14C]mannose by an α-mannosi-dase. No [14C]mannose is released during incubation with a β-mannosidase. The presence of an N,N′-diacetylchitobiose unit at the reducing end of the lipid-bound [Man-14C]oligosaccharide is indicated by its susceptibility to digestion by endo-β-N-acetylglucosaminidase H. Pronase digestion of the enzymatically labeled [Man-14C]glycoprotein yields a single [Man-14C]gly-copeptide fraction on Bio-Gel P-6 that appears to be slightly larger than the free [Man-14C]oligosac-charide released from the carrier lipid by mild acid hydrolysis. The [Man-14C]glycopeptide is cleaved by endo-β-N-acetylglucosaminidase H, and the neutral [Man-14C]oligosaccharide product appears to be identical to the product formed when the lipid-bound [Man-14C]oligosaccharide is degraded by the endoglycosidase. The glycopeptide linkage in the [Man-14C]glycoprotein is stable to mild alkali treatment. These results are consistent with the dolichol-linked [Man-14C]oligosaccharide, mannosy-lated via exogenous [14C]mannosylphosphoryldoiichol, being subsequently transferred en bloc from dolichyl pyrophosphate to asparagine residues in endogenous membrane polypeptide acceptors. SDS-polyacrylamide gel electrophoresis of the [Man-14C]glycoprotein, labeled when white matter membranes are incubated with [14C]mannosylphosphoryldolichol. revealed a major labeled polypeptide with an apparent mol wt of 24,000. A minor labeled membrane glycoprotein is also seen, having an apparent mol wt of 105,000.  相似文献   

11.
Particulate membrane fractions from pig brain catalyse the synthesis of lipid-linked sugar derivatives of the dolichyl phosphate pathway. Flavomycin, a phosphoglycolipid antibiotic produced by various species of streptomycetes, interferes with the formation of these glycolipids to a different extent. The formation of dolichyl phosphate glucose was shown to be most susceptible to the antibiotic, being blocked by about 50% in the presence of 0.2mm-flavomycin, whereas the synthesis of dolichyl diphosphate N-acetylglucosamine, dolichyl diphosphate chitobiose and dolichyl diphosphate chitobiosyl mannose required higher concentrations to achieve a comparable inhibition. Although the formation of dolichyl phosphate mannose was hardly affected, the accumulation of oligosaccharides with five to seven sugar units was observed, when dolichyl diphosphate oligosaccharides were synthesized with GDP-[(14)C]mannose in the presence of 1mm-flavomycin. This indicates that the inhibition of the synthesis of larger-sized oligosaccharides, known to be mediated by lipid-bound mannose, was not caused by an actual deficiency in dolichyl phosphate mannose. At flavomycin concentrations that inhibited the formation of dolichyl phosphate glucose by 50%, the transfer of lipid-linked saccharides to either the hexapeptide Tyr-Asn-Gly-Thr-Ser-Val or endogenous protein acceptors was hardly influenced. The mode of action of flavomycin is still obscure, but seems not to be of a competitive nature, since the inhibition was unaffected by increasing concentrations of dolichyl phosphate. Some evidence indicates that, besides a direct interaction of the antibiotic with some transferases, a non-specific incorporation into the membrane and alteration of its properties might be responsible for those inhibitory effects on all enzymes which were observed at high concentrations of flavomycin.  相似文献   

12.
Exposure of authentic dolichyl α-D-[14C]mannopyranosyl phosphate (I) or calf pancreas dolichyl [14C]mannopyranosyl phosphate (II) to ozone at ?70° in pentane followed by treatment with triphenylphosphine gave water-soluble fragments in 65–95% yield. The radioactive products obtained were similar; the major fragment had a mobility on tlc greater than that of mannose but lower than that of citronellyl β-D-mannopyranosyl phosphate. The electrophoretic behavior of the fragments indicated that they possessed intact phosphodiester linkages. α-Mannosidase released [14C]mannose from the fragments of I but not from the fragments of II; however, the latter were susceptible to β-mannosidase indicating that the pancreatic mannolipid contains a β-linked mannosyl residue.  相似文献   

