Adenosine triphosphate hydrolysis by purified rubisco activase

Activation of ribulose bisphosphate carboxylase/oxygenase (rubisco) in vivo is mediated by a specific protein, rubisco activase. In vitro, activation of rubisco by rubisco activase is dependent on ATP and is inhibited by ADP. Purified rubisco activase hydrolyzed ATP with a specific activity of 1.5 mumol min-1 mg-1 protein, releasing approximately stoichiometric amounts of ADP and Pi. Hydrolysis was highly specific for ATP-Mg and had a broad pH optimum, with maximum activity at pH 8.0-8.5. ATPase activity was inhibited by ADP but not by molybdate, vanadate, azide, nitrate, or fluoride. Addition of rubisco in either the inactive or activated form had no significant effect on ATPase activity. Incubation of rubisco activase in the absence of ATP resulted in loss of both ATPase and rubisco activation activities. Both activities were also heat labile, with 50% loss in activity after 5 min at 38 degrees C and complete inhibition following treatment at 43 degrees C. Both activities showed a sigmoidal response to ATP concentration, with half-maximal activity at 0.053 mM ATP. Rubisco activation activity was dependent on the concentrations of both ATP and ADP. The results suggest that ATPase activity is an intrinsic property of rubisco activase.     

Catalysis of Ribulosebisphosphate Carboxylase/Oxygenase Activation by the Product of a Rubisco Activase cDNA Clone Expressed in Escherichia coli

Ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) activase activity was obtained from a partially purified extract of Escherichia coli transformed with a 1.6-kilobase spinach (Spinacia oleracea L.) cDNA clone. This activity was ATP-dependent. Catalysis of rubisco activation by spinach and cloned rubisco activase was accompanied by the same extent of carboxyarabinitol bisphosphate-trapped ¹⁴CO₂ as occurred in spontaneous activation, indicating that rubisco carbamylation is one facet of the rubisco activase reaction. The CO₂ concentration required for one-half maximal rubisco activase activity was about 8 micromolar CO₂. These observations are consistent with the postulated role of rubisco activase in regulating rubisco activity in vivo.     

Purification and assay of rubisco activase from leaves

Ribulose 1,5-bisphosphate carboxylase/oxygenase (rubisco) activase protein was purified from spinach leaves by ammonium sulfate precipitation and ion exchange fast protein liquid chromatography. This resulted in 48-fold purification with 70% recovery of activity and yielded up to 18 milligrams of rubisco activase protein from 100 grams of leaves. Based on these figures, the protein comprised approximately 2% by weight of soluble protein in spinach (Spinacia oleracea L.) leaves. The preparations were at least 95% pure and were stable when frozen in liquid nitrogen. Addition of ATP during purification and storage was necessary to maintain activity. Assay of rubisco activase was based on its ability to promote activation of rubisco in the presence of ribulose-1,5-bisphosphate. There was an absolute requirement for ATP which could not be replaced by other nucleoside phosphates. The initial rate of increase of rubisco activity and the final rubisco specific activity achieved were both dependent on the concentration of rubisco activase. The initial rate was directly proportional to the rubisco activase concentration and was used as the basis of activity. The rate of activation of rubisco was also dependent on the rubisco concentration, suggesting that the activation process is a second order reaction dependent on the concentrations of both rubisco and rubisco activase. It is suggested that deactivation of rubisco occurs simultaneously with rubisco activase-mediated activation, and that rubisco activation state represents a dynamic equilibrium between these two processes.     

A new form of crystalline rubisco and the conversion to its common dodecahedral form

In this paper, we present a new purification procedure that yields a new crystalline form of rubisco and has enabled us to completely remove this most abundant protein from tobacco leaf extract. The crystals formed within 48 h after refrigeration at 4 degrees C at pH 5.6. However, these crystals were not well-ordered crystals and lacked well-defined facets or edges. The remaining leaf extract (fraction 2 protein) was void of rubisco. Conversion of this new crystalline form of rubisco to its common dodecahedral form was achieved by dialysing the protein solution in Tris buffer at pH 8.0 or purified water. Since the molecular size of its large subunit of rubisco (55 kD) is similar to that of the papillomavirus capsid protein, L1 (57 kD), its complete removal from fraction 2-protein may facilitate the detection, purification, and recovery of the Li protein.     

