Mevalonate kinase in green leaves and etiolated cotyledons of the French bean Phaseolus vulgaris

1. Partially purified preparations of mevalonate kinase were obtained from green leaves and etiolated cotyledons of Phaseolus vulgaris. 2. After removal of interfering polyphenols both enzyme preparations behaved identically on gel filtration, ion-exchange chromatography and density-gradient centrifugation. 3. The kinetic parameters of the preparations from the two sources were indistinguishable. The preparation from etiolated cotyledons had a K(m) of 4.26x10(-5)m for RS-mevalonate and 1.54x10(-3)m for ATP. The preparation from green leaves had a K(m) of 4.55x10(-5)m for RS-mevalonate and 1.75x10(-3)m for ATP. The pH optimum of both enzyme preparations was pH7.0. 4. The effect of inhibitors on the two enzyme preparations was similar, both being inhibited by reagents known to react with thiol groups, and the two preparations had similar inhibitor constants for competitive inhibition by prenyl pyrophosphates. 5. The molecular weight of the enzyme in both preparations was estimated to be 100000; the enzymes from the two preparations had similar mobilities on polyacrylamide-gel electrophoresis.     

Biosynthesis of abscisic acid by a cell-free system

Abscisic acid (ABA) is synthesized from labelled mevalonate by a preparation of lysed chloroplasts isolated from ripening avocado fruit; a number of cofactors are required. A similar preparation from bean and avocado leaves was also active and chloroplasts from the green, outer, and white, inner parts of the fruit were equally effective.     

Effect of gibberellic acid on mevalonate activation in germinating Corylus avellana seeds

Giberellic acid (GA) induced germination of hazel seeds is accompanied by early increases in the specific and total activities of MVA kinase in the embryonic axes. This is followed by an increase in the activity of decarboxylation of MVA by the whole axes. The activity of MVA kinase in the cotyledons is not affected by GA treatment although increased uptake of MVA results in increased decarboxylation by cotyledon slices. The effects of cofactors and inhibitors on the activities of MVA kinase and MVA decarboxylation in a cell free extract of hazel cotyledons are described.     

Assays for three enzymes involved in mevalonic acid metabolism

Enzyme assays have been developed for mevalonate (MVA) kinase, mevalonate phosphate (MVAP) kinase and mevalonate pyrophosphate (MVAPP) anhydrodecar-boxylase. The procedures involve radioactively labelled substrates and separation of the reaction products by anion exchange chromatography. The separation on Dowex 1-X2 in self-packed microcolumns is simple, inexpensive and results in good separation of the MVA derivatives from each other. Because separation of MVAPP from isopenteny] pyrophosphate (IPP) was not possible directly, samples or column fractions containing MVAPP and IPP simultaneously were dephosphorylated by alkaline phosphatase. The resulting MVA and isopentenol are then easily separated in the same system. The assays for all three enzymes not onlv allows the determination of activities in crude enzyme preparations but is also applicable to the in vitro determination of intermediate pools in the reaction sequence from MVA to IPP after using ¹⁴C-MVA as substrate. The major advantage is accuracy and ease of use. The utility of the methods was demonstrated for enzyme extracts from the higher plants Chenopodium and spinach as well as for the fungus Phycomyces .     

Studies on ferrochelatase. The enzymic formation of haem in proplastids, chloroplasts and plant mitochondria

1. Ferrochelatase was demonstrated in the chloroplasts and proplastids isolated from the primary leaves of beans (a dicotyledon) and oats (a monocotyledon). It was also detected in chloroplasts from etiolated bean seedlings made green by illumination before being harvested. The specific activities of the three types of bean organelles are similar, as are the specific activities of the oat proplastids and chloroplasts. 2. Chloroplasts from young spinach leaves also contain ferrochelatase; these chloroplasts were tested for their ability to form magnesium tetrapyrroles and found unable to catalyse the insertion of Mg(2+) into mesoporphyrin IX. 3. Ferrochelatase was also detected in potato tuber mitochondria. 4. Ferrochelatase activity in these plant preparations is much less stable on storage than similar preparations from bacteria and animal tissues. 5. Temperature affects the activities of spinach chloroplast ferrochelatase and rat liver ferrochelatase differently. Activity of the chloroplast enzyme increases as the temperature rises from 20.6 degrees to 26 degrees , but becomes increasingly inactivated as the temperature rises further to 38 degrees . The initial velocity of the mammalian enzyme, however, increases as the temperature rises from 25.8 degrees to 65 degrees , but the enzyme is inactivated after several minutes at 65 degrees .     

