GLYOXYLATE CYCLE ENZYME ACTIVITIES IN THE CYANOBACTERIUM ANACYSTIS NIDULANS1

The enzymes of the glyoxylate cycle, isocitrate lyase (EC.4.1.3.1) and malate synthase (EC.4.1.3.2), were measured in cell-free extracts from the cyanobacterium Anacystis nidulans Drouet during photoautotrophic growth in medium aerated with ordinary air (0.03% CO₂). Isocitrate lyase had an average specific activity of 112 nmoles·min^?1·mg protein^?1 whereas malate synthase had an average specific activity of 12.5 nmoles·min^?1·mg protein^?1. Unpurified isocitrate lyase showed classical Michaelis kinetics with a K_m of 8 mM. Isocitrate lyase activity was strongly inhibited by numerous cellular metabolites at 10 mM concentration. The previously reported low specific activity for isocitrate lyase may be due to metabolite inhibition caused by growth in high CO₂ concentrations. The activities reported for isocitrate lyase and malate synthase suggest the operation of the glyoxylate cycle in Anacystis nidulans under CO₂-limiting growth conditions.     

Hormonal control of lipase activity in oilseed rape germinants

In oilseeds, storage lipids provide the respiratory fuel for seedling growth. The enzyme responsible for their initial hydrolysis is lipase (triacylglycerol acylhydrolase; EC 3.1.1.3). We investigated the possibility that lipase is regulated by gibberellins (GAs). In four oilseed rape cultivars of Brassica napus and B. rapa, seed imbibition in 10^?6 to 10^?3M GA₃ increased lipase activity 1.5- to 7-fold over control levels. Conversely, imbibition in 10^?7 to 10^?5M abscisic acid or 10^?6 to 10^?4M paclobutrazol, an inhibitor of GA biosynthesis, markedly decreased lipase activity. While lipase activity in B. napus cv. Parkland increased during the first 5 days following imbibition, concentrations of endogenous GA₁, GA₈ and GA₁₉ (as measured by GC-selected ion monitoring using [²H₂]GA internal standards) were relatively constant and GA₂₀, a precursor of GA₁, decreased. Levels of endogenous GA₃ were apparently variable. Thus, lipase activity was not correlated with GA₁ concentration, but the inverse correlation with GA₂₀ concentration suggests that GA turnover could be positively correlated with lipase activity. Lipase activity was also examined in three genotypes of rapid cycling B. rapa that vary in endogenous GA content: rosette, a GA-deficient dwarf, a normal line and elongated internode, a tall mutant with high GA content. The three genotypes showed similar patterns of lipase activity during the first 4 days following imbibition and the subcellular distribution of lipase activity was also similar in the three genotypes. Although GA may be involved in the regulation of lipase in oilseed rape germinants, it is not the sole regulatory factor.     

De novo synthesis and hormonal regulation of a dipeptidase in Cucurbita maxima

The following evidence was obtained for the de novo synthesis of dipeptidase in squash (Cucurbita maxima Duch. var. Hubbard) cotyledons during germination: (i) the amount of [¹⁴C]leucine incorporated into the dipeptidase was greater than that found in other proteins; (ii) the enzyme coincided with a peak of radioactivity in DEAE column chromatography; and (iii) the specific radioactivity of the enzyme increased with purification. There was also a positive correlation between the rate of [¹⁴C]leucine incorporation into dipeptidase and the rate of dipeptidase development. Four plant growth regulators, gibberellic acid (GA) benzyladenine (BA), indol-3-acetic acid (IAA), and abscisic acid (ABA) were examined for their effect on the development of dipeptidase activity at 5 × 10^?6 and 5 × 10^?5 M. None of these regulators affected the activity of the isolated dipeptidase per se. In intact see ds, BA and IAA inhibited the development of dipeptidase activity at the higher concentration, ABA reduced the activity at both concentrations; however, GA enhanced its development at the higher concentration. In distal-half cotyledons, BA and GA stimulated enzyme development but they showed no synergistic effect. IAA suppressed the development of enzyme activity at the higher concentration and ABA inhibited development at both levels.     

