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1.
An antibody specific for ribulose 1,5-diphosphate carboxylase was used to isolate the enzyme from greening barley (Hordeum vulgare L.) leaves. The increase in enzymatic activity during greening was due to de novo synthesis of the enzyme. Increases in enzymatic activity were accompanied by corresponding increases in enzyme protein and by incorporation of radioactive leucine, all of which were inhibited by low concentrations of cycloheximide. 14C-Labeled amino acids were incorporated into the enzyme by covalent peptide bonding.  相似文献   

2.
The preparation of a rabbit antibody to ribulose-1,5-bisphosphate carboxylase (RuBPCase) from Euglena gracilis and its use to quantitate RuBPCase in dark- and light-grown cells and during light-induced chloroplast development (greening) are described. Light-grown Euglena have at least 36 times more RuBPCase than dark-grown Euglena. Light is required for both the initiation and continued increase in net synthesis of RuBPCase over the dark level: brief illumination 12 hours before exposure to continuous light eliminates the lags in the accumulation and increase in activity of RuBPCase (as well as in chlorophyll accumulation); net synthesis is blocked in greening cells returned to the dark or exposed to 3-(3,4-dichlorophenyl)-1,1-dimethylurea. Streptomycin or cycloheximide prevents RuBPCase accumulation when added at the beginning of greening but only partially blocks accumulation when added after 25 hours of greening. After 24 hours of greening, the activity of RuBPCase per milligram chlorophyll continues to increase slowly while concentration of the enzyme per milligram chlorophyll remains constant. This increased activity may be due to activation of the enzyme as well as to net synthesis.  相似文献   

3.
Osmotic stress induced with 1 M sorbitol inhibited δ-aminolevulinic acid dehydratase (ALAD) and aminolevulinic acid (ALA) synthesizing activities in etiolated maize leaf segments during greening; the ALAD activity was inhibited to a greater extent than the ALA synthesis. When the leaves were exposed to light, the ALAD activity increased for the first 8 h, followed by a decrease observed at 16 and 24 h in both sorbitol-treated and untreated leaf tissues. The maximum inhibition of the enzyme activity was observed in the leaf segments incubated with sorbitol for 4 to 8 h. Glutamate increased the ALAD activity in the in vitro enzymatic preparations obtained from the sorbitol-treated leaf segments; sorbitol inhibited the ALAD activity in the preparations from both sorbitol-treated and untreated leaves. It was suggested that sorbitol-induced osmotic stress inhibits the enzyme activity by affecting the ALAD induction during greening and regulating the ALAD steady-state level of ALAD in leaf cells. The protective effect of glutamate on ALAD in the preparations from the sorbitol-treated leaves might be due to its stimulatory effect on the enzyme.  相似文献   

4.
Formation of the chlorophyll and heme precursor δ-aminolevulinic acid (ALA) from glutamate in soluble extracts of Chlorella vulgaris, Euglena gracilis, and Cyanidium caldarium was stimulated by addition of low molecular weight RNA derived from greening algae or plant tissue. Enzyme extracts were prepared for the ALA formation assay by high-speed centrifugation, partial RNA depletion, and gel filtration through Sephadex G-25. RNA was extracted from greening barley epicotyls, greening cucumber cotyledon chloroplasts, and growing cells of Chlorella, Euglena, Chlamydomonas reinhardtii, and Anacystis nidulans, freed of protein, and fractionated on DEAE-cellulose to yield an active component corresponding to the tRNA-containing fraction. RNA from homologous and heterologous species stimulated ALA formation when added to enzyme extracts, and the degree of stimulation was proportional to the amount of RNA added. Algal enzyme extracts were stimulated by algal RNAs interchangeably, with the exception of RNA prepared from aplastidic Euglena, which did not stimulate ALA production. RNA from greening cucumber cotyledon chloroplasts and greening barley epicotyls stimulated ALA formation in algal enzyme incubations. In contrast, tRNA from Escherichia coli, both nonspecific and glutamate-specific, as well as wheat germ, bovine liver, and yeast tRNA, failed to reconstitute ALA formation. Moreover, E. coli tRNA inhibited ALA formation by algal extracts, both in the presence and absence of added algal RNA. Chlorella extracts were capable of catalyzing aminoacyl bond formation between glutamate and both the activity reconstituting and nonreconstituting RNAs, indicating that the inability of some RNAs to stimulate ALA formation was not due to their inability to serve as glutamyl acceptors. The first step in the ALA-forming reaction sequence has been proposed to be activation of glutamate via aminoacyl bond formation with a specific tRNA, analogous to the first step in peptide bond formation. Our results suggest that the RNA that is required for ALA formation may be functionally distinct from the glutamyl-tRNA species involved in protein synthesis.  相似文献   