Pyrroline-5-carboxylate reductase from Cucurbita cotyledons

Pyrroline-5-carboxylate reductase, which required reduced pyridine nucleotide and Δ′-pyrroline-5-carboxylate for proline synthesis, was isolated from pumpkin cotyledons. The enzyme was found in the soluble fraction and had a 4.5-fold greater activity with NADH than NADPH. The enzyme was inhibited by NH₂OH, NADP, ATP and slightly by proline. Glutathione or pyridoxal-5-phosphate had little effect on enzyme activity. The enzyme had a pH optimum between 7·0 and 7·6 and was not inhibited by high concentrations of NADH or Δ′-pyrroline-5-carboxylate.     

Properties and partial purification of mevalonate kinase from Agave americana

Mevalonate kinase activity was demonstrated in acetone powder extracts from Agave americana leaves, flowers and scape. ATP was the most effective phosphate donor. The enzyme had an optimum pH of 7.9 in Tris-HCl buffer. Dialysis decreased the ability to phosphorylate mevalonic acid (MVA). Partially purified mevalonate kinase reached maximum activity in the presence of 2 mM Mn²⁺ or 6–8 mM Mg²⁺. Higher concentrations of Mn²⁺ were inhibitory, whereas higher concentrations of Mg²⁺ produced only a small decrease in the activity. The amount of mevalonate-5-phosphate (MVAP) formed depended on protein concentration and incubation time. During short incubations, the MVAP formed increased as protein concentration rose, whereas during prolonged incubations (1–6 hr), there was a decrease in the MVAP formed when a certain amount of protein was exceeded. It is suggested that MVAP formed was hydrolysed by a phosphatase present in the extracts. This interfering activity was eliminated when mevalonate kinase is partially purified. The apparent K_m values of the enzyme from leaves were 0.05 mM for MVA and 0. 14 mM for ATP. Similar K_m values are obtained with partially purified mevalonate kinase. The enzyme was purified by ammonium sulphate precipitation, Sephadex G-100 filtration and DEAE-Sephadex A-50 fractionation.     

Identification of nucleases related to nutrient mobilization in senescing cotyledons from French bean

The knowledge about the physiological function of plant nucleases is scarce besides that they have been involved in nucleic acid degradation related with programmed cell death processes. Cotyledons provide a suitable system to investigate this process and the changes associated to nutrient mobilization. Nuclease activities have been determined in French bean seedlings. The total nuclease activity in French bean cotyledons is lower than in embryonic axes; however, several nucleases were detected by in-gel nuclease activity assays with extracts from cotyledons of French bean and ssDNA as substrate. The nuclease activities induced during cotyledon senescence showed higher activity at neutral than at acidic pH. Five different nuclease genes belonging to S1/P1 family have been identified in French bean genome database named PVN1 to PVN5. Their relative expression in cotyledons has been determined from the start of imbibition to senescence, and three genes from this family showed expression in cotyledons. PVN1 was expressed during early stages of seedlings development, whereas PVN4 and PVN5 were expressed during cotyledons senescence. The removal of epicotyl in French bean seedlings resulted in a decrease in the activity and in the expression of the genes associated with the cotyledons senescence process, i.e. PVN4 and PVN5. At the same time, the mobilization of reserves in those cotyledons was slowed down. In the same way, the deficit in phosphate and nitrate during seedlings development led to an acceleration of induction of these genes at the same time that reserves were utilized early on the time. Therefore, the induction of PVN4 and PVN5, the two S1 nuclease genes involved in the process of cotyledon senescence, is related to nutrient mobilization, supporting a possible role for nucleic acids in nutrient recycling during cotyledon senescence.     

An assessment of some molecular parameters of mevalonate kinase from plant and animal sources

The molecular weights, diffusion coefficients, and sedimentation coefficients of mevalonate kinase in partially purified preparations from Hevea brasiliensis latex, Cucumis melo cotyledons, Phaseolus vulgaris cotyledons, bakers yeast, chicken liver, and rabbit liver have been determined by gel filtration in Sephadex G-100 and G-200 and by sucrose density gradient centrifugation. The enzyme had similar molecular weights (94800–103500), diffusion coefficients (5.39–5.62 × 10^?7 cm²/sec), and sedimentation coefficients (5.85–6.00 S) in the six preparations.     