Antioxidant potential in <Emphasis Type="Italic">Stevia rebaudiana</Emphasis> callus in response to polyethylene glycol,paclobutrazol and gibberellin treatments

The study on Stevia callus has the potential to advance the knowledge of antioxidant mechanisms involved in unorganized cells response to drought stress. The effects of polyethylene glycol (PEG; 0 and 4% w/v) in combination with paclobutrazol (PBZ; 0 and 2 mg l^?1) and gibberellin (GA; 0 and 2 mg l^?1) were studied on Stevia rebaudiana callus. PEG treatment led to an oxidative stress, as indicated by increased H₂O₂ content whose accumulation was prevented with PBZ and GA treatments. All treatments of PEG, PBZ and GA increased the total antioxidant capacity, with the highest antioxidant power in PBZ and GA treatments without PEG. The activity of superoxide dismutase, catalase and ascorbate peroxidase significantly increased in PEG treatment alone or in combination with PBZ and GA. All treatments of PEG, PBZ and GA significantly increased proteins, amino acids and proline contents, with the highest increase in presence of PBZ in medium culture. In contrary to proline, the activity of pyrroline-5-carboxylate synthetase and proline dehydrogenase did not change in response to any of the treatments. Collectively, our results demonstrated that PBZ and GA increased reactive oxygen species scavenging and osmolytes in PEG-treated calli more than PEG treatment alone to alleviate negative effects of PEG on Stevia calli. These findings will enable us to design effective genetic engineering strategies in callus culture to generate some somaclonal variation that may be useful in enhancing drought resistance in Stevia.     

Physiological,biochemical, antioxidant and growth characterizations of gibberellin and paclobutrazol-treated sweet leaf (<Emphasis Type="Italic">Stevia rebaudiana</Emphasis> B.) herb

A greenhouse experiment was designed to study the responses of Stevia rebaudiana herb to paclobutrazol (PBZ) and gibberellin (GA) treatments. GA and PBZ treatments caused no significant impact on photosynthesis pigments while they increased carbohydrates, amino acids and protein metabolites. Stevia showed a potent antioxidant activity through scavenging DPPH, NO^·; O ₂ ^·? and OH^· radicals which was highlighted in GA and PBZ treatments. The enzymatic and non-enzymatic antioxidant system of Stevia plant showed a significant increase in response to PBZ and GA treatments. PBZ treatment decreased plant growth while GA treatment had no significant effect on it. Collectively, both GA and PBZ treatments effectively increased metabolites and antioxidant property of Stevia herb.     

Production of ganoderic acid by Ganoderma lucidum RCKB-2010 and its therapeutic potential

The newly isolated basidiomycetous fungus, identified as Ganoderma lucidum RCKB-2010 was tested for production of ganoderic acid (GA) under submerged fermentation conditions. Production of GA under liquid static cultivation condition was found to be 2,755.88 mg L^?1 on the 25th day of incubation, whereas under shaking cultivation conditions the maximum production of GA was observed to be 373.75 mg L^?1. ¹H NMR analysis revealed clearly that the fungal extracts possessed a lanostane skeleton, confirming the presence of GA. Interestingly, GA was found to have potential to inhibit the proliferation of HeLa cells and U87 human glioma cells in a dose dependent manner. In addition, GA was also found to possess antibacterial activity, exhibiting a minimal inhibitory concentration of 0.25 mg mL^?1 against standard strains of Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus and Staphylococcus epidermidis. GA produced in the present study holds potential as a potent anticancer agent.     

Effect of Gibberellic Acid on the Elongation Rate of Agrostis alba Root Hairs

The influence of gibberellic acid over a wide range of concentrations on the rate of elongation of root hairs of redtop grass was investigated. The rate of root hair elongation was increased by GA over the concentration range of 10^?7 to 10^?12 M inclusive, with peak stimulation occurring at 10^?6 M. Although root hair growth was slightly accelerated by 10^?6 M GA, this concentration damaged many root hairs and caused some to stop growing altogether. Rate of root hair elongation was reduced to less than 84% of the control by 10^?5 M GA.     

