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151.
152.
Diagnostic tools for invasive fungal infections have continuously improved within the last decades. Nowadays, cultural methods, antigen testing, and molecular tests, such as polymerase chain reaction, are widely used. These methods, however, are accompanied with different limitations as various availability, various turnaround time or high costs. A new generation of point-of-care test has shown promising results in various studies and may overcome some of these limitations. We therefore reviewed the literature for the most promising new point-of-care tests for invasive aspergillosis (Aspergillus-specific lateral-flow device test, Aspergillus proximity ligation antigen assay), cryptococcosis (cryptococcal lateral-flow assay), and for histoplasmosis (loop-mediated isothermal amplification assay). 相似文献
153.
Control of Photosynthetic Sucrose Synthesis by Fructose 2,6-Bisphosphate : V. Modulation of the Spinach Leaf Cytosolic Fructose 1,6-Bisphosphatase Activity in Vitro by Substrate, Products, pH, Magnesium, Fructose 2,6-Bisphosphate, Adenosine Monophosphate, and Dihydroxyacetone Phosphate 总被引:6,自引:5,他引:1
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How fructose 2,6-bisphosphate and metabolic intermediates interact to regulate the activity of the cytosolic fructose 1,6-bisphosphatase in vitro has been investigated. Mg2+ is required as an activator. There is a wide pH optimum, especially at high Mg2+. The substrate dependence is not markedly pH dependent. High concentrations of Mg2+ and fructose 1,6-bisphosphate are inhibitory, especially at higher pH. Fructose 2,6-bisphosphate inhibits over a wide range of pH values. It acts by lowering the maximal activity and lowering the affinity for fructose 1,6-bisphosphate, for which sigmoidal saturation kinetics are induced, but the Mg2+ dependence is not markedly altered. On its own, adenosine monophosphate inhibits competitively to Mg2+ and noncompetitively to fructose 1,6-bisphosphate. In the presence of fructose 2,6-bisphosphate, adenosine monophosphate inhibits in a fructose 1,6-bisphosphate-dependent manner. In the presence of adenosine monophosphate, fructose 2,6-bisphosphate inhibits in Mg2+-dependent manner. Fructose 6-phosphate and phosphate both inhibit competitively to fructose 1,6-bisphosphate. Fructose 2,6-bisphosphate does not affect the inhibition by phosphate, but weakens inhibition by fructose 6-phosphate. Dihydroxyacetone phosphate and hydroxypyruvate inhibit noncompetitively to fructose 1,6-bisphosphate and to Mg2+, but both act as activators in the presence of fructose 2,6-bisphosphate by decreasing the S0.5 for fructose 1,6-bisphosphate. A model is proposed to account for the interaction between these effectors. 相似文献
154.
The simultaneous determination of carbon dioxide release and oxygen uptake in suspensions of plant leaf mitochondria oxidizing glycine 总被引:2,自引:2,他引:0
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The construction and operation of a device for continuous measurement of CO2 release by suspensions of respiring mitochondria is described. A combination of this device with a Clark-type O2 electrode was used for simultaneous measurement of respiration and of CO2 release by spinach and pea leaf mitochondria with glycine as substrate. Both mitochondrial preparations showed high rates of respiration and high respiratory control ratios. The addition of oxaloacetate not only inhibited O2 uptake substantially, but also greatly stimulated glycine oxidation as monitored by CO2 release. In spinach leaf mitochondria, the maximal rates of glycine oxidation thus obtained, were two times higher than the rate of glycine oxidation required at average rates of photorespiration. It is concluded from these results that under saturating conditions the capacity of glycine oxidation by intact mitochondria exceeds the capacity of glycine-dependent respiration. 相似文献
155.
