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The effects of incubation of yeast spheroplasts at elevated temperature (40°C) on a number of activities involved in protein biosynthesis have been examined in preparations obtained from wild-type cells (wt A364A) and a temperature-sensitive mutant (ts 7–45) derived from it. With wild-type cells, preincubation of spheroplasts at the elevated temperature had little or no effect on the following: (1) the ribosomal subunit-polysome pattern; (2) the translation of exogenous natural mRNA in postpolysomal extracts devoid of endogenous mRNA; (3) the translation of poly(U) in postpolysomal extracts; (4) the incorporation of methionine into 40 S preinitiation and 80 S initiation complexes; (5) the synthesis of Met-tRNA in postribosomal (cytosol) extracts; and (6) the formation of eIF-2·GTP·Met-tRNAf ternary complex in the cytosol. With temperature-sensitive spheroplasts that had not been preincubated at the elevated temperature, the concentration of free, native 40 S subunits appeared to be lower and that of 60 S subunits higher than in wild-type cells; translation of exogenous natural mRNA in postpolysomal extracts was somewhat lower than in wild-type preparations, but all of the other reactions and components measured were comparable to those in wild-type preparations. Preincubation of temperature-sensitive spheroplasts at 40°C resulted in: (1) a further decrease in the level of 40 S subunits; (2) disaggregation of polysomes; (3) loss of ability to translate natural mRNA but not poly(U); (4) decreased ability to form 40 S preinitiation intermediates; and (5) production of an activity, found in the cytosol, that inhibited Met-tRNA synthetase reversibly. The inhibitor had the characteristics of a protein and did not appear to be a proteinase, nuclease, or nucleotidase.  相似文献   

3.
Strain S296, isolated by screening 2000 colonies after nitrosoguanidine mutagenesis, yields extracts with less than 1% of wild-type RNase activity against (3H) poly(U). Unlike other E.coli strains, S296 grows with a doubling time of about 2 hr., both in nutrient broth and in minimal medium, and at 30°, 37° and 42°. The strain retains 10 to 20% of wild-type exonuclease activity against (3H) rRNA or T4 phage-specific mRNA; but two further mutants, made by screening mutagenized colonies of strain S296, are reduced to 3% of wild-type activity against those substrates as well.  相似文献   

4.
The temperature, as well as several antibacterial antibiotics could be used to differentiate mitochondrial protein synthesis (MPS) from the cytoplasmic (CPS) one in the yeast Saccharomyces cerevisiae. In fact MPS and CPS have respectively the optimum at 30°C and 36°C. A series of cellular processes, as the mitotic reproduction in presence of non-fermentable carbon sources, the synthesis of galactose pathway enzymes and the meiotic process have the same optimal temperature (30°C), whereas the growth of the wild type in presence of fermentable carbon sources and of a galactose repressor constitutive mutant (i-) have the optimal temperature of 36°C, in agreement with our previous hypothesis in which the expression of some sections of the nuclear genetic complement is dependent on regulatory functions controlled by MPS.  相似文献   

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The binding of Mn-ATP with B. subtilis glutamine synthetase, observed kinetically at 37°, pH 7.0, is cooperative (Hill n = 2.3, S0·5 = 0.36mM), a phenomenon overlooked in earlier studies. The Arrhenius plot is biphasic with a break at 26°C. Similar behavior is observed with the thermophilic B. stearothermophilus enzyme, but is absent with the enzymes from E. coli, plant, and mammaliam sources under optimal assay conditions. The temperature dependence of the intrinsic fluorescence of the protein is also non-linear, and the intersection point of 18° shifts to 30° upon binding of substrates. These results are interpreted as indicating that Bacillus sp. enzymes can assume multiple, functionally important conformational states related to Mn-ATP binding at 37°. They also emphasize further that critical differences in mechanism exist among glutamine synthetases from different sources.  相似文献   