Tyrosine and Phenylalanine Ammonia Lyase Activities during Shoot Initiation in Tobacco Callus Cultures

Both phenylalanine ammonia lyase and tyrosine ammonia lyase were detected in tobacco (Nicotiana tabacum L. Wisconsin 38) callus. The enzymes were separated from each other by Sephadex G-200 column chromatography. Increased activity of tyrosine ammonia lyase was observed during culture of tobacco callus under shoot-forming conditions, while activity of phenylalanine ammonia lyase increased during culture under non-organ-forming conditions. Confirmation of these findings was obtained by examining the incorporation of [¹⁴C]tyrosine and [¹⁴C]phenylalanine into p-coumarate and trans-cinnamate, respectively.     

Effects of pulse feeding of beet molasses on recombinant benzaldehyde lyase production by Escherichia coli BL21(DE3)

The effect of fed-batch operation (FBO) strategy was investigated using pretreated-beet molasses, containing galactose that induces the lac promoter, on benzaldehyde lyase (BAL) production by recombinant Escherichia coli BL21(DE3)pLySs. After batch cultivation with 30 g l^?1 pretreated-beet molasses consisting of 7.5 g l^?1 glucose and 7.5 g l^?1 fructose, three FBO strategies were applied at dissolved oxygen (=40%) cascade to air-flow rate. In FBO1 when air-flow rate decreased considerably, feed was given to the system in pulses in such a way that pretreated-beet molasses concentration increased by 10 kg m^?3 (containing 2.5 g l^?1 glucose+2.5 g l^?1 fructose); however, decrease in air-flow rate demonstrated only the absence of glucose but not fructose. Thus, in FBO2 when fructose and glucose were completely utilized, pretreated-beet molasses was pulse-fed and its concentration increased by 10 g l^?1. In FBO3 with the decreased amount of pretreated-beet molasses (6 g l^?1), shift response time from glucose to fructose consumption was avoided, and glucose and fructose consumptions were well correlated with air-flow rate, and the highest C _X (8.04 g l^?1) and BAL (2,315 U ml^?1) production were obtained (t?=?24 h) with the highest substrate yield on cell and product formation.     

In Vivo Characterization of Dimethylsulfoniopropionate Lyase in the Fungus Fusarium lateritium

A fungus, Fusarium lateritium, with dimethylsulfoniopropionate (DMSP) lyase activity was isolated from both seawater and a salt marsh due to its ability to grow on DMSP (with the evolution of dimethyl sulfide) as the sole source of carbon. This is the first reported case of DMSP lyase activity in a fungus. Several other common fungal genera tested did not have DMSP lyase activity. DMSP was taken up more rapidly by F. lateritium than it was utilized, leading to its intracellular accumulation. Inhibitor studies with nystatin and cyanide indicated that DMSP uptake was an energy-dependent process. The lyase was inducible by its substrate, DMSP (K_m, 1.2 mM), and by the substrate analogs choline and glycine betaine. During induction, DMSP lyase activity increased with time and then dropped rapidly. This loss of activity could be prevented by spiking the culture with fresh DMSP or choline. The V_max for DMSP lyase was 34.7 mU · mg of protein⁻¹. The inhibitory effects of nystatin, and p-chloromercuriphenylsulfonate on DMSP lyase activity suggested that the enzyme is cytosolic. Because plants like Spartina (a marsh grass) and marine algae contain high concentrations of DMSP, we speculate that DMSP-utilizing fungi may be involved in their decay.     

Microbiology of Wetwood: Importance of Pectin Degradation and Clostridium Species in Living Trees

Wetwood samples from standing trees of eastern cottonwood (Populus deltoides), black poplar (Populus nigra), and American elm (Ulmus americana) contained high numbers of aerobic and anaerobic pectin-degrading bacteria (10⁴ to 10⁶ cells per g of wood). High activity of polygalacturonate lyase (≤0.5 U/ml) was also detected in the fetid liquid that spurted from wetwood zones in the lower trunk when the trees were bored. A prevalent pectin-degrading obligately anaerobic bacterium isolated from these wetwoods was identified as Clostridium butyricum. Pectin decomposition by C. butyricum strain 4P1 was associated with an inducible polygalacturonate lyase and pectin methylesterase, the same types of pectinolytic activity expressed in the wetwood of these trees. The pH optimum of the extracellular polygalacturonate lyase was alkaline (near pH 8.5). In vitro tests with sapwood samples from a conifer (Douglas fir, Pseudotsuga menziesii) showed that tori in membranes of bordered pits are degraded by pure cultures of strain 4P1, polygalacturonate lyase enzyme preparations of strain 4P1, and mixed methanogenic cultures from the tree samples of wetwood. These results provide evidence that pectin in xylem tissue is actively degraded by C. butyricum strain 4P1 via polygalacturonate lyase activity. The importance of pectin degradation by bacteria, including Clostridium species, appears paramount in the formation and maintenance of the wetwood syndrome in certain living trees.     