Ribulose-1,5-bisphosphate carboxylase/oxygenase activase protein prevents the in vitro decline in activity of ribulose-1,5-bisphosphate carboxylase/oxygenase

The rate of CO₂ fixation by ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) following addition of ribulose 1,5-bisphosphate (RuBP) to fully activated enzyme, declined with first-order kinetics, resulting in 50% loss of rubisco activity after 10 to 12 minutes. This in vitro decline in rubisco activity, termed fall-over, was prevented if purified rubisco activase protein and ATP were added, allowing linear rates of CO₂ fixation for up to 20 minutes. Rubisco activase could also stimulate rubisco activity if added after fallover had occurred. Gel filtration of the RuBP-rubisco complex to remove unbound RuBP allowed full activation of the enzyme, but the inhibition of activated rubisco during fallover was only partially reversed by gel filtration. Addition of alkaline phosphatase completely restored rubisco activity following fallover. The results suggest that fallover is not caused by binding of RuBP to decarbamylated enzyme, but results from binding of a phosphorylated inhibitor to the active site of rubisco. The inhibitor may be a contaminant in preparations of RuBP or may be formed on the active site but is apparently removed from the enzyme in the presence of the rubisco activase protein.     

Rubisco activase: an enzyme with a temperature‐dependent dual function?

Heat treatment of intact spinach leaves was found to induce a unique thylakoid membrane association of an approximately 40 kDa stromal protein. This protein was identified as rubisco activase. Most of the rubisco activase was sequestered to the thylakoid membrane, particularly to the stroma-exposed regions, during the first 10 min of heat treatment at 42 degrees C. At lower temperatures (38-40 degrees C) the association of rubisco activase with the thylakoid membrane occurred more slowly. The temperature-dependent association of rubisco activase with the thylakoid membrane was due to a conformational change in the rubisco activase itself, not to heat-induced alterations in the thylakoid membrane. Association of the 41 kDa isoform of rubisco activase occurred first, followed by the binding of the 45 kDa isoform to the thylakoid membrane. Fractionation of thylakoid membranes revealed a specific association of rubisco activase with thylakoid-bound polysomes. Our results suggest a temperature-dependent dual function for rubisco activase. At optimal temperatures it functions in releasing inhibitory sugar phosphates from the active site of Rubisco. During a sudden and unexpected exposure of plants to heat stress, rubisco activase is likely to manifest a second role as a chaperone in association with thylakoid-bound ribosomes, possibly protecting, as a first aid, the thylakoid associated protein synthesis machinery against heat inactivation.     

Immunostimulatory in vitro and in vivo effects of a water-soluble extract from kale

The water-soluble fraction of kale (Brassica oleracea L. var. acephala DC.) had immunoglobulin (Ig) production stimulating activity in human hybridoma HB4C5 cells and human peripheral blood lymphocytes. The biochemical and physical properties of the main active substance in kale were found to be a heat-stable protein with a molecular weight higher than 50 kDa. The Ig production-stimulating factors were assumed to act on the translational and/or secreting processes of Igs. This Ig production-stimulating effect was also observed in lymphocytes from the mesenteric lymph node and Peyer's patches of mice that had been administered with the kale extract for 14 d. The partially purified kale extract was analyzed by LC-ESI-MS/MS, the result indicating ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) as an active substance. Rubisco from spinach indeed exhibited Ig production-stimulating activity in HB4C5 cells. These findings provide another beneficial aspect of kale as a health-promoting foodstuff.     

UV-B radiation affects chlorophyll and activation of rubisco by rubisco activase in<Emphasis Type="Italic">Canavalia ensiformis</Emphasis> L. leaves

We studied the influence of UV-B radiation on chlorophyll and rubisco activation by rubisco activase in the leaves of jackbean (Canavalia ensiformis). Chlorophyll content was decreased, indicating that the synthesis of those molecules may have been degraded or repressed after exposure. Rubisco content was significantly lower in radiated tissue compared with the untreated control; rubisco activity showed a similar pattern of change. Based on these data, we suggest that rubisco activity is associated with the level of rubisco protein, and that UV-B inhibits its activation and induction, as well as that of rubisco activase. Therefore, we propose that the inhibitory effect of rubisco by UV-B may be caused by rubisco activase.     