Degradation of ribulose-bisphosphate carboxylase by vacuolar enzymes of senescing French bean leaves: Immunocytochemical and ultrastructural observations

Summary The possible involvement of vacuolar cysteine proteinases in degradation of ribulose-bisphosphate carboxylase (Rubisco) in senescing French bean leaves was studied by ultrastructural and immunocytochemical analyses with antibodies raised against the large subunit (LSU) of Rubisco and SH-EP, a cysteine proteinase fromVigna mungo that is immunologically identical to one of the major proteinases of French bean plants. Primary leaves of 10-day-old plants were detached and placed at 25 °C in darkness for 0, 4, and 8 days to allow their senescence to proceed. The leaves at each senescence stage were subjected to the conventional electron microscopic and immunocytochemical studies. The results indicated that the chloroplasts of senescing French bean leaves were separated from the cytoplasm of the cell periphery and taken into the central vacuole and that the Rubisco LSU in the chloroplasts was degraded by vacuolar enzymes such as an SH-EP-related cysteine proteinase that developed in senescing leaves. The present results together with the results of previous biochemical studies using vacuolar lysates support the view that Rubisco is degraded through the association of chloroplasts with the central vacuole during the senescence of leaves that were detached and placed in darkness.     

Purification, serological relationships and some characteristics of plum line-pattern virus

Plum line-pattern virus (PLV) was purified by homogenizing inoculated leaves of Nicotiana megalosiphon in 0·02 M phosphate buffer, pH 8·0 (1·5 ml/g leaf), containing 0·02 M 2-mercaptoethanol. The homogenate was centrifuged at low speed and the supernatant liquid was clarified by adjusting the pH to 4·8 with 0·1 M citric acid. The green coagulum was removed by centri-fugation and the extract adjusted to pH 6·5. After concentrating the virus by high-speed centrifugation, remaining host protein was precipitated with the gamma-globulin fraction of antiserum to N. megalosiphon protein. Purification was completed with two cycles of high- and low-speed centrifugation. Purified PLV had an A₂₆₀/A₂₈₀ ratio of c. 1·7 and formed two zones when centrifuged in density gradients at pH 6·0–7·0. The virus was about 30 mμ in diameter in negatively stained preparations. The particles were easily disrupted. PLV was closely serologically related to cultures of plum line-pattern virus from other areas, but no relationship was found to apple mosaic, Prunus necrotic ringspot or prune dwarf viruses, or to a plum line-pattern virus from Denmark.     

Changes in Mitochondrial Properties Associated with Chloroplast Development in Jack Bean (Canavalia ensiformis [L] DC.)

Procedures were developed to isolate actively respiring mitochondria from jack bean (Canavalia ensiformis [L.] DC.) leaves and cotyledons. Consistent respiratory control values of about 2 for succinate oxidation were obtained in preparations from etiolated cotyledons. Jack bean mitochondria oxidized malate with high respiratory control (2 to 5) and ADP/O (up to 2.8).     

Isoenzymes of pyruvate kinase in etioplasts and chloroplasts

Isoenzymes of pyruvate kinase from green leaves of castor bean and etiolated leaves of pea plants have been separated by ion filtration chromatography. One of the isoenzymes is localized in the plastid, whereas the other is in the cytosol. The cytosolic enzyme has a pH optimum from pH 7 to pH 9, and is able to utilize nucleotides other than ADP as the phosphoryl acceptor. The plastid enzyme has a much sharper optimum at pH 8, and is less efficient at using alternative nucleotides. The plastic pyruvate kinase, unlike the cytosolic enzyme, requires the presence of dithiothreitol or 2-mercaptoethanol during isolation and storage to stabilize the activity.     

Soluble acid phosphatases from the posterior reproductive system of the female housefly, Musca domestica

When the kinetics of the acid phosphatase enzyme system from the posterior reproductive tract of the female housefly, Musca domestica, were studied, enzyme activity was zero order for 2 hr and was temperature-dependent. Orthophosphate release was linearily related to enzyme concentration, and pH optima between pH 3·3 to 3·7, 4·2 to 4·8, and 5·2 to 5·7 were observed. Magnesium and calcium ions were enzyme activators; arsenate, phosphate, fluoride, and hydroxymalonate ions were inhibitors. Sodium azide had little effect. The similarity of activity exhibited on the test substrates indicated that the soluble enzymes corresponded to the non-specific phosphomonoesterases.Disk electrophoresis showed that at least 6 proteins had acid phosphatase activity and were pH-dependent. Also, electrophoresis of extracts of the various structures of the reproductive tract showed that there was a tissue specificity in the distribution of the acid phosphatase isoenzymes.     