Purification and characterization of a Na+/K+ dependent alginate lyase from turban shell gut Vibrio sp. YKW-34

An alginate lyase with high specific enzyme activity was purified from Vibrio sp. YKW-34, which was newly isolated from turban shell gut. The alginate lyase was purified by in order of ion exchange, hydrophobic and gel filtration chromatographies to homogeneity with a recovery of 7% and a fold of 25. This alginate lyase was composed of a single polypeptide chain with molecular mass of 60 kDa and isoelectric point of 5.5–5.7. The optimal pH and temperature for alginate lyase activity were pH 7.0 and 40 °C, respectively. The alginate lyase was stable over pH 7.0–10.0 and at temperature below 50 °C. The alginate lyase had substrate specificity for both poly-guluronate and poly-mannuronate units. The k_cat/K_m value for alginate (heterotype) was 1.7 × 10⁶ s⁻¹ M⁻¹. The enzyme activity was completely lost by dialysis and restored by addition of Na⁺ or K⁺. The optimal activity exhibited in 0.1 M of Na⁺ or K⁺. This enzyme was resistant to denaturing reagents (SDS and urea), reducing reagents (β-mercaptoethanol and DTT) and chelating reagents (EGTA and EDTA).     

Non-identity of cystine lyase with β-cystathionase in turnip roots

An active preparation of cystine lyase (EC 4.4.1.-) was prepared from turnip roots and its substrate specificity examined. Only L-cysteine, cysteine-S-SO₃, and the sulphoxides of L-djenkolic acid, S-methyl-and S-ethyl-L-cysteine were substrates. L-Cystathione, L-djenkolic acid, S-methyl-and S-ethyl-cysteines were not cleaved by this enzyme. The K_m for L-cystine was 1.3 mM and L-cystathionine acted as an effective competitive inhibitor with a K_i of 0.7 mM. After dialysis against 10 mM potassium phosphate buffer pH 7.5, added pyridoxal phosphate was absolutely necessary for activity. In addition a marked stimulation was observed in the presence of ammonium sulphate. The products of the reaction were cysteine persulphide, pyruvate and presumably ammonia. The persulphide was easily demonstrated by cleavage with CN^? to yield SCN^? under conditions in which elemental sulphur was unreactive.     

Cloning,deletion, and overexpression of a glucose oxidase gene in <Emphasis Type="Italic">Aureobasidium</Emphasis> sp. P6 for Ca<Superscript>2+</Superscript>-gluconic acid overproduction

This study aimed to overexpress a glucose oxidase gene (GOD1) in Aureobasidium sp. P6 to achieve Ca²⁺-gluconic acid (GA) overproduction. The GOD1 gene was cloned, deleted, and overexpressed. A protein deduced from the GOD1 gene of Aureobasidium sp. P6 strain had 1824 bp that encoded a protein with 606 amino acids, with a conserved NADB-ROSSMAN domain and a GMC-oxred domain. Deleting the GOD1 gene made the disruptant GOK1 completely lose the ability to produce GA and GOD1 activity, whereas overexpressing the GOD1 gene rendered the transformant GOEX8 to produce considerably more Ca²⁺-GA (160.5?±?5.6 g/L) and higher GOD1 activity (1438.6?±?73.2 U/mg of protein) than its parent P6 strain (118.7?±?4.3 g/L of Ca²⁺-GA and 1100.0?±?23.6 U/mg of GOD1 protein). During a 10-L fermentation, the transformant GOEX8 grown in the medium containing 160.0 g/L of glucose produced 186.8?±?6.0 g/L of Ca²⁺-GA, the yield was 1.2 g/g of glucose, and the volumetric productivity was 1.7 g/L/h. Most of the produced GOD1 were located in the yeast cell wall. The purified product was identified to be a GA. The transformant GOEX8 overexpressing the GOD1 gene could produce considerably more Ca²⁺-GA (186.8?±?6.0 g/L) than its wild-type strain P6.     

