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91.
Modification of oligosaccharide-lipid synthesis and protein glycosylation in glucose-deprived cells 总被引:9,自引:0,他引:9
S J Turco 《Archives of biochemistry and biophysics》1980,205(2):330-339
Incubation of vesicular stomatitis virus-infected glucose-starved baby hamster kidney cells with [35S]methionine results in the synthesis of all viral proteins. However, as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and tryptic peptide mapping, the G protein is abnormally glycosylated. Metabolic labeling of the oligosaccharide-lipid precursors with [3H]mannose for 15 min, followed by Chromatographic and enzymatic analysis, indicates that the radiolabeled lipid-linked oligosaccharides are devoid of glucose in contrast to the glucosylated oligosaccharide-lipids synthesized by cells grown in the presence of glucose. Also, in contrast to control cells, examination of the glycopeptide fraction reveals the presence of [3H]mannose-labeled glycopeptides which are resistant to erado-β-N-acetylglucos-aminidase H and are smaller in size than glycopeptides from mature vesicular stomatitis virus. In order to observe these effects, a minimum time of 5 h of glucose deprivation is necessary and the addition of 55 μm glucose or mannose to the medium reverses these effects. These results indicate that vesicular stomatitis virus-infected BHK cells deprived of glucose are unable to glucosylate the oligosaccharide-lipid intermediates and, consequently, are unable to glycosylate the G protein normally. 相似文献
92.
R. Bauer I. Demeter V. Hasemann J.T. Johansen 《Biochemical and biophysical research communications》1980,94(4):1296-1302
The Zn(II) site of the dimeric Cu(II),Zn(II)-superoxide dismutase from Saccharomyces cerevisiae has been examined by means of perturbed angular correlation of gamma rays (PAC) on the Cu(II),Cd(II)- and Cu(I),Cd(II)-superoxide dismutase. The PAC spectrum for the Cu(II),Cd(II) enzyme reveals two different, pH independent, coordination geometries for the Cd site. Removal of Cu(II) does not affect the PAC spectrum, which suggests that Cu(II) and Cd(II) do not share a common histidine side chain as ligand. The results are consistent with either an equilibrium between two coordination geometries for Cd(II) in each subunit or a difference in the structure of the Cd(II) site in the two subunits. In contrast, in the reduced enzyme only one structure is present, identical for the two subunits. 相似文献
93.
Identification of rat brain polysomes synthesizing the brain specific enolase (14.3.2 protein), S100 protein and alpha and beta tubulin subunits 总被引:1,自引:0,他引:1
A Marks M M Portier Y Zeitoun L Legault-Demare J Thibault N Lamande C Jeantet F Gros 《Biochimie》1980,62(7):463-471
Polysomes prepared from frozen rat brain powder were fractionated by centrifugation in a sucrose gradient. Individual fractions were used to program a reticulocyte lysate in a run-off reaction. The products of cell-free synthesis were assayed for the brain-specific enolase (14.3.2 protein) and S100 protein by immunoprecipitation with specific antisera and for tubulin by two-dimensional electrophoresis in polyacrylamide slab gels. The relative synthesis of these proteins by unfractionated free brain polysomes were 0.1 per cent, 0.05 per cent and 0.7 per cent respectively. After centrifugation in a sucrose gradient polysomes synthesizing S100 protein were separated from those synthesizing the other two markers. There was a threefold enrichment in the specific messenger RNA activity for each of the three proteins studied in their respective peak fractions of polysomes. 相似文献
94.
95.