13.
Incubation of liver microsomes from hibernating ground squirrel with GDP-[14C]mannose and exogenous dolichyl phosphate resulted in the synthesis of dolichyl phosphate [14C]mannose. The mannosyltransferase activity was about 3-fold higher in microsomes from hibernating ground squirrels than in those from active animals. Incubation for 30 min of liver microsomes from hibernating animals with dolichyl pyrophosphate N,N'-diacetyl-[14C]chitobiose and GDP-[14C]mannose led to the synthesis of lipid-[14C]trisaccharide. When liver microsomes were incubated with lipid-[14C]trisaccharide and unlabelled GDP-mannose, lipid-tetra- to heptasaccharides were discovered in the chloroform-methanol (2:1) extract. Since, under the experimental conditions, negligible synthesis of dolichyl phosphate mannose was observed, it was assumed that GDP-mannose was a donor of mannose in the conversion of lipid-trisaccharide into lipid-oligosaccharides containing 2-5 mannose residues.  相似文献   

14.
Endogenous proteins of cell-free preparations of hen oviduct labeled from GDP-[14C]Man or from [Man-14C]oligosaccharide-lipid have been compared by sodium dodecyl sulfate polyacrylamide gel electrophoresis. Under the conditions tested, a polypeptide chain of molecular weight about 25,000 was the principle acceptor for the oligosaccharide moiety of exogenous [Man-14C]oligosaccharide-lipid. The product labeled by [Man-14C]oligosaccharide-lipid appeared identical with one of three glycoproteins formed when GDP-[14C]Man was incubated with a crude membrane fraction. These three proteins (apparent molecular weight of 75,000, 55,000, and 25,000) accounted for nearly two-thirds of the [14C]mannose-labeled glycoprotein products using GDP-[14C]Man and either the crude membrane fraction or a total oviduct homogenate. Thus, all of the mannose acceptor proteins present in the oviduct homogenate appear to be membrane-bound. Analyses of the [Man-14C]glycoproteins labeled from GDP-[14C]Man in membrane fractions from hen kidney, liver, brain, and oviduct indicated that a labeled polypeptide of apparent molecular weight 25,000 was the only major protein product common to the four preparations.  相似文献   

15.
A study was conducted to determine whether mannosyl retinyl phosphate occurred in rat liver and intestine in vivo, and, if so, to partially purify it and investigate its properties. After injection of [(3)H]retinol and [(14)C]mannose, a chloroform-methanol 2:1 extract of rat liver and small intestinal mucosa yielded two (3)H/(14)C-labeled peaks on DEAE-cellulose column chromatography: peak I eluted with 10 mM and peak II eluted with 29 mM ammonium acetate. Peak II, subjected to silicic acid column chromatography, gave principally two (3)H/(14)C-labeled fractions, one eluted with chloroform-methanol 2:1 and the other with chloroform-methanol 1:1. The latter showed, on thin-layer chromatography in a chloroform-methanol-water 60:25:4 system, an R(f) of 0.25 (with coincidence of the (3)H and (14)C radioactivity), which is identical to the R(f) of authentic mannosyl retinyl phosphate. The chloroform-methanol 1:1 peak, on mild acid hydrolysis, yielded [(3)H]retinol (identified by two thin-layer chromatography systems), [(14)C]mannose, and [(14)C]-mannose phosphate (identified by paper chromatography). On mild alkali hydrolysis, the peak yielded [(3)H]retinol and [(14)C]mannose phosphate. The substance eluted in the chloroform-methanol 1:1 peak from silicic acid was therefore concluded to be mannosyl retinyl phosphate. When chromatographed on silicic acid, peak I from the DEAE-cellulose column primarily showed a fraction eluted with chloroform-methanol 2:1. When chromatographed on thin-layer plates in the above solvent, this fraction showed an R(f) of 0.3, with coincidence of (3)H and (14)C radioactivity; it was resistant to mild acid hydrolysis, mild and strong alkali hydrolysis, and glucuronidase action. Mannosyl retinyl phosphate occurs, therefore, in vivo in liver and intestinal mucosa, and it is accompanied by a closely similar, though slightly less polar, compound that remains unidentified.  相似文献   