Enhanced hyaluronic acid production of Streptococcus zooepidemicus by an intermittent alkaline-stress strategy

Aims: Enhanced hyaluronic acid (HA) production of Streptococcus zooepidemicus by redirecting carbon flux through an intermittent alkaline‐stress strategy. Methods and Results: pH value was kept at 7·0 for the first 6 h, and then intermittently switched to 8·5 for 1 h and back to 7·0 for 1 h until the end of fermentation at 16 h (one pH switch cycle every 2 h). With this intermittent alkaline‐stress strategy, HA production was increased to 6·5 ± 0·2 g l^?1 from 5·0 ± 0·1 g l^?1 of the control, in which pH was always kept at 7·0. In addition, biomass and lactic acid concentration decreased by 24% and 14%, respectively, while acetic acid concentration increased by 10% under intermittent alkaline stress. The redirection of carbon flux from lactic acid to acetic acid was further supported by the decreased lactate dehydrogenase activity and the increased acetate kinase activity. As indicated by the increased NADH oxidase (NOX) activity, intermittent alkaline‐stress induced a more oxidative intracellular environment which would facilitate HA synthesis. Conclusions: Overproduction of HA was realized by redirecting carbon flux through the proposed intermittent alkaline‐stress strategy. Significance and Impact of the Study: This study clearly demonstrated the importance of metabolic‐pathway‐analysis based fermentation strategy in industrial processes and provided an alternative optimization approach for high viscosity fermentation.     

Lipid biosynthesis by chloroplasts isolated from developing Zea mays

Fatty acid biosynthesis by isolated plastids has been examined in relation to chloroplast development and differentiation in leaves of maize plants grown in light for 7 days. Biosynthesis of fatty acids from acetate by proplastids prepared from the basal regions of the leaf was low and mainly palmitate was synthesized. The greatly increased utilization of acetate for fatty acid biosynthesis as the plastids increased in size was due to an increased synthesis of oleate. The maximum synthesis of total fatty acids and monoenoic fatty acids was obtained in chloroplasts prepared from leaf tissue 6–8 cm from the base of the plant where granal formation was most active. Fully-developed chloroplasts prepared from distal regions of the leaf were less active in fatty acid biosynthesis. Maize chloroplasts failed to synthesize fatty acids when isolated by methods commonly used to prepare active spinach chloroplasts. The method of isolation which included a density gradient gave a high proportion of Class I chloroplasts from maize leaves and incorporated up to about 10% of the acetate used. Biosynthesis of unsaturated fatty acids, especially with chloroplasts prepared from the most mature tissue, was increased by the addition of both mitochondrial and microsomal fractions. Increases in polyunsaturated fatty acids were also obtained but the proportions in the newly-synthesized fatty acids were well below the endogenous levels. Monoenoic synthesis was greatly stimulated by increasing the pH in the range 7·0–8·0 and also the highest proportions of unsaturated fatty acids were obtained at short incubation times.     

Biosynthesis of geraniol and nerol in cell-free extracts of Tanacetum vulgare

Cell-free extracts from leaves of Tanacetum vulgare synthesised geraniol and nerol (3,7-dimethylocta-trans-2-ene-1-ol and its cis isomer) in up to 11·9 and 2·4% total yields from IPP-[4-¹⁴C] and MVA-[2-¹⁴C] respectively. Optimum preparations were obtained from plant material just before the onset of flowering. The ratio of the monoterpenols varied 28-fold for different preparations under conditions where these products or their phosphate esters were not interconverted. Similar extracts incorporated α-terpineol-[¹⁴C] and terpinen-4-ol-[¹⁴C] (p-menth-1-en-8- and -4-ol respectively) in 0·05 to 2·2% yields into a compound tentatively identified as isothujone (trans-thujan-3-one), and preparations from flowerheads converted IPP-[4-¹⁴C] in 2·7% yield into geranyl and neryl β-d-glucosides. Inhibitors of IPP-isomerase had little effect on the incorporation of IPP into the monoterpenols in cell-free systems from which endogenous compounds of low molecular-weight had been removed. The inference that a pool of protein-bonded DMAPP or its biogenetic equivalent was present was supported by the demonstration that geraniol and nerol biosynthesised in the absence of the inhibitors were predominantly (65 to 100%) labelled in the moiety derived from IPP.     