Selective and step-wise inhibition of bioysnthesis and assembly of three major outer membrane proteins of Escherichia coli (matrix protein, tolG protein (DiRienzo et al., 1978), and lipoprotein) was achieved in the presence of phenethyl alcohol. At a lower concentration (0·3% or higher) PEA4 specifically inhibited the processing and assembly of matrix protein, resulting in the accumulation of promatrix protein. The promatrix protein thus synthesized in the presence of PEA was chased into matrix protein and properly assembled into the outer membrane upon the removal of PEA, demonstrating a direct precursor-product relationship between the two proteins. Promatrix protein was sensitive to trypsin and was also solubilized from the membrane fraction by sodium sarcosinate. However, promatrix protein was also found to be loosely associated with the outer membrane fraction. These data indicate that promatrix protein was translocated across the cytoplasmic membrane and localized external to the cytoplasmic membrane, although it was not yet properly inserted into the outer membrane structure.The inhibition of processing of protolG (DiRienzo et al., 1978) protein was observed at higher levels of PEA (0·4% or higher). However, at all concentrations of PEA tested, the accumulation of prolipoprotein was not detected. On the other hand, when PEA was added at concentrations lower than the above critical concentrations for each protein, the precursor was properly processed but the processed proteins (tolG protein, and lipoprotein) were accumulated in the periplasmic space, since they were released by osmotic shock. tolG protein of the soluble cell fraction was chased into the outer membrane after removal of PEA and regrowth of the cells in culture. The processed lipoprotein of the soluble fraction was trypsin-sensitive in contrast to mature lipoprotein. These results indicate that the precursor protein with the peptide extension is transformed into a new assembly intermediate after the extended peptide is cleaved off. This intermediate may be released into the periplasmic space in the presence of PEA before it can be assembled into the outer membrane. These data indicate that the peptide extension is not essential for the insertion of the outer membrane protein into the outer membrane.When PEA (0·3%) was added to a growing culture, the production of not only matrix protein but also promatrix protein was completely inhibited. However, synthesis of promatrix protein was restored when rifampicin was added before the PEA treatment. These results are discussed in terms of control of gene expression for matrix protein. PEA was found to increase the membrane fluidity. 相似文献
96.
Recombination between satellite phage P4 and its helper P2. I. In vivo and in vitro construction of P4: :P2 hybrid satellite phage 总被引:1,自引:0,他引:1
B H Lindqvist 《Gene》1981,14(4):231-241
P4::P2 hybrid satellite phages which carry a portion (including the P2 head gene Q and the cohesive end) of the left end of the P2 chromosome linked to the essential part of the P4 chromosome have been isolated by in vivo as well as in vitro recombination. These hybrids express gene Q and grow in the presence of a P2 helper even if defective in gene Q. 相似文献
97.
98.
The wild-type (dam+) and mutant (damh) forms of the bacteriophage T2 DNA adenine methylase have been partially purified; these enzymes methylate the sequence, 5/t' … G-A-Py … 3′ (Hattman et al., 1978a). However, in vitro methylation studies using phage λ DNA revealed the following: (1) T2 dam+ and damh enzymes differ in their ability to methylate λ DNA; under identical reaction conditions the T2 damh enzyme methylated λ DNA to a higher level than did the dam+ enzyme. However, the respective methylation sites are equally distributed on the l and r strands. (2) Methylation with T2 damh, but not T2 dam+ protected λ against P1 restriction. This was demonstrated by transfection of Escherichia coli (P1) spheroplasts and by cleavage with R·EcoP1. (3) T2 dam+ and damh were similarly capable of methylating G-A-T-C sequences on λ DNA; e.g. λ·dam3 DNA (contains no N6-methyladonine) methylated with either enzyme was made resistant to cleavage by R·DpnII. In contrast, only the T2 damh modified DNA was resistant to further methylation by M·EcoP1 (which methylates the sequence 5′ … A-G-A-C-Py … 3′; Hattman et al., 1978b). (4) λ·dam3 DNA was partially methylated to the same level with T2 dam+ or T2 damh; the two enzymes produced different patterns of G-A-C versus G-A-T methylation. We propose that the T2 dam+ enzyme methylates G-A-C sequences less efficiently than the T2 damh methylase; this property does not entirely account for the large difference in methylation levels produced by the two enzymes. 相似文献
99.