A guanosine diphosphatase enriched in Golgi vesicles of Saccharomyces cerevisiae. Purification and characterization

We have recently described a luminal guanosine diphosphatase activity in Golgi-like vesicles of Saccharomyces cerevisiae (Abeijon, C., Orlean, P., Robbins, P. W., and Hirschberg, C. B. (1989) Proc. Natl. Acad. Sci. U. S. A. 86, 6935-6939). The presumed in vivo role of this enzyme is to convert GDP into GMP. GDP is a reaction product following outer-chain mannosylation of luminal proteins and a known inhibitor of mannosyltransferases. It is hypothesized that GMP then returns to the cytosol. We have purified this enzyme to apparent homogeneity. Following solubilization from a membrane pellet using a buffer containing Triton X-100, the enzyme was purified on a concanavalin A-Sepharose column followed by Mono Q fast protein liquid chromatography (FPLC) and Superose-12 FPLC columns. After treatment with endoglycosidase H, the deglycosylated active enzyme was applied to a second Mono Q FPLC column and a phenyl-Superose FPLC column. The final enzyme activity was enriched 6500-fold over that of the Triton X-100 extract. The apparant molecular mass of the deglycosylated enzyme is 47 kDa. The purified enzyme is highly specific for guanosine diphosphate, requires Ca2+ for maximal activity, and has a broad pH optimum between 7.4 and 8.2. The apparent Km for GDP is 0.1 mM; the Vmax is 4.9 mmol/min/mg of protein. An enzyme activity with similar substrate specificity has also been detected in membranes of Schizosaccharomyces pombe.     

A 160 kDa protein with carbonic anhydrase activity is complexed with rubisco on the outer surface of thylakoids

This study provides evidence that, in the soluble fraction from buffer-washed pea thylakoids, one form of soluble carbonic anhydrase (CA) is associated with rubisco in a stromal protein complex. On native-PAGE gels, it is present as a protein band with MW approximately 160 kDa. On SDS-PAGE gels, it is resolved as a single 25-kDa polypeptide. Analysis of Western blots developed with polyclonal antibodies to barley rubisco and to soluble pea CA shows that a 160-kDa protein with CA activity is associated with rubisco in a protein complex localized on the outer surface of thylakoid membranes.     

Involvement of stromal ATP in the light activation of ribulose-1,5-bisphosphate carboxylase/oxygenase in intact isolated chloroplasts

Light activation of ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) and stromal ATP content were measured in intact isolated spinach chloroplasts. Treatments which decreased stromal ATP, such as incubation with the ATP analog β,γ-methylene adenosine triphosphate or with the energy transfer inhibitor phloridzin inhibited the light activation of rubisco. In the absence of added inorganic phosphate (Pi), light activation of rubisco was inhibited, coincident with low stromal ATP. Addition of methyl viologen restored both stromal ATP and rubisco activity to levels observed in the presence of Pi. Activation of rubisco was inhibited in the presence of 2 millimolar dihydroxyacetone phosphate or 3-phosphoglycerate and stromal ATP was also decreased under these conditions. Both were partially restored by increasing the Pi concentration. The strong correlation between activation state of rubisco and stromal ATP concentration in intact chloroplasts under a wide variety of experimental conditions indicates that light activation of rubisco is dependent on ATP and proportional to the ATP concentration. These observations can be explained in terms of the rubisco activase protein, which mediates activation of rubisco at physiological concentrations of CO₂ and ribulose-1,5-bisphosphate and is dependent upon ATP.     

Valorization of corn cob for the obtention and purification of endoglucanase produced by SSF

Agro-food by-products contain valuable nutrients which are wasted. In this work, solid-state fermentation (SSF) was carried out using corn cob as substrate for endoglucanase production. The radial growth of three fungal strains -Trichoderma harzianum T104, Aspergillus niger GH1 and Aspergillus niger NRRL3- was analyzed in order to select the most appropriate. Radial growth data were analyzed with a mixed linear model for longitudinal data and no statistically significant differences were found between both A. niger strains.Endoglucanase was separated from the extract of A. niger GH1 by fast protein liquid chromatography (FPLC).The highest endoglucanase activity was detected in fraction number three collected from FPLC corresponding to 72 h of SSF. Seven bands in a range from 24 to 50 kDa, which correspond to endoglucanase from fungal extract, were detected by zymogram analysis. According to protein quantification performed by the ImageJ software, 85% of the proteins present in the samples collected by FPLC corresponded to endoglucanase proteins. The purified endoglucanase retained about 100% of its catalytic activity at 30 °C and 50 °C and was stable in a pH range between 4.00-6.00. These properties make this isolated enzyme suitable for industrial applications such as the saccharification process for bioethanol production.     