16.
The transfer of mannose from GDP-mannonse to exogenous glycopeptides and simple glycosides has been shown to be carried out by calf thyroid particles (Adamany, A. M., and Spiro, R. G. (1975) J. Biol. Chem. 250, 2830-2841). The present investigation indicates that this mannosylation process is accomplished through two sequential enzymatic reactions. The first involves the transfer of mannose from the sugar nucleotide to an endogenous acceptor to form a compound which has the properties of dolichyl mannosyl phosphate, while in the properties of dolichyl mannosyl phosphate, while in the second reaction this mannolipid serves as the glycosyl donor to exogenous acceptors. The particle-bound enzyme which catalyzed the first reaction utilized GDP-mannose (Km = 0.29 microM) as the most effective mannosyl donor, required a divalent cation, preferably manganese or calcium, and acted optimally at pH 6.3. Mannolipid synthesis was reversed by addition of GDP and a ready exchange of the mannose moiety was observed between [14C]mannolipid and unlabeled GDP-mannose. Exogenously supplied dolichyl phosphate, and to a lesser extent ficaprenyl phosphate, served as acceptors for the transfer reaction. The 14C-labeled endogenous lipid had the same chromatographic behavior as synthetic dolichyl mannosyl phosphate and enzymatically mannosylated dolichyl phosphate. The mannose component in the endogenous lipid was not susceptible to reduction with sodium borohydride and was released by mild acid hydrolysis. Alkaline treatment of the mannolipid released a phosphorylated mannose with properties consistent with that of mannose 2-phosphate. The formation of this compound which can arise from a cyclic 1,2-phosphate indicated, on the basis of steric considerations, that the mannose is present in beta linkage to the phosphate of the lipid. An intermediate role of the mannolipid in the glycosylation of exogenous acceptors was suggested by the observation that addition of dolichyl phosphate to thyroid particles resulted in a marked enhancement of mannose transfer from GDP-mannose to methyl-alpha-D-mannopyranoside acceptor while the presence of the glycoside caused a decrease in the mannolipid level. The glycosyl donor function of the polyisoprenyl mannosyl phosphate in the second reaction of the mannosylation sequence could be directly demonstrated by the transfer of [14C]mannose from purified endogenous mannolipid to either methyl-alpha-D-mannoside or dinitrophenyl unit A glycopeptides by thyroid enzyme in the presence of Triton X-100. The mannosylation of the glycoside was not inhibited by EDTA whereas the transfer of mannose to glycopeptide was cation-dependent. While dolichyl [14C]mannosyl phosphate, prepared from exogenous dolichyl phosphate, served as a donor of mannose to exogenous acceptor, this function could not be fulfilled by ficaprenyl [14C]mannosyl phosphate. The two-step reaction sequence carried out by thyroid enzymes which leads to the formation of an alpha-D-manno-pyranosyl-D-mannose linkage in exogenous acceptors by transfer of mannose from GDP-mannose through a beta-linked intermediate appears to involve a double inversion of anomeric configuration of this sugar.  相似文献   

17.
A particulate membrane preparation fromSaccharomyces cerevisiae catalyzed the incorporation of mannose from GDP-mannose into lipids that were extractable in chloroform-methanol. One lipid has been previously characterized as dolichyl phosphomannose. Another one was purified by chromatography on silicic acid, DEAE-cellulose and Sephadex LH-20 and found to be alkali unstable. The lipid moiety was shown to be dolichol and the glycosydic part contained mannose, glucose and glucosamine.Radioactive mannose was also incorporated at a slower rate into more polar compounds. They were soluble in chloroform-methanol-water and were seen to liberate neutral oligosaccharides after alkaline hydrolysis.Radioactive mannose was also incorporated into substances which behave chemically as glycoproteins since they were insoluble in organic solvents, water and trichloroactic acid. Pronase treatment of the trichloroacetic acidinsoluble material released water-soluble oligosaccharides.When the particulate preparation which had been extracted with chloroform-methanol at –20 C, was incubated with GDP-(U-14C)mannose, radioactivity was incorporated into glycolipids that were soluble in chloroform-methanol-water and into glycoproteins. This result suggests that at least part of the mannose was transferred to endogenous acceptors independent of dolichyl phosphomannose.  相似文献   