5.
Density-labeling with 10 millimolar K15NO3/70% 2H2O has been used to investigate isocitrate lyase synthesis during greening of sunflower (Helianthus annuus L.) cotyledons when the glyoxysomal enzyme activities sharply decline and the transition in cotyledonary microbody function occurs. A density shift of 0.0054 (kilograms per liter) was obtained for the profile of isocitrate lyase activity in the CsCl gradient with respect to the 1H2O control. Quantitative evaluation of the density-labeling data indicates that about 50% of the isocitrate lyase activity present towards the end of the transition stage in microbody function is due to enzyme molecules newly synthesized during this stage.  相似文献   

6.
Density-labeling with 10 mm K15NO3/70% 2H2O has been used to investigate catalase synthesis in different developmental stages of sunflower (Helianthus annuus L.) cotyledons. A mathematical approach is introduced for the quantitative evaluation of the density-labeling data. The method allows, in the presence of preexisting enzyme activity, calculation of this synthesized activity (apparent enzyme synthesis) which results from the balance between actual enzyme synthesis and the degradation of newly synthesized enzyme at a given time. During greening of the cotyledons, when the catalase activity declines and the population of leaf peroxisomes is formed, the apparent catalase synthesis is lower than, or at best equal to, that occurring during a developmental stage when the leaf peroxisome population is established and catalase synthesis and degradation of total catalase are in equilibrium. This result suggests a formation, in fatty cotyledons, of the leaf peroxisomes by transformation of the glyoxysomes rather than by de novo synthesis.  相似文献   

7.
Shoots of anaerobically germinated Echinochloa crus-galli var oryzicola are nonpigmented whether germinated in light or dark, and chlorophyll synthesis is minimal for the first 12 to 18 hours of greening after exposure to ambient conditions. When chlorophyll development is compared between greening anoxic and etiolated shoots, there is a 100-fold difference in chlorophyll levels at 8 hours, an 8-fold difference at 24 hours, but roughly equal amounts at 60 hours. The chlorophyll a/b ratio approaches 3 earlier in greening anoxic shoots than in greening etiolated shoots, relative to total chlorophyll. The long lag in chlorophyll synthesis can be shortened by giving dark-grown anoxic shoots a 24-hour midtreatment of air before light.

Development of photosynthetic activity in etiolated shoots, determined by CO2 gas exchange, 14CO2 uptake, and activity of carboxylating enzymes closely parallels development of chlorophylls. However, development of photosynthetic capability in greening anoxic shoots does not parallel chlorophyll development; ability to fix carbon lags behind chlorophyll synthesis. A reason for this lag is the very low activity of RuBP carboxylase during the first 36 hours of greening in anoxic shoots. The activity of phosphoenolpyruvate carboxylase is also delayed, but its kinetics more closely match those of chlorophyll development.

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8.
The accumulation of ribulose-1,5-bisphosphate carboxylase (RuBPCase) in resting Euglena gracilis strain Z during greening is photo-regulated (Freyssinet, Eichholz, Buetow 1984 Plant Physiol 75: 850-857. Greening resting cells are not photosynthetically competent for about the first 24 hours in the light. Therefore, substrates for a net synthesis of the enzyme must come from endogenous constituents. During this time, degradation of endogenous paramylum (carbohydrate) reserves provides the main source of substrates. By about 24 hours of greening, resting cells are photosynthetically competent and RuBPCase accumulation becomes highly sensitive to 3-(3,4 dichlorophenyl)-1,1-dimethylurea. Therefore, from about 24 hours of greening onward, substrates (and/or energy) for RuBPCase synthesis are provided by photosynthesis. Ethanol, a nutritional substrate ordinarily used constitutively by Euglena for growth, inhibits RuBPCase accumulation when added to the resting medium in the light. The alcohol exerts this negative regulatory effect by limiting the availability of substrates needed for a net synthesis of the enzyme.  相似文献   