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The duration of various development stages of Fasciola gigantica inside the intermediate host Lymnaea auricularia were determined at different constant temperatures ranged from 12° to 30°C. The rate of development of sporocyst, redia, daughter redia and cercaria was accelerated as a result of increasing the temperature. Thus, an increase in the incubation temperatures from 15° to 30°C reduced the duration of sporocyst from 21 to 4 days, the redia from 37 to 11 days, daughter redia from 53 to 22 days and the cercaria from 73 to 25 days. At 12°C, the parasite developed to redial stage only and it required 51 days. Cercaria formation was observed at temperatures between 15 to 30°C. The highest cercaria output/snail was observed at 15°C and the lowest at 30°C.  相似文献   

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The effects of incubation of yeast spheroplasts at elevated temperature (40 degrees C) on a number of activities involved in protein biosynthesis have been examined in preparations obtained from wild-type cells (wt A364A ) and a temperature-sensitive mutant (ts 7-45) derived from it. With wild-type cells, preincubation of spheroplasts at the elevated temperature had little or no effect on the following: the ribosomal subunit-polysome pattern; the translation of exogenous natural mRNA in postpolysomal extracts devoid of endogenous mRNA; the translation of poly(U) in postpolysomal extracts; the incorporation of methionine into 40 S preinitiation and 80 S initiation complexes; the synthesis of Met-tRNA in postribosomal (cytosol) extracts; and the formation of eIF-2 X GTP X Met-tRNAf ternary complex in the cytosol. With temperature-sensitive spheroplasts that had not been preincubated at the elevated temperature, the concentration of free, native 40 S subunits appeared to be lower and that of 60 S subunits higher than in wild-type cells; translation of exogenous natural mRNA in postpolysomal extracts was somewhat lower than in wild-type preparations, but all of the other reactions and components measured were comparable to those in wild-type preparations. Preincubation of temperature-sensitive spheroplasts at 40 degrees C resulted in: a further decrease in the level of 40 S subunits; disaggregation of polysomes; loss of ability to translate natural mRNA but not poly(U); decreased ability to form 40 S preinitiation intermediates; and production of an activity, found in the cytosol, that inhibited Met-tRNA synthetase reversibly. The inhibitor had the characteristics of a protein and did not appear to be a proteinase, nuclease, or nucleotidase.  相似文献   

11.
The objective of this study was to investigate the extent to which in vitro hydrolysis of endogenous triglycerides contributes to the elevated concentrations of non-esterified fatty acids (NEFAs) which have been reported after heparin administration. Heparin is known to induce the release of lipases which hydrolyze endogenous substrate both in vivo and in vitro. Four patients undergoing diagnostic cardiac catheterization, who routinely receive heparin, were studied. Blood samples were obtained before and at 5 and 30 minutes after an intravenous bolus of heparin (46 U/kg) was administered. Determinations of NEFAs in plasma were carried out immediately and again various times after the samples had incubated at 24°C and at 0°C. In addition, an aliquot of each sample was frozen quickly, stored for 5–7 days, thawed, and incubated at 24°C for 180 minutes. As expected, there were no significant increases after incubation in the concentrations of NEFAs in the samples obtained before heparin administration. In contrast, in the samples obtained after heparin administration, incubation at 24°C produced significant increases in the concentrations of NEFAs. For example, in the plasma samples obtained 5 minutes after administration of heparin, concentrations of NEFAs increased 50, 160 and 300% after 5, 60, and 180 minutes of incubation compared to pre-heparin concentrations. When assayed immediately, the concentrations of NEFAs increased only 15% over pre-heparin concentrations. Incubating the samples at 0°C slowed lipase activity. Freezing the samples stopped the lipase activity; however, when the thawed samples were incubated at 24°C, concentrations of NEFAs continued to rise. This study suggests that much of the reported increases in the in vivo concentrations of NEFAs after administration of heparin may be due to in vitro formation from continued lipase activity on endogenous substrate. Moreover, studies relating increases in the concentrations of NEFAs after administration of heparin to changes in drug binding to plasma proteins should be re-examined for possible in vitro artifacts.  相似文献   

12.
The specific synthesis of argF mRNA directed by the argF gene carried on the specialized transducing bacteriophage λh80C1857dargF, performed in vitro, is described with the use of an S180 extract from a strain carrying argR?. Synthesis of argF mRNA is biphasic at approximately 7 minutes. The regulation of argF mRNA synthesis by the specific arginine holorepressor present in an S180 extract prepared from a strain carrying the argR+ allele is described.  相似文献   