A Two-Translocator Model for the Transport of 2-Oxoglutarate and Glutamate in Chloroplasts during Ammonia Assimilation in the Light 总被引:1,自引:1,他引:0
This study examines the transport of 2-oxoglutarate (2-OG) and other dicarboxylates during ammonia assimilation in illuminated spinach chloroplasts. The transport of all dicarboxylates examined was strongly inhibited by NH4Cl preincubation in the light. Treatment with NH4Cl caused a rapid depletion of the endogenous glutamate pool and a corresponding increase in endogenous glutamine content. The inhibition of transport activity by NH4Cl was apparently linked to its metabolism in the light because inhibition of glutamine synthetase activity by the addition of l-methionine sulfoximine or carbonylcyanide-m-chlorophenylhydrazone abolished this affect. Measurements of endogenous metabolite pools showed that malate was most rapidly exchanged during the uptake of all exogenous dicarboxylates examined. Depending on the exogenous substrates used, the apparent half-times of efflux measured for endogenous malate, aspartate and glutamate were 10, 10 to 30, and 15 to 240 seconds, respectively. The transport of 2-OG was also inhibited by malate. But chloroplasts preincubated with malate in the presence or absence of NH4Cl were found to have high transport activity similar to untreated chloroplasts. A two-translocator model is proposed to explain the stimulation of 2-OG transport as well as the stimulation of (NH3, 2-OG)-dependent O2 evolution by malate (KC Woo, CB Osmond 1982 Plant Physiol 69: 591-596) in isolated chloroplasts. In this model the transport of 2-OG on the 2-OG translocator and glutamate on the dicarboxylate translocator is coupled to malate counter-exchange in a cascade-like manner. This results in a net 2-OG/glutamate exchange with no net malate transport. Thus, during NH3 assimilation the transport of 2-OG into and the export of glutamate out of the chloroplast occurs via the 2-OG and the dicarboxylate translocators, respectively. 相似文献
156.
The effect of pH and of Mg2+ concentration on the light activated form of stromal fructose-1,6-bisphosphatase (FBPase) was studied using the enzyme rapidly extracted from illuminated spinach chloroplasts. The (fructose-1,6-bisphosphate4-)(Mg2+) complex has been identified as the substrate of the enzyme. Therefore, changes of pH and Mg2+ concentrations have an immediate effect on the activity of FBPase by shifting the pH and Mg2+ dependent equilibrium concentration of the substrate. In addition, changes of pH and Mg2+ concentration in the assay medium have a delayed effect on FBPase activity. A correlation of the activities observed using different pH and Mg2+ concentrations indicates, that the effect is not a consequence of the pH and Mg2+ concentration as such, but is caused by a shift in the equilibrium concentration of a hypothetical inhibitor fructose-1,6-bisphosphate3- (uncomplexed), resulting in a change of the activation state of the enzyme. The interplay between a rapid effect on the concentration of the substrate and a delayed effect on the activation state enables a rigid control of stromal FBPase by stromal Mg2+ concentrations and pH. Fructose-1,6-bisphosphatase is allosterically inhibited by fructose-6-phosphate in a sigmoidal fashion, allowing a fine control of the enzyme by its product.Abbreviations Fru1,6 bis P
fructose-1,6-bisphosphate
- Fru6P
fructose-6-phosphate
- FBPase
fructose-1,6-bisphosphatase
Some of these results have been included in a preliminary report (Heldt et al. 1984) 相似文献
157.
The effect of stromal metabolites on the light-activated form of ribulose-5-phosphate kinase was studied with the enzyme rapidly extracted from illuminated spinach chlorplasts. In some instances, the effect of metabolites on the dark-inactivated enzyme extracted from darkened chloroplasts was also investigated. (1) The light-activated form of the enzyme is competitively inhibited with respect to ribulose 5-phosphate by 6-phosphogluconate, ribulose 1,5-bisphosphate, 3-phosphoglycerate and phosphate. Also, fructose 1,6-bisphosphate is inhibitory. All these compounds, except ribulose 1,5-bisphosphate, show an increasing inhibitory effect at lower pH values. Therefore, in the presence of these inhibitors, ribulose-5-phosphate kinase becomes strongly pH dependent. These compounds also exert an inhibitory effect on the dark-inactivated enzyme. (2) The assay of stromal levels of 6-phosphogluconate showed that this compound increased dramatically during a light-dark transient. (3) The dark-inactivated form of ribulose-5-phosphate kinase is strongly inhibited by ADP, the inhibition being competitive with respect to ATP. (4) A simulation of stromal metabolite levels in the enzyme activity assay indicates that in illuminated chloroplasts ribulose-5-phosphate kinase attains only about 4% of its maximal activity. When the fully light-activated enzyme is assayed under conditions occurring in the stroma in the dark, the activity is further decreased by a factor of 20. The same assay with the dark-inactivated enzyme yields an activity of virtually zero. (5) These results demonstrate that in the chloroplasts ribulose-5-phosphate kinase can not only be very efficiently switched off in the dark, but also be subjected to fine control during the illuminated state through the action of stromal metabolites. 相似文献
158.