9.
Greening cells of Chlorella prolothecoides were assayed foractivity of the in vivo synthesis of ALA, which was markedlydeveloped during light-induced greening. Effects of CH on thesyntheses of ALA and chlorophyll were also examined. The resultsstrongly suggested that a labile enzyme is involved in ALA synthesis,and that continuous formation of the enzyme is required forthe greening of cells. However, the prompt suppression of chlorophyllsynthesis when CH was added to rapidly greening cells was foundto be attributable not to the blockage of ALA synthesis butto the suppression of some later process(es) in the course ofchlorophyll synthesis, under the conditions used. The valueof the Hill coefficient for the CH inhibition of chlorophyllsynthesis as well as the CH concentration which caused 50% inhibitionremained unaltered whether it was measured when the ALA synthesisactivity was greatly inhibited by CH or when the activity wasonly slightly suppressed. (Received November 11, 1974; )  相似文献   

10.
The synthesis of sigma-aminolevulinate dehydratase (EC 4.2.1.24) in green or greening barley shoots was shown to increase, when the plants were grown on chloramphenicol solutions of varying concentrations for 48 hrs upon illumination. This was evidenced from the increase in the enzyme activity of the chloroplast preparations isolated from the shoots as compared to the controls grown in aqueous media. Similar treatment by cycloheximide resulted in inhibition of the enzyme synthesis as observed in the experiments with green and greening shoots. The activity of porphobilinogenase (the porphobilinogene deaminase and uroporphirinogene III cosynthetase complex) showed similar dependence on the effect of the antibiotics. The results obtained are discussed in terms of localization of the chloroplast enzyme syntheses inside the cell.  相似文献   

11.
During the greening of etiolated rice leaves, total glutamine synthetase activity increases about twofold, and after 48 h the level of activity usually observed in green leaves is obtained. A density-labeling experiment with deuterium demonstrates that the increase in enzyme activity is due to a synthesis of the enzyme. The enhanced activity obtained upon greening is the result of two different phenomena: there is a fivefold increase of chloroplastic glutamine synthetase content accompanied by a concommitant decrease (twofold) of the cytosolic glutamine synthetase. The increase of chloroplastic glutamine synthetase (GS2) is only inhibited by cycloheximide and not by lincomycin. This result indicates a cytosolic synthesis of GS2. The synthesis of GS2 was confirmed by a quantification of the protein by an immunochemical method. It was demonstrated that GS2 protein content in green leaves is fivefold higher than in etiolated leaves.Abbreviations AbH heavy chain of antibodies - AbL light chain of antibodies - AP acid phosphatase - CH cycloheximide - G6PDH glucose-6-phosphate dehydrogenase - GS glutamine synthetase - GS1 cytosolic glutamine synthetase - GS2 chloroplastic glutamine synthetase - LC lincomycin - NAD-MDH NAD malate dehydrogenase - NADP-G3PDH NADP glyceraldehyde-3-phosphate dehydrogenase  相似文献   

12.
The effects of various light intensities on in vivo increases in activities of phosphoriboisomerase, phosphoribulokinase and ribulose-1, 5-diP carboxylase and on synthesis of chlorophyll were studied in greening leaves of Hordeum vulgare L.

Each enzyme was already present in dark-grown plants, but further increases in activities required both a light treatment of the intact plant and a favorable temperature. The amount of enzymatic activity and chlorophyll developed was governed by light intensity.

Measured activities of phosphoriboisomerase and ribulose 1,5-diP carboxylase were highly correlated with synthesis of chlorophyll at all intensities studied. Measured activity of phosphoribulokinase was correlated with synthesis of chlorophyll only at saturating or near saturating light intensities. At decreasing light intensities the response curves of this enzyme differed from those of chlorophyll and of phosphoriboisomerase and ribulose-1, 5-diP carboxylase. A lag period of phosphoribulokinase increased with decreasing light intensity. After the lag period a rapid rate of increase occurred which did not level off during 48 hours of illumination. Thus, a different control mechanism may be operative in inducing increased activity of this enzyme.