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This study was undertaken to determine optium conditions for the extraction and measurement of uterine nuclear estrogen receptor at low temperature. We measured the influence of glycero, 0.5 M KCl, 10 mM pyridoxal 5′-phosphate, and 0.5 M NaSCN on the dissocation of estradiol from the receptor at 0°C. The half-time (12) of estradiol dissociation from the receptor in 0.5 M KCl nuclear extracts containing 30% glycerol was very slow (greater than 250 h). Exclusion of glycerol from the extract (Tris buffer) increased the dissociation rate (t12 = 35 h). The inhibitory effect of glycerol on estradiol dissociation kinetics predominated over the mild stimulatory effect of KCl; and both effects were independent of the electrical conductivity of the buffer. When pyridoxal phosphate was added to a nuclear KCl extract (barbital fubber) lacking glycerol, dissociation of the estrogen-receptor complex increased such that the t12) decreased from 20 to 7.6 h; the receptor extracted from nuclei with 10 mM pyridoxal phosphate exhibited these same rapid dissociation kinetics. The t12 of estradiol dissociation from the receptor at 0°C in the presence of 0.5 M NaSCN was 5.6 h. Following extraction of uterine receptro by KCl, pyridoxal phosphate, or NaSCN, we measured the number of estradiol binding sites at each of two incubation temperatures: 30°C for 1 hr and 0°C for 24 h. We verified that unoccupied receptors was measured reliability in KCl extract during incubation at 0°C in the presence of glycerol. Total receptor can be determined using either pyridoxal phosphate extract or NaSCN extract at low temperature. However, the number of sites recovered in either pyridoxal phosphate or NaSCN extract was twice the number obtained with the KCl procedure at elevated temperature. It is noteworthy that pyridoxal phosphate and NaSCN increased the number of sites when added directly to nuclear KCl extract, and the effect of pyridoxal phosphate and NaSCN was reversed by treatment with L-lysine and dialysis against KCl, respectively. Thus, the lower receptor recovery with the KCl procedure is not due to the inability of KCl to extract these sites from the nucleus but rather is ascribable to the assay procedure itself. Although total receptor can be measured at low temperature with either NaSCN or pyridoxal phosphate, the pyridoxal phosphate method can be used to assay nuclear progesterone receptor in tha same extract.  相似文献   

15.
One hour following administration of physiological concentrations of the steroid hormone antheridiol to a male strain of the water mold, Achlyaambisexualis, the rate of total cellular protein synthesis is increased. Further analysis revealed a sequential increase in the rate of syntheses for three classes of proteins following hormone stimulation. The rate of ribosomal protein synthesis increased as early as 20–30 minutes, followed by ribosomal salt wash proteins (40–60 minutes) and total soluble proteins after 60 minutes. Patterns of total cellular proteins, resolved by two-dimensional gel electrophoresis, during the first four hours after hormone treatment demonstrated the appearance of two newly synthesized peptides beginning at approximately 40 minutes followed by an increased rate of synthesis of three peptides after one hour. The synthesis of two peptides totally decreased after three hours of hormone induction.  相似文献   

16.
Diacytosis of 125I-asialoorosomucoid by rat hepatocytes was studied by preincubating the cells with the labelled ligand at 37°C for 30 min or 18°C for 2 h, washing free of cell surface receptor-bound tracer at 4°C and then reincubating at 37°C. The cells preloaded at 37°C released a maximum of 18% of the total intracellular ligand as undegraded molecules after 1 h of incubation with an apparent first-order rate constant of 0.018 min?1 (t12 = 39 min). When the preloaded cells were incubated in the presence of 100 μg/ml unlabelled asialoorosomucoid or 5 mM ethylene glycol bis(β-aminoethyl ether)-N,N,N′,N′-tetraacetic acid, the amount of the released ligand increased to 32 and 37%, respectively, without apparent change in kinetics, indicating that these agents prevented rebinding of the released ligand. In the presence of 5 μM colchicine, 20 μM cytochalasin B, 20 μM chloroquine, 10 mM NH4Cl, 10 μM monensin or 20 μM leupeptin, degradation of the preloaded ligand was inhibited, whereas the release of the ligand was either slightly increased or unchanged. Similar effects of leupeptin, colchicine and asialoocrosomucoid were observed with cells preloaded at 18°C. These results indicate that diacytosis of 125I-asialoorosomucoid occurs from a prelysosomal compartment via a route insensitive to inhibition by the inhibitors of ligand degradation.  相似文献   