Mevalonate-metabolizing enzymes in Arachis hypogaea

Summary The activities of the mevalonate metabolizing enzymes-HMG-CoA reductase, mevalonate kinase, mevalonate phosphokinase and mevalonate pyrophosphate decarboxylase -were assayed with the respective substrates in green seedlings of Arachis hypogaea. MVAPP decarboxylase is the rate-limiting step among these enzymes and is inhibited by phenolic acids. Its activity in the seedlings was found to decrease in the absence of light and on treatment with abscisic acid. These results suggest that regulation of isoprene pathway in groundnut seedlings may occur at the level of mevalonate decarboxylation.Abbreviations HMG CoA 3-hydroxy-3-methyl-glutaryl coenzyme A - MVA Mevalonate - MVAP Mevalonate-5-phosphate - MVAPP Mevalonate-5-pyrophosphate - DTT Dithiothreitol - ABA Abscisic Acid     

Purification of maize streak virus and its relationship to viruses associated with streak diseases of sugar cane and Panicum maximum

Maize streak virus (MSV) was purified by homogenising infected leaf tissue in 0·01 m pH 3·9 phosphate buffer and clarifying the extract with n-butanol (7 ml/100 ml extract). Purified preparations contained particles 20 nm in diameter, some occurring singly, but most occurring in pairs, forming structures of 30 × 20 nm. The sedimentation coefficients of single and paired particles were 54 and 76 S respectively. When centrifuged in sucrose density gradients preparations made by extracting leaves at pH 3·9 gave a single intense light-scattering zone containing paired particles. Preparations made at pH 5·9 or 7·9 gave one or two additional upper zones containing single particles and fragmented material. Preparations treated with 0·05 or 0·1 m ethylene diamine tetra-acetic acid, disodium salt, (EDTA) contained no paired particles, few single particles and much fragmented material. In immunoelectrophoresis, the major component in preparations without EDTA migrated to the cathode whereas that in EDTA-treated preparations migrated to the anode. Virus isolates from streak-diseased sugarcane and guinea grass (Panicum maximum) were serologically related to MSV and had similar particles with identical sedimentation coefficients. No such particles were seen in purified preparations of healthy maize, sugarcane, or guinea grass. The viruses from sugarcane and guinea grass are probably host-adapted and are referred to correctly as the sugarcane and guinea grass strains of MSV. MSV probably contains single-stranded RNA, and the cryptogram is (R)/1:*/*:S/S:S/Au.     

Regulation of chlorophyll and Rubisco levels in embryonic cotyledons of Phaseolus vulgaris

While deep within the maternal tissues (pods and testa), cotyledons of the bean (Phaseolus vulgaris L.) green and the plastids differentiate as chloroplasts. At the time of seed maturation the chloroplasts dedifferentiate and the green color is lost. We have used Rubisco (ribulose-1,5-bisphosphate carboxylase/oxygenase) and chlorophyll to study chloroembryo development. Chlorophyll levels and Rubisco activity increase early in embryonic development then decline as the cotyledons enter the maturation phase. Rubisco accumulation follows a strong temporal pattern over the course of embryo development, and furthermore, occurs in total darkness. Therefore, accumulation of Rubisco during embryogenesis may occur in response to developmental signals. In embryos developed in total darkness, Rubisco accumulation was uncoupled from chlorophyll accumulation. Exposure of isolated cotyledons to abscisic acid (ABA) resulted in loss of chlorophyll and decline in Rubisco levels comparable to those seen in normal embryogenesis. This indicates that the decline in Rubisco in chloroembryos in vivo results from factors such as ABA that signal the onset of maturation. The results show that ABA not only enhances the accumulation of some proteins (e.g. storage proteins), but also depresses the accumulation of others during embryogeny.Abbreviations Rubisco ribulose-1,5-bisphosphate-carboxylase/oxygenase (EC 4.1.1.39) - LSU large subunit of Rubisco - SSU small subunit of Rubisco - ABA abscisic acid - FW fresh weight