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13.
The development of photochemical activity during the greening of dark-grown barley seedlings (Hordeum vulgare L. cv. Svalöfs Bonus) was studied in relation to the formation of the high potential form of cytochrome b-559 (cytochrome b-559HP). Photosynthetic oxygen evolution from leaves was detected at 30 minutes of illumination. The rate of oxygen evolution per gram fresh weight of leaf was as high at 2 to 2.5 hours of greening as at 24 hours or in fully greened leaves. On a chlorophyll basis, the photosynthetic rate at 90 minutes of greening was 80-fold greater than the rate at 45 hours. It is concluded that the majority of photosynthetic units are functional at an early stage of greening, and that chlorophyll synthesis during greening serves to increase the size of the units.  相似文献   

14.
Harel E  Ne'eman E 《Plant physiology》1983,72(4):1062-1067
Intact plastids from greening maize (Zea mays L.) leaves converted [14C]glutamate and [14C]2-ketoglutarate (KG) to [14C]5-aminolevulinic acid (ALA). Glutamate appeared to be the immediate precursor of ALA, while KG was first converted to glutamate, as shown by the effect of various inhibitors of amino acid metabolism. Plastids from greening leaves contained markedly higher activity as compared with etioplasts or chloroplasts. The synthesis of ALA by intact plastids was light dependent. The enzyme system resides in the stroma of plastids or may be lightly bound to membranes. The solubilized system showed maximal activity around pH 7.9 and required Mg2+, ATP, and NADPH although dependence on the latter was not clear-cut. A relatively high level of activity could be extracted from etioplasts. Maximal activity was obtained from plastids of leaves which had been illuminated for 90 minutes, after which activity declined sharply. The enzyme system solubilized from plastids also catalyzed the conversion of putative glutamate 1-semialdehyde to ALA in a reaction which was not dependent on the addition of an amino donor.

The system in maize greatly resembled the one which had been reported from barley. It is suggested that this system is the one responsible for the biosynthesis of ALA destined for chlorophyll formation.

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15.
Succinyl-CoA synthetase in greening maize leaves   总被引:1,自引:0,他引:1  
R. Fluhr  E. Harel 《Phytochemistry》1975,14(10):2157-2160
In extracts of greening maize leaves succinyl-CoA synthetase was present in both a particulate and a soluble fraction. Aqueous and non-aqueous fractionation together with determination of chlorophyll content and cytochrome oxidase activity indicated that the enzyme was neither located, nor originated in plastids. Pre-illumination of leaves caused only small increases in the activity of either the particulate or the soluble enzyme. The soluble enzyme was ATP specific and had a low affinity for succinate (Km = 63 mM).  相似文献   

16.
Catalase activity is demonstrated histochemically in the microbodies of aerated cultures of Euglena gracilis strain Z grown on inorganic media supplemented with acetate or glucose. Although this enzyme can also be assayed photometrically in cell-free extracts of acetate-supplemented cells, it is below the level of detectability in extracts of glucose-supplemented cells, there being an order of magnitude fewer microbodies in the latter than the former. Even acetate-supplemented cultures (dark-grown, greening, or continuously light-grown) fail to exhibit detectable catalase activity when CO2 is removed from the air by Ascarite.Negative results were obtained with histochemical techniques considered optimal for the demonstration of cytochrome oxidase; under other conditions, however, a KCN-sensitive enzyme was revealed in the mitochondrial matrix. This (unidentified) enzyme is first observed in mitochondria after 20–24 hr of greening, reaches a maximum intensity at about 48 hr, and becomes undetectable by 72 hr of greening. Poisoning of photosynthesis by 3-(3,4-dichlorophenyl)-1, 1-dimethylurea (DCMU) results in loss of activity of this mitochondrial enzyme.  相似文献   