Influence of cadmium on rubisco activation in<Emphasis Type="Italic">Canavalia ensiformis</Emphasis> L. leaves

We studied the effect of cadmium on chlorophylls and rubisco activation inCanavalia ensiformis L. leaves. Chlorophyll levels were reduced by 5.0 μM Cd. Rubisco activity at 5.0 μM Cd was significantly smaller than that at no treatment. Rubisco content showed patterns of change similar to rubisco activity. These data suggest that rubisco activity was associated with an amount of rubisco protein, and that the activation and induction of rubisco is inhibited by Cd. The degree of intensity of 50 and 14.5 kD polypeptides identified as the large and small subunit of rubisco by SDS-PAGE analysis at 5.0 μM Cd was significantly lower than that at control, indicating Cd had a effect on both subunits. Under the assumption that effects of Cd on rubisco may be related to rubisco activase, in addition to, its activity and content were determined. The rubisco activase activity at 5.0 μM Cd was more decreased than, the control. A similar change pattern was also observed in content of rubisco activase. Remarkable differences in the intensitiy of both the 45 kD and 41 kD band were found between at control and Cd-treatment. These results suggest that the change in the levels of rubisco activase leads to a subsequent alteration of rubisco levels.     

An improved method for the purification of kinesin from bovine adrenal medulla.

A method has been developed for the purification of bovine adrenal kinesin combining ion exchange chromatography on phosphocellulose and Mono-Q (FPLC), affinity binding to microtubules in the presence of tripolyphosphate and gel filtration on Superose 6 (FPLC). From 100 g of tissue this procedure yields 200 micrograms of a remarkably pure kinesin as assayed by SDS-PAGE and electron microscopy of rotary shadowed specimens. The enzyme has a Ca++ ATPase of 0.4 mumol/min per mg and a Mg++ ATPase of 0.03 mumol/min per mg in the absence of microtubules. The addition of microtubules (5 microM) activates the Mg++ ATPase activity by almost 70-fold to a value of 1.9 mumol/min per mg. This purification procedure results in a fairly large amount of a remarkably pure adrenal kinesin with high specific activity which is an important improvement over the method previously available.     

Activation of ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) by rubisco activase : effects of some sugar phosphates

The activation of purified ribulose-1,5-bisphosphate carboxylase/oxygenase (rubisco) has been studied in the presence of sugar phosphates, and the effect of rubisco activase on this process determined. During an 11-minute time course at pH 7.7 and 11 micromolar CO₂, the activation of rubisco was strongly inhibited by ribulose-1,5-bisphosphate (4 millimolar), fructose-1,6-bisphosphate (1 millimolar) and ribose 5-phosphate (5 millimolar), but this inhibition was overcome by the addition of rubisco activase and activation then proceeded to a greater extent than spontaneous activation of rubisco. Glycerate 3-phosphate (20 millomolar) slowed the initial rate but not the extent of activation and rubisco activase had no effect on this. The activation of rubisco was shown to be affected by phosphoenolpyruvate (3 millimolar) but not by creatine phosphate (3 millimolar) or ATP (3 millimolar), and the creatine-phosphate/creatine phosphokinase system was used to generate the high ATP/ADP quotients required for rubisco activase to function. ATP was shown to be required for the rubisco activase-dependent rubisco activation in the presence of fructose-1,6-bisphosphate (1 millimolar). It is concluded that rubisco activase has a mixed specificity for some sugar phosphate-bound forms of rubisco, but has low or no activity with others. Some possible bases for these differences among sugar phosphates are discussed but remain to be established.     

Purification of a high molecular weight membrane protein by fast protein liquid chromatography: the ATPase complex of a thermophilic cyanobacterium

Fast protein liquid chromatography (FPLC) with a strong anion-exchange (Mono Q) column is applied to the purification of a high molecular weight membrane protein. The ATPase complex of the thermophilic cyanobacterium Synechococcus 6716, partially purified by ammonium sulfate precipitation, was fractionated in the presence of the detergent octylglucoside. The ATPase complex containing fractions were eluted by a linear NaCl gradient at about 0.4 M and within 10 min. The FPLC fractions were analyzed for protein and pigment contents and by polypeptide composition. The purest fraction is essentially free of pigments and has a high specific ATP hydrolysis activity (about 1.6 mumol ATP X min-1 X mg protein-1) which is sensitive to N,N'-dicyclohexylcarbodiimide.     

