Efficacy of Foliar Application of Phosphates in Controlling Powdery Mildew Fungus on Field-Grown Winegrapes: Effects on Cluster Yield and Peroxidase Activity in Berries

Seven foliar applications of 0.025M K₂HPO₄ and KH₂PO₄ (both plus Tween 20) and the commercial systemic fungicides, Dorado (Pyrifenox) 480 EC, Penconazole EC and Benomyl, were applied at 14-day intervals starting at 10-cm shoot length on field-grown Chardonnay winegrapes. Both phosphates and systemic fungicides inhibited development of powdery mildew fungus (Uncinula necator, Schw., Burr.) on fruit clusters, as compared with untreated control vines. Diseases, everity on clusters of plants treated with K₂HPO₄ and fungicides was 0.3 and 0.2, respectively, as compared with 1.3 on control clusters (on a 0–4 scale), for the first rating, conducted 10 days after the fifth application of fungicides and phosphates, Five days after the last application, disease severity was 3.5 on non-treated control clusters and 0.3 and 0.8 on clusters treated with Dorado and K₂HPO₄, respectively. Powdery mildew infection remarkably reduced the weight of non-treated control clusters as compared with Dorado and phosphate treated clusters. Phosphate treatment caused an increase (3-fold) of peroxidase activity in the soluble fraction of non-infected control berries. A remarkable peroxidase enhancement was detected in the soluble (8-fold) and ionically bound (2-fold) fractions from the phosphate-treated and infected berries. Results indicate that phosphates can be used as foliar fertilizers for disease control in the field and that peroxidase might, be involved in the defense process.     

Quantitation of plasmid DNA in aqueous two-phase systems by fluorescence analysis

The development of aqueous two-phase systems for plasmid purification from Escherichia coli cell lysates requires a reliable DNA quantitation method. Plasmid DNA was quantified by fluorescence using PicoGreen nucleic acid stain. Linearity was obtained up to 40 ng plasmid ml^–1. Two polyethyleneglycol (PEG)/salt systems were studied, PEG 600/K₂HPO₄ and PEG 300/K₂HPO₄. The average plasmid recovery was 41% in the bottom phase of the first system and 35% in the top phase of the second system. This method has proved to be simple and reproducible.     

Optimization of novel halophilic lipase production by Fusarium solani strain NFCCL 4084 using palm oil mill effluent

Among different sources of lipases, fungal lipases have continued to attract a wide range of applications. Further, halophilic lipases are highly desirable for biodiesel production due to the need to mitigate environmental pollution caused as result of extensive use of fossil fuels. However, currently, the high production cost limits the industrial application of lipases. In order to address this issue, we have attempted to optimize lipase production by Fusarium solani NFCCL 4084 and using palm oil mill effluent (POME) based medium. The production was optimized using a combinatory approach of Plackett-Burman (PB) design, one factor at a time (OFAT) design and face centred central composite design (FCCCD). The variables (malt extract, (NH₄)₂SO₄, CaCl₂, MgSO₄, olive oil, peptone, K₂HPO₄, NaNO₃, Tween-80, POME and pH) were analyzed using PB design and the variables with positive contrast coefficient were found to be K₂HPO₄, NaNO₃, Tween-80, POME and pH. The significant variables selected were further analyzed for possible optimum range by using OFAT approach and the findings revealed that K₂HPO₄, NaNO₃, and Tween-80 as the most significant medium components, and thus were further optimized by using FCCCD. The optimum medium yielded a lipase with an activity of 7.8 U/ml, a significant 3.2-fold increase compared to un-optimized medium. The present findings revealed that POME is an alternative and suitable substrate for halophilic lipase production at low cost. Also, it is clearly evident that the combinatory approach employed here proved to be very effective in producing high activity halophilic lipases, in general.     

Bacteriological phosphate determination in defined liquid media with Pseudomonas fluorescens var. aureofaciens

Summary A soil organism, identified as Pseudomonas fluorescens var. aureofaciens was used to assay the phosphate content in defined liquid media.The organism showed a linear growth response to K₂HPO₄ from 0.6 mM to 6.10^–6 mM. The organism did not grow at K₂HPO₄ levels below 6.10^–6 mM and the response above 0.6 mM was not correlated with growth.It is suggested that this organism could be used to assay unknown K₂HPO₄ concentrations in defined liquid media between the above values with the aid of a standard growth curve.     