Regulation of Sucrose Synthesis by Cytoplasmic Fructosebisphosphatase and Sucrose Phosphate Synthase during Photosynthesis in Varying Light and Carbon Dioxide 总被引:11,自引:11,他引:0
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The aim of this work was to investigate whether sucrose synthesis in the cytosol of leaf cells is regulated in response to the supply of energy and organic carbon from the chloroplast. Fluxes into sucrose and metabolite levels in wheat (Triticum aestivum var Timmo) leaf protoplasts were compared in a range of light intensities and CO2 concentrations, showing that sucrose-phosphate synthase and the cytosolic fructose-1,6-bisphosphatase are inhibited in situ when the supply of trioseP from the chloroplasts decreases. Such a regulation might aid CO2 fixation in limiting conditions by permitting stromal metabolites to be maintained at higher levels than would otherwise be possible. 相似文献
159.
Rapid fractionation of wheat leaf protoplasts using membrane filtration : the determination of metabolite levels in the chloroplasts, cytosol, and mitochondria 总被引:7,自引:6,他引:1
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A technique is presented for measuring the in vivo metabolite levels in the chloroplast stroma, the cytosol, and the mitochondrial matrix of wheat (Triticum aestivum, var `Timmo') leaf protoplasts, in which membrane filtration is used to prepare fractions enriched in the different subcellular fractions within 0.1 seconds after disruption of the protoplasts. By closing a syringe, protoplasts are forced through a net and disrupted, diluting the cytosol into the medium and also releasing intact chloroplasts and mitochondria which can then be immediately removed on membrane filters placed behind the nylon net. By varying the membrane filters, different filtrates are obtained corresponding to (a) mainly cytosol, or (b) cytosol and mitochondria with only low levels of chloroplasts; alternatively, (c) the entire protoplast contents are obtained by omitting the filters. The filtrates are immediately split, half flowing into HClO4 where they are immediately quenched for subsequent metabolite analyses; the other half flows into detergent and is used to monitor the exact distribution of marker enzymes in each individual fractionation. Using the measured distributions of metabolite and of marker enzymes in the three filtrates, the subcellular distribution of the metabolite can be algebraically calculated. The method is presented using ATP as an example.
The quench time (0.1 second) made possible by membrane filtration is considerably faster than has been possible in the previously developed techniques using silicone oil centrifugation for chloroplasts (1 second) or mitochondria (1 minute). This rapid quench makes it possible to investigate subcellular pools which have a rapid turnover, like the adenine nucleotides.
相似文献160.
Adenine nucleotide levels in the cytosol, chloroplasts, and mitochondria of wheat leaf protoplasts 总被引:38,自引:26,他引:12
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Recently, a new method has been described, in which membrane filtration is used to allow the levels of adenine nucleotides in the chloroplast stroma, the cytosol, and the mitochondrial matrix to be measured. This method is now used to investigate the effect of illumination, of respiratory inhibitors, and of uncouplers on the distribution of ATP, ADP, and AMP in wheat (Triticum aestivum var. `Timmo') leaf protoplasts. (a) The adenine nucleotides are apparently equilibrated by adenylate kinase in the stroma and the cytosol, but not in the mitochondrial matrix. (b) The ATP/ADP quotient in the cytosol is considerably higher than that in the mitochondrial matrix or the chloroplast stroma. (c) A large gradient exists between the ATP/ADP quotients in the cytosol and the mitochondrial matrix in the dark, with a very low ATP/ADP quotient in the mitochondria. This gradient is lowered by uncouplers or respiratory inhibitors showing that, as in animal tissues, it reflects the energization of the mitochondria. (d) In the dark, the stromal ATP/ADP is lower than in the light, and appears to be maintained, at least in part, by import from the cytosol. (e) The cytosolic ATP/ADP, however, actually decreases in the light. This contradicts the widespread assumption, that export of photosynthetically produced ATP from the chloroplast leads to an increase in the cytosolic ATP/ADP, which then inhibits oxidative phosphorylation in the mitochondria. (f) The mitochondrial ATP/ADP increases in the light, and the gradient between the cytosol and mitochondrial matrix falls. This is also difficult to understand in terms of an inhibition of oxidative phosphorylation in the light due to a lack of ADP in the cytosol. (g) The significance of the measured variations in the adenine nucleotide pools are discussed with respect to the diurnal carbohydrate metabolism in a leaf, and to the metabolic function of the chloroplast, the cytosol and the mitochondria. 相似文献