Microtubule reassembly in vitro of Strongylocentrotus purpuratus sperm tail outer doublet tubulin 总被引:3,自引:0,他引:3
Strongylocentrotus purpuratus outer doublet microtubules were prepared by extraction of sperm tail axonemes with 0.6 m-KCl. Sonication of the outer doublet microtubules in 5 mm-2-(N-morpholino)ethanesulphonic acid, 1 mm-ethyleneglycol-bis-(β-aminoethyl ether) N,N′-tetraacetic acid, 1 inm-MgSO4 (pH 6.7) solubilized up to 35% of the outer doublet protein, depending on the power input, in a manner which was non-selective for either subfiber. Tubulin comprised 75 to 85% of the total solubilized protein in a 200,000 g supernatant obtained from the sonicated suspension. Colchicine-binding assays demonstrated that the tubulin was largely in a native form (KA = 106, liters mole?; 0.74 mole of colchicine bound per mole of tubulin at infinite concentration of colchicine).Microtubule self-assembly from the 200,000 g supernatants in the absence of added seeds or glycerol was quantitated by light-scattering at 350 nm. The critical protein concentration for assembly was 0.55 mg ml?1 at 37 °C and the reaction occurred optimally in the presence of 2 mm-GTP and 150 mm-KCl. The solubilized outer doublet tubulin formed singlet microtubules upon reassembly under our in vitro conditions. The authenticity of the microtubules was verified by both negative stain and thin-section electron microscopy. Polymerization was prevented by colchicine and podophyllotoxin, and depolymerization occurred rapidly on cooling the microtubules to 0 °C.The susceptibility of the reassembled microtubules to low temperature suggested that they could be “recycled” by the warm assembly-cold disassembly procedure developed for vertebrate brain (Borisy et al., 1974). Twice recycled outer doublet tubulin was devoid of high molecular weight microtubule-associated proteins, as judged by gel electrophoresis in the presence of sodium dodecyl sulfate. However, trace amounts (less than 5%) of intermediate molecular weight material was visible on heavily overloaded gels. The function of this material is uncertain, but it is not chemically equivalent to the tau factor of vertebrate brain (Weingarten et al., 1975), since it cannot be separated from the tubulin by phosphocellulose adsorption. In addition, phosphocellulose-treated tubulin reassembled to the same extent as untreated tubulin, suggesting that the reassembly of outer doublet tubulin does not require the protein equivalents of brain microtubule-associated proteins or tau factor. If accessory proteins are required for the reassembly of outer doublet tubulin, they are not removed by phosphocellulose under the conditions employed, and they must comprise less than 5% of the total protein. 相似文献
100.
Two pure peroxidase isoenzymes B1 and D4 were isolated from the upper parts of 10-day-old wheat seedlings by means of gel and ion-exchange chromatography. Their MWs were 85000 and 24000 respectively. B1 was unstable and under various conditions it was converted to another isoenzyme, electrophoretically identical with D4. B1 contains about 40% of neutral sugars: 17.2% arabinose, 15.3% galactose, 5% glucose and traces of mannose. D4 is free of neutral sugars. None of the isoenzymes contained amino sugars. B1 oxidizes ferulic and p-coumaric acids. This oxidation has two pH optima of 4.4 and 5.4–5.6 and is inhibited by high concentrations of substrates, cyanide and azide. B1 oxidizes IAA in the presence of phenolic cofactor and Mn2+ ions. IAA oxidation has two pH optima of 4.5 and 5.6 and is inhibited by high substrate concentration, cyanide and azide, and by a number of indole derivatives. The main products of IAA oxidation are 3-methyleneoxindole and indole-3-methanol. o- and p- diphenols induce a lag period prior to IAA oxidation. Ferulic acid is oxidized during this lag period, probably to a dimer. B1 is able to produce H2O2 from oxygen. Mn2+ ions, a phenolic cofactor and an electron donor (IAA or NADH) are needed. B1 oxidizes α-keto-γ- methylmercaptobutyric acid to ethylene. D4 has a low peroxidatic activity and is inactive as an IAA oxidase. Thus B1 is probably an active cell wall-bound peroxidase isoenzyme, whereas D4 is its decomposition product. 相似文献