Peroxidase from leaves of royal palm tree Roystonea regia: purification and some properties

Screening of tropical plants demonstrated high peroxidase activity in leaves of some species of palms. Using the leaves of royal palm Roystonea regia as a source, the peroxidase has been isolated to homogeneity. The enzyme purification steps included homogenization, (NH₄)₂SO₄ precipitation, extraction of palm leaf colored compounds and consecutive chromatography on Phenyl-Sepharose, Sephacryl S100 and DEAE-Toyopearl. The novel peroxidase was characterized as having a specific activity of 6170 U/mg, RZ 3.0, molecular weight of 51 kDa and isoelectric point pI 3.5. The electronic spectrum of RPP is characteristic for plant peroxidases with a Soret maximum at 403 nm and maxima in a visible region at 492 and 633 nm, respectively. The substrate specificity of royal palm tree peroxidase (RPTP) is distinct from the specificity of other plant peroxidases. The best substrates for RPTP are ferulic acid and 2,2′-azino-bis-(3-ethylbenzthiazoline-6-sulfonic acid). The palm peroxidase exhibits an unusually high thermostability inactivating at 90 °C with k_inac of 1.5×10⁻² min⁻¹.     

Reversed-phase high-performance liquid chromatography of nicotinic acid mononucleotide for measurement of quinolinate phosphoribosyltransferase

A system has been developed for the determination of quinolinate phosphoribosyltransferase (QPRT) activity in liver and kidney homogenates using HPLC. A product, nicotinic acid mononucleotide (NaMN), is separated by reversed-phase chromatography (a Tosoh ODS 80TS was used as an analytical column) using a mixture of 10 mM KH₂PO₄–K₂HPO₄ buffer (pH 7.0) containing 1.48 g/l tetra-n-butylammonium bromide–acetonitrile (9:1, v/v) as a mobile phase. The flow-rate was 1.0 ml/min, the detection wavelength was 265 nm. The column temperature was maintained at 40°C. Under these conditions, NaMN was eluted at about 8.1 min. Sample preparation was very straightforward. The reaction mixture of QPRT assay was stopped by immersing the tube into a boiling water bath, the resulting supernatant was filtered, and the filtrate was directly injected into a HPLC system. The total HPLC analysis time was approximately 20 min.     

Formation of Psicose from Glucose in Autoclaved and Uninoculated Fermentation Media

When a fermentation medium consisting of the high concentration of K₂HPO₄ and KH₂PO₄ and glucose as a sole carbon source is autoclaved in the alkaline side, an unknown sugar is formed. This sugar is identified as psicose by paper chromatography and high-voltage paper electrophoresis. The notion that weak alkali causes the isomerization of reducing sugar could account for the formation of psicose in the medium. It is thus concluded that psicose is chemically formed from glucose in the alkaline side and in the high concentration of K₂HPO₄ and KH₂PO₄ during autoclaving.     

Medium optimization for keratinase production in hair substrate by a new <Emphasis Type="Italic">Bacillus subtilis</Emphasis> KD-N2 using response surface methodology

Culture medium for keratinase production from hair substrate by a new Bacillus subtilis strain, KD-N2, was optimized. Effects of culture conditions on keratinase production were tested, and optimal results were obtained with 10% inocula (v/v), 16 g/L hair substrate, an initial pH value of 6.5 and a culture volume of 20 mL. Several carbon sources (sucrose, cornflour) and nitrogen sources (yeast extract, tryptone and peptone) had positive effects on keratinase production, with sucrose giving optimal results. To improve keratinase yield, statistically based experimental designs were applied to optimize the culture medium. Fractional factorial design (FFD) experiments showed that MgSO₄ and K₂HPO₄ were the most significant factors affecting keratinase production. Further central composite design (CCD) experiments indicated that the optimal MgSO₄ and K₂HPO₄ concentrations were 0.91 and 2.38 g/L, respectively. Using an optimized fermentation medium (g/L: NaCl 1.0, CaCl₂ 0.05, KH₂PO₄ 0.7, sucrose 3, MgSO₄ 0.91, K₂HPO₄ 2.38), keratinase activity increased to 125 U/mL, an approximate 1.7-fold increase over the previous activity (75 U/mL). Human hair was degraded during the submerged cultivation.     