17.
Mucosal acidification (from pH 8.1 to 6.0) reversibly inhibited the hydroosmotic responses to oxytocin, cyclic AMP and 8-bromo-cyclic AMP in frog urinary bladder. These inhibitory effects were only observed in the presence of a permeant buffer in the apical medium and could also be elicited by CO2 bubbling, even when the mucosal pH was clamped at 8.1. Acid pH reduced the oxytocin-induced net water flux faster than norepinephrine or oxytocin removal and the difference was especially important at low temperature. The time course of recovery from acid pH inhibition was, at 20°C, similar to that of the hormonal action, but when the medium temperature was reduced to 6–7°C, the recovery from acid pH inhibition paradoxically became faster while the oxytocin action was markedly slowed down (t12 of changes in net water fluxes (expressed in min): oxytocin addition at 20°C, 6.2 ± 0.9; at 6°C, 24 ± 3; oxytocin removal at 20°C, 4.7 ± 0.8; at 6°C, 22 ± 3; pH inhibition at 20°C, 2.6 ± 0.2; at 6°C 2.5 ± 0.2; recovery from pH 6 at 20°C, 6.5 ± 0.9; at 6°C, 2.7 ± 0.3). These results can be explained by accepting two main loci sensitive to medium acidification: (1) the cyclase system and (2) an intracellular, temperature-independent, post-cyclic AMP site. The fact that the intramembranous particle aggregates associated with the oxytocin-induced water permeability increase did not disappear after the flow inhibition by acid pH at low temperature suggests that the second effect could be located at the water channel itself.  相似文献   

18.
Rat adipocytes were incubated with 15 nM insulin in different buffers at 37°C. The cells were washed and reincubated at 16°C in the presence of 18 pM A14-[125I]monoiodoinsulin to determine the insulin receptor concentration. After incubation for 2 h in Tris buffer the binding decreased to about 30 %, whereas no decrease was found after incubation in Hepes, phosphate or bicarbonate buffers. Binding of tracer insulin reached a constant level by 45 min in Hepes buffer at 37°C, whereas it continued to increase in Tris buffer. Washout of tracer insulin after incubation in Tris buffer at 37°C showed a large, slowly dissociable fraction. It is suggested that the rapid down regulation of insulin receptors invitro is an artifact of the Tris buffer and that the phenomenon is due to a slowly reversible occupancy of a receptor pool with unlabelled insulin.  相似文献   

19.
Methotrexate, 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide and N-hydroxysuccinimide react to form an activated ester of methotrexate which is a potent irreversible inhibitor of methotrexate transport in L1210 cells. In cells treated with the reagent at 37°C, inhibition was rapid (t12 < 1 min), optimal at pH 6.8, half-maximal at an inhibitor concentration of 20 nM, and complete at high levels of the reagent. Specificity was indicated by the fact that excess methotrexate added during the pretreatment step protected the transport system against inactivation. Irreversible inhibition was also observed in cells exposed to the reagent at 4°C. Inactivation in this case was qualitatively similar to the corresponding process at 37°C; it appeared rapidly, was half-maximal at 20 nM, and could be prevented by the addition of high concentrations of the substrate. The extent of the inhibition, however, reached a maximum of only 75%, even in samples containing excess or multiple additions of reagent. The latter findings suggest that at 4°C the transport protein exists in two forms, one (75% of the total) containing binding sites which are accessible to the active ester, and the other (25% of the total) with inaccessible sites. The identity of these sites is suggested to be transport proteins which have outward and inward orientations, respectively.  相似文献   

20.
When different strains of Escherichia coli or Salmonella are grown at 30° or at 42° and their proteins are compared using SDS-polyacrylamide gel electrophoresis, differences are observed in the protein composition of the cells. In particular, one major difference is in a protein of molecular weight of approximately 58,000, which is made at 42° but not at 30°.  相似文献   

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