Photometric method for routine determination of kcat and carbamylation of rubisco

Ribulose bisphosphate carboxylase (rubisco) is the first enzyme in photosynthetic CO₂ assimilation. It is also the single largest sink for nitrogen in plants. Several parameters of rubisco activity are often measured including initial activity upon extraction, degree of carbamylation, catalytic constant of the enzyme (k_cat), and the total amount of enzyme present in a leaf. We report here improvements of the photometric assay of rubisco in which rubisco activity is coupled to NADH oxidation which is continuously monitored in a photometer. The initial lag usually found in this assay was eliminated by assaying rubisco activity at pH 8.0 instead of 8.2, using a large amount of phosphoglycerate kinase, and adding monovalent cations to the assay buffer. We found that when using the photometric assay, the ratio of activity found initially upon extraction divided by the activity after incubating with CO₂ and Mg²⁺ reflects the degree of carbamylation as determined by ¹⁴carboxyarabinitol bisphosphate/¹²carboxyarabinitol bisphosphate competition. We developed methods for measuring the catalytic constant of rubisco as well as the total amount of enzyme present using the photometric assay and carboxyarabinitol 1,5-bisphosphate. We believe that the photometric assay for activity will prove more useful than the ¹⁴CO₂ assay in many studies.Abbreviations CA1P 2-carboxyarabinitol 1-phosphate - GAP glyceraldehyde 3-phosphate - OD optical density - PGA 3-phosphoglycerate - rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - RuBP ribulose 1,5-bisphosphate     

Effects of CO(2) Concentration on Rubisco Activity, Amount, and Photosynthesis in Soybean Leaves

Growth at an elevated CO₂ concentration resulted in an enhanced capacity for soybean (Glycine max L. Merr. cv Bragg) leaflet photosynthesis. Plants were grown from seed in outdoor controlled-environment chambers under natural solar irradiance. Photosynthetic rates, measured during the seed filling stage, were up to 150% greater with leaflets grown at 660 compared to 330 microliters of CO₂ per liter when measured across a range of intercellular CO₂ concentrations and irradiance. Soybean plants grown at elevated CO₂ concentrations had heavier pod weights per plant, 44% heavier with 660 compared to 330 microliters of CO₂ per liter grown plants, and also greater specific leaf weights. Ribulose 1,5-bisphosphate carboxylase/oxygenase (rubisco) activity showed no response (mean activity of 96 micromoles of CO₂ per square meter per second expressed on a leaflet area basis) to short-term (~1 hour) exposures to a range of CO₂ concentrations (110-880 microliters per liter), nor was a response of activity (mean activity of 1.01 micromoles of CO₂ per minute per milligram of protein) to growth CO₂ concentration (160-990 microliters per liter) observed. The amount of rubisco protein was constant, as growth CO₂ concentration was varied, and averaged 55% of the total leaflet soluble protein. Although CO₂ is required for activation of rubisco, results indicated that within the range of CO₂ concentrations used (110-990 microliters per liter), rubisco activity in soybean leaflets, in the light, was not regulated by CO₂.     

Photosynthetic induction state of leaves in a soybean canopy in relation to light regulation of ribulose-1-5-bisphosphate carboxylase and stomatal conductance

Photosynthetic induction state, stomatal conductance and light regulation of ribulose-1,5-bisphosphate carboxylase (rubisco) were examined for leaves in a mature, closed soybean (Glycine max) canopy (leaf area index approximately 5) with the objective to determine the extent to which these factors may be limiting the capacity to respond to light transients during sunflecks. When sampled along a vertical gradient, leaves near the bottom of the canopy had lower rubisco contents and chlorophyll a/b ratios as compared with upper leaves. Leaves sampled at midcanopy showed a wide variation in photosynthetic induction state (ratio of the photosynthetic rate achieved after 1 minute exposure to high light to the steady-state assimilation rate achieved after 20 minutes exposure). Both photosynthetic induction state and the initial rubisco activity varied in parallel with stomatal conductance. By contrast there was no correlation between total rubisco activity and stomatal conductance. The results indicate that induction state, as determined by the light regulation of both rubisco activity and stomatal conductance, is an important limitation to the ability of leaves in a soybean canopy to respond to light transients that occur during sunflecks.