Purification and properties of isocitrate lyase from flax seedlings.

Isocitrate lyase has been purified from flax (Linum usitatissimum) seedlings. The final preparation was homogeneous by the criteria of polyacrylamide disc gel electrophoresis, immunodiffusion, and immunoelectrophoresis. From exclusion chromatography on Sephadex G-200, the molecular weight and Stoke's radius of the enzyme were 264,000 and 5.28 × 10^?7 cm, respectively. The subunit molecular weight was 67,000. Thus, the enzyme appears to be tetrameric. The enzyme required Mg²⁺ and cysteine for activity. The optimal pH of the enzyme was 7.5 both in Tris and in phosphate buffers. There are three disulfide bridges and two of eight cysteine residues are buried. Inactivation of isocitrate lyase resulted from short-term modification of enzymatic thiols but this could be reversed by added thiols. The enzyme was competitively inhibited by glyoxylate, l-tartrate, and malonate in catalysis of isocitrate cleavage.     

Synthesis of Isocitrate Lyase in Sunflower Cotyledons during the Transition in Cotyledonary Microbody Function

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.     

Effects of different plant growth regulators and chemicals spray on post harvest physiology and vase life of heliconia inflorescence cv. Golden Torch

Effects of post harvest spray application of plant growth regulators, gibberellic acid (GA) and benzyl adenine (BA), alar (Daminozide) and chemicals like bovine serum albumin (BSA) and potassium permagnate (KMnO₄) on post harvest quality of heliconia inflorescence were investigated. Post harvest spray treatments significantly influenced post harvest quality and life of heliconia inflorescence as compared to control. Spray treatments of GA (100 mg l^?1) and BSA (50 mg l^?1) effectively increased water uptake and retained fresh weight of cut inflorescence. The same treatments also reduce the levels of catalase (CAT) and peroxidase (POD) enzymatic activity and decreased the lipid peroxidation (measured as TBARS) in the bract tissue. Percent absolute integrity of bract cell membrane (PAI) was also high in GA (100 mg l^?1) and BSA (50 mg l^?1) spray treated cut inflorescence on 8th, 10th and 12th day of vase life. Post-harvest spray treatment of GA (100 mg l^?1) showed significant increase (by almost twofold) in the vase life of heliconia inflorescence as compared to control. These results suggest that post-harvest spray of GA (100 mg l^?1) or BSA (50 mg l^?1) maintains higher inflorescence fresh weight, improve water uptake and reactive oxygen species (ROS) scavenging capacity, stabilizes absolute integrity of cell membrane leading to a delay in bract cell death in heliconia inflorescence cv. Golden Torch.     

Dietary administration of the probiotic,Lactobacillus plantarum,enhanced the growth,innate immune responses,and disease resistance of the grouper Epinephelus coioides