Response-surface methodology for the production and the purification of a new H2O2-tolerant alkaline protease from Bacillus invictae AH1 strain

This work deals with the optimization of the culture conditions of Bacillus invictae AH1 in order to increase the production level of the proteolytic activity. Response-surface methodology (RSM) was applied for the most significant fermentation parameters (concentration of wheat bran and K₂HPO₄/KH₂PO₄) that were earlier identified by Plackett–Burman Design from seven possible factors. A central composite design was used and the quadratic regression model of producing active protease was built. A maximum protease activity was reached and validated experimentally, using a maximum wheat bran concentration (50 g/L) with increased K₂HPO₄/KH₂PO₄ concentration (2.275 g/L). Protease production obtained experimentally coincident with the predicted value and the model was proven to be adequate. Interestingly, the use of RSM increased the protease production by four times (7,000 U/mL) using a low-cost substrate and a culture time of 40 hr, as compared to the standard culture conditions. In the second part of this study, a H₂O₂-tolerant alkaline protease produced from B. invictae AH1 with a molecular mass of about 41 kDa, noted P3, was purified by successive steps of ultrafiltration, gel filtration and ion exchange chromatography. The K _m and V_max values of the purified protease using casein, as substrate, were about 4 mg/mL and 27 μM/min, respectively. The highest enzyme activity was found at pH 9.0 and a temperature of 60°C. In addition, the enzyme showed a quasi-total stability against H₂O₂ (5% for 1 hr) and against most of the tested solid and liquid detergents, suggesting its eventual use in bio-detergent formulations.     

N 5,N 10-Methenyltetrahydromethanopterin cyclohydrolase from the extremely thermophilic sulfate reducing Archaeoglobus fulgidus: comparison of its properties with those of the cyclohydrolase from the extremely thermophilic Methanopyrus kandleri

Archaeoglobus fulgidus and Methanopyrus kandleri are both extremely thermophilic Archaea with a growth temperature optimum at 83°C and 98°C, respectively. Both Archaea contain an active N ⁵,N ¹⁰-methenyltetrahydromethanopterin cyclohydrolase. The enzyme from M. kandleri has recently been characterized. We describe here the purification and properties of the enzyme from A. fulgidus.The cyclohydrolase from A. fulgidus was purified 180-fold to apparent homogeneity and its properties were compared with those recently published for the cyclohydrolase from M. kandleri. The two cytoplasmic enzymes were found to have very similar molecular and catalytic properties. They differed, however, significantly with respect of the effect of K₂HPO₄ and of other salts on the activity and the stability. The cyclohydrolase from A. fulgidus required relatively high concentrations of K₂HPO₄ (1 M) for optimal thermostability at 90°C but did not require salts for activity. Vice versa, the enzyme from M. kandleri was dependent on high K₂HPO₄ concentrations (1.5 M) for optimal activity but not for thermostability. Thus the activity and structural stability of the two thermophilic enzymes depend in a completely different way on the concentration of inorganic salts. The molecular basis for these differences are discussed.Abbreviations H₄MPT tetrahydromethanopterin - MFR methanofuran - CH₃–H₄MPT N ⁵-methyl-H₄MPT - CH₂=H₄MPT N ⁵,N ¹⁰-methylene-H₄MPT - CH₂H₄MPT N ⁵,N ¹⁰-methenyl-H₄MPT - CHO–H₄MPT N ⁵ formyl-H₄MPT - CHO-MFR formyl-MFR - cyclohydrolase N ⁵,N ¹⁰-methenyltetrahydromethanopterin cyclohydrolase - MOPS 3-(N-morpholino) propane sulfonic acid - TRICINE N-tris (hydroxymethyl) methyl glycine - 1 U=1 mol/min     

Activation and thermostabilization effects of cyclic 2,3-diphosphoglycerate on enzymes from the hyperthermophilic Methanopyrus kandleri

Enzymes involved in methane formation from carbon dioxide and dihydrogen in Methanopyrus kandleri require high concentrations (> 1 M) of lyotropic salts such as K₂HPO₄/KH₂PO₄ or (NH₄)₂SO₄ for activity and for thermostability. The requirement correlates with high intracellular concentrations of cyclic 2,3-diphosphoglycerate (cDPG; ≈ 1 M) in this hyperthermophilic organism. We report here on the effects of potassium cDPG on the activity and thermostability of the two methanogenic enzymes cyclohydrolase and formyltransferase and show that at cDPG concentrations prevailing in the cells the investigated enzymes are highly active and completely thermostable. At molar concentrations also the potassium salts of phosphate and of 2,3-bisphosphoglycerate, the biosynthetic precursor of cDPG, were found to confer activity and thermostability to the enzymes. Thermodynamic arguments are discussed as to why cDPG, rather than these salts, is present in high concentrations in the cells of Mp. kandleri. Received: 18 June 1998 / Accepted: 24 August 1998     