17.
Electrophoresis of thylakoid membrane polypeptides from Chlamydomonas reinhardi revealed two major polypeptide fractions. But electrophoresis of the total protein of green cells showed that these membrane polypeptides were not major components of the cell. However, a polypeptide fraction whose characteristics are those of fraction c (a designation used for reference in this paper), one of the two major polypeptides of thylakoid membranes, was resolved in the electrophoretic pattern of total protein of green cells. This polypeptide could not be detected in dark-grown, etiolated cells. Synthesis of the polypeptide occurred during greening of etiolated cells exposed to light. When chloramphenicol (final concentration, 200 µg/ml) was added to the medium during greening to inhibit chloroplastic protein synthesis, synthesis of chlorophyll and formation of thylakoid membranes were also inhibited to an extent resulting in levels of chlorophyll and membranes 20–25% of those found in control cells. However, synthesis of fraction c was not affected by the drug. This polypeptide appeared in the soluble fraction of the cell under these conditions, indicating that this protein was synthesized in the cytoplasm as a soluble component. When normally greening cells were transferred from light to dark, synthesis of the major membrane polypeptides decreased. Also, it was found that synthesis of both subunits of ribulose 1, 5-diphosphate carboxylase was inhibited by chloramphenicol, and that synthesis of this enzyme stopped when cells were transferred from light to dark.  相似文献   

18.
Light-stimulated synthesis of NADP malic enzyme in leaves of maize   总被引:4,自引:0,他引:4  
Illumination of etiolated maize plants for 80 h brings about a 15-20-fold increase in activity of NADP malic enzyme (EC 1.1.1.40). Increases in NADP malic enzyme protein and in the level of translatable mRNA for this protein occur simultaneously with the activity increase. Radiolabeled amino acids are also incorporated into NADP malic enzyme during this time. These results are consistent with the conclusion that an increase in NADP malic enzyme activity during greening results from de novo synthesis of NADP malic enzyme protein. Polyadenylated RNA extracted from greening maize leaves directs the synthesis in vitro of a protein 12,000 daltons larger than NADP malic enzyme purified from corn leaves. This protein is a precursor of NADP malic enzyme because 1) both the precursor and mature NADP malic enzyme are immunoprecipitated by antibody made against NADP malic enzyme purified from corn leaves, 2) both NADP malic enzyme protein and the level of mRNA for the precursor increase during greening, and 3) peptide maps of the precursor and of mature NADP malic enzyme are very similar. Mature NADP malic enzyme and its precursor (synthesized in vitro) both migrate on sodium dodecyl sulfate-polyacrylamide gradient gels as doublet bands. Peptide analyses show all bands to be structurally related.  相似文献   

19.
Upon greening of sorghum leaves ( Sorghum vulgare Pers. cv. INRA 450) under white light illumination, phosphoenolpyruvate carboxylase activity increases. 17 times; at the same time, a new isoform of the enzyme appears.
The aim of the present work has been to identify the process responsible for the appearance of this isoform. Greening. of the leaves in the presence of D2O did not lead to a significant increase in the buoyant density of the enzyme. On the other hand, cycloheximide was a powerful inhibitor of the rise in PEP carboxylase activity. In order to clarify these conflicting data a procedure based on the immunoprecipitation of the enzyme and its quantification by gel electrophoresis was developed in order to estimate the amount of enzyme in leaf tissue. The results clearly demonstrate that light triggers an increased synthesis of the enzyme protein during greening of sorghum leaves.  相似文献   

20.
A chloroplast-associated fatty acid synthetase system in Euglena   总被引:4,自引:0,他引:4  
Fatty acid synthetase activity in etiolated Euglena gracilis strain Z is independent of added ACP and associated with a high-molecular-weight complex of the type found in yeast. Cells grown in the dark and then greened by illumination in a resting medium develop a second enzyme system which is dependent on added ACP and generally resembles the corresponding E. coli and plant enzymes. Cycloheximide has no effect on the appearance of the ACP-dependent fatty acid synthetase in greening cells whereas chloramphenicol causes complete inhibition at concentrations which decrease chlorophyll synthesis by 66%. An induction of the ACP-dependent fatty acid synthetase in the absence of chloroplast development occurs on exposure of dark-grown cells to doses of ultraviolet light which selectively affect proplastid nucleoprotein. This enzyme induction by ultraviolet light is inhibited by chloramphenicol. The protein synthesis machinery of the chloroplast appears to be responsible, either directly or indirectly, for the appearance of the ACP-dependent fatty acid synthetase of Euglena.  相似文献   

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