18.
A particulate fraction from porcine aorta catalyzed the incorporation of N-acetylglucosamine (GlcNAc) from UDP-[3H]GlcNAc into both GlcNAc-pyrophosphorylpolyprenol and GlcNAc-GlcNAc-pyrophosphorylpolyprenol. This transfer utilized endogenous lipid and required a divalent cation. Mn2+ was the best metal ion and was optimum at 2.3 mM. This same particulate fraction was previously shown to transfer mannose from GDP-[14C]mannose to endogenous lipid to form mannosylphosphorylpolyprenol (Chambers, J., and Elbein, A.D. (1975) J. Biol. Chem. 250, 6904-6915). Both the GlcNAc activities and the mannose activity were solubilized by treatment of the particulate fraction with the detergent Nonidet P-40. The enzymes were partially purified by chromatography on DEAE-cellulose and on Sephadex G-200. These soluble enzymes required the addition of acceptor lipid for activity. An acidic lipid fraction, isolated from pig liver and having the properties of dolichyl phosphate, was active with either the GlcNAc or the mannose transferase. Chemically synthesized dolichyl phosphate was also active with either of these enzymes. The products formed from either GlcNAc or mannose by the soluble transferases were similar to those formed by the particulate enzyme. Thus the major product formed from UDP-[3H]GlcNAc was GlcNAc-pyrophosphoryldolichol with small amounts of the disaccharide-lipid while the product formed from GDP-[14C]mannose was mannosylphosphoryldolichol.  相似文献   

19.
The antibiotic, tsushimycin, inhibits the formation of dolichyl phosphate mannose, dolichyl phosphate glucose and dolichyl pyrophosphate N-acetylglucosamine in the particulate enzyme preparation from pig aorta. Although this antibiotic also inhibits the incorporation of mannose and glucose into lipid-linked oligosaccharides, these reactions are less sensitive to antibiotic than those involved in the synthesis of lipid-linked monosaccharides. In the presence of tsushimycin, most of the mannose incorporated into lipid-linked oligosaccharides is into one oligosaccharide that has the properties of the heptasaccharide Man5GlcNAc2, whereas in the absence of antibiotic most of the mannose is in larger-sized oligosaccharides. On the other hand, the glucose-labelled lipid-linked oligosaccharides appear to be similar in size in the presence or absence of antibiotic. Tsushimycin also inhibits the formation of lipid-linked monosaccharides by the solubilized enzyme preparation of aorta. Various concentrations of dolichyl phosphate or the detergent, Nonidet P40, had no effect on antibiotic inhibition. Some evidence indicates that tsushimycin binds to the particulate enzyme.  相似文献   

20.
The radioactive products derived from transfer of [14C]mannose residues from GDP-[14C]mannose to endogenous acceptors of a Hansenula holstii particulate enzyme preparation have been solubilized by Pronase digestion. From this soluble mixture, glycopeptides containing [14C]mannose have been purified and have been shown by β-elimination-reduction experiments to contain radioactive mannose and oligosaccharides of mannose linked to serine and threonine residues. Radioactive macromolecular complexes of mannan-protein were extracted from the particulate enzyme fraction with hot, neutral citrate buffer. These components contained variable quantities of protein, mannose, and phosphate. The more neutral components were reduced in size by Pronase digestion and yielded glycopeptides similar to those obtained by direct Pronase digestion of the particulate fraction.  相似文献   

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