The percent weight gain (PWG) and feed efficiency (FE) of Epinephelus coioides were calculated, and the lactobacilli and total microbiota in the posterior intestines, and non-specific immune parameters of grouper, and its susceptibility to Streptococcus sp. and an iridovirus were determined when the fish were fed diets containing Lactobacillus plantarum at 0 (control), 10⁶, 10⁸, or 10¹⁰ colony-forming units (cfu) kg^?1 for 4 weeks. Results showed that grouper fed a diet containing L. plantarum at the levels of 10⁶, 10⁸, and 10¹⁰ cfu kg^?1 had significantly increased PGW and FE especially at 10⁸ cfu kg^?1 group which were 404.6% and 1.26, respectively. L. plantarum significantly increased in the fish posterior intestines during the L. plantarum feeding period, but decreased rapidly from the intestine within 1 week after changing to the control diet (without L. plantarum). Fish fed a diet containing L. plantarum at 10⁶ and 10⁸ cfu kg^?1 had significantly higher survival rates than those fed the control diet after challenge with Streptococcus sp., as well as those fed 10⁸ cfu kg^?1 after challenge with an iridovirus, causing increases in the survival rates of 23.3%, 20.0%, and 36.7%, respectively, compared to the control group. The alternative complement activity (ACH₅₀) level of fish fed diets containing L. plantarum after 4 weeks was significantly higher than that of fish fed the control diet, and that of the 10⁸ cfu kg^?1 group was significantly higher than those of the 10⁶ and 10¹⁰ cfu kg^?1 groups, which increased by 83.4% compared to the control group. The lysozyme activity and glutathione peroxidase (GPx) activity of fish fed the L. plantarum-containing diets at 10⁸ and 10¹⁰ cfu kg^?1 significantly increased compared to those fed the 10⁶ cfu kg^?1 L. plantarum diet and control diet, and had increased by 76.3% and 136.6%, and 57.1% and 113.3%, respectively, compared to those fed the control diet. The phagocytic activity (PA), phagocytic index (PI), and respiratory bursts of head kidney leucocytes of fish fed 10⁶, 10⁸, and 10¹⁰ cfu kg^?1 L. plantarum diets were significantly higher than those of fish fed the control diet after 4 weeks of feeding, and increased 2.2-, 2.2-, and 2.3-fold; 1.8-, 1.8-, and 2.0-fold; and 1.4-, 1.4-, and 1.4-fold, respectively, compared to the control group. We therefore recommend dietary L. plantarum administration at 10⁸ cfu kg^?1 to promote growth and enhance immunity and resistance against Streptococcus sp. and an iridovirus of E. coioides.     

Changes in bacterial glycolipids as an index of intestinal lactobacilli and epithelial glycolipids in the digestive tracts of mice after administration of penicillin and streptomycin

The major lipid constituent of symbiotic gram-positive bacteria in animals are phosphatidylglycerol, cardiolipin and dihexaosyl diglycerides (DH-DG), whose hydrophobic structures are characteristic of the environments, and the carbohydrate structures of DH-DGs are bacterial species-characteristic. Immunization of rabbits with intestinal lactobacilli generated antibodies against DH-DGs and their modified structures, among which Galα1-6-substituted DH-DG, i.e., Lactobacillus tetrahexaosyl diglyceride (LacTetH-DG), reacted with antibodies more intensely than DH-DG. Whereas, from the 16S-rRNA sequence, the intestinal lactobacilli in murine digestive tracts were revealed to be L. johnsonii, in which LacTetH-DG is present at the concentration of 2.2 ng per 1?×?10⁶ cells. To obtain more accurate estimates of intestinal lactobacilli in several regions of the digestive tract of mice, LacTetH-DG was detected by TLC-immunostaining with anti-Lactobacillus antisera, being found in the stomach, cecum and colon of normal breeding mice, 1.0?×?10⁹, 3.5?×?10⁹ and 7.4?×?10⁹ cells, respectively. Administration of penicillin and streptomycin for 6 days resulted in a reduction in the number of intestinal lactobacilli, the levels being 0 %, 30 % and 4 % of the control ones in the stomach, cecum and colon, respectively, which was associated with the accumulation of the contents in the tracts from the stomach to the cecum and with diarrhea. In addition, a reduced amount of fucosyl GA1 (FGA1) and a compensatory increase in GA1 due to the reduced activity of α1,2-fucosyltransferase in the small intestine and the enhanced discharge of FGA1 into the contents occurred in mice, probably due to the altered population of bacteria caused by administration of penicillin and streptomycin.     

Soybean alcohol dehydrogenase

Alcohol dehydrogenase was prepared from germinating soybean seeds. Specific activity was increased from 511 to 31316 units. The coenzyme is NAD with a K_m of 10^?4M. Allyl alcohol is oxidized faster than ethanol; with the latter substrate, the K_m is 1.3 × 10^?2M, and the pH optimum 8.7. The enzyme catalyses acetaldehyde reduction, with a K_m of 10^?2M and a pH opt of 7.1. The MW is 53(±5) × 10^?3.