Proline betaine is a highly effective osmoprotectant for Staphylococcus aureus

Proline betaine is an osmoprotectant that is at least as effective as glycine betaine, and more effective than L-proline, for various strains of Staphylococcus aureus, and Staphylococcus epidermidis and Staphylococcus saprophyticus. ¹³C NMR studies revealed that proline betaine accumulated to high levels in osmotically stressed S. aureus, but was also detected in organisms grown in its presence in the absence of osmotic stress. Competition experiments indicated that proline betaine was taken up by the proline transport systems of S. aureus, but not by the high affinity glycine betaine transport system.Abbreviations PYK Peptode - Yeast extract K₂HPO₄     

Synthesis of (R)-2-phenylpropanoic acid from its racemate through an isomerase-involving reaction by Nocardia diaphanozonaria

(R)-2-Phenylpropanoic acid was synthesized from the racemic acid through an isomerization reaction involving resting cells of Nocardia diaphanozonaria JCM3208. The isomerization activity of the cells was enhanced 25-fold by adding 5.5 mM racemic 2-phenylpropanoic acid to the culture medium. When 5 mM racemic 2-phenylpropanoic acid was included in the reaction mixture (4 ml) containing resting cells (100 mg dry cell wt) in 25 mM K₂HPO₄/KH₂PO₄ buffer (pH 7.0) at 30 °C for 8 h, 4.56 mM (R)-2-phenylpropanoic acid (95.8% e.e.) was formed with a 91% molar conversion yield.     

Optimization of extracellular alkaline protease production from species of <Emphasis Type="Italic">Bacillus</Emphasis>

Thirty-five strains capable of secreting extracellular alkaline proteases were isolated from the soil and waste water near the milk processing plant, slaughterhouse. Strain APP1 with the highest-yield alkaline proteases was identified as Bacillus sp. The cultural conditions were optimized for maximum enzyme production. When the initial pH of the medium was 9.0, the culture maintained maximum proteolytic activity for 2,560 U ml⁻¹ at 50°C for 48 h under the optimized conditions containing (g⁻¹): soyabean meal, 15; wheat flour, 30; K₂HPO₄, 4; Na₂HPO₄, 1; MgSO₄·7H₂O, 0.1; Na₂CO₃, 6. The alkaline protease showed extreme stability toward SDS and oxidizing agents, which retained its activity above 73 and 110% on treatment for 72 h with 5% SDS and 5% H₂O₂, respectively.     

Poly(3-hydroxybutyrate) production by <Emphasis Type="Italic">Halomonas boliviensis</Emphasis> in fed-batch culture

High poly(3-hydroxybutyrate) (PHB) content and volumetric productivity were achieved by fed-batch culture of Halomonas boliviensis using a defined medium. Initial shake flask cultivations in a minimal medium revealed that the growth of H. boliviensis was supported only when the medium was supplemented with aspartic acid, glycine, or glutamine. Addition of 0.1% (w/v) glutamine in the medium resulted in the highest cell dry weight (CDW; 3.9 g l⁻¹). Glutamine was replaced by the less expensive monosodium glutamate (MSG) in the medium without any notable change in the final cell density. Effect of initial concentrations of NH₄Cl and K₂HPO₄ on cell growth and PHB accumulation by H. boliviensis was then analyzed using a fed-batch fermentation system. The best conditions for PHB production by H. boliviensis were attained using 0.4% (w/v) NH₄Cl and 0.22% (w/v) K₂HPO₄ and adding MSG intermittently to the fermentor. Poly(3-hydroxybutyrate) content and CDW reached 90 wt.% and 23 g l⁻¹, respectively, after 18 h of cultivation. In order to increase CDW and PHB content, MSG, NH₄Cl, and K₂HPO₄ were initially fed to the fermentor to maintain their concentrations at 2%, 0.4%, and 0.22% (w/v), respectively, and subsequently their feed was suppressed. This resulted in a CDW of 44 g l⁻¹, PHB content of 81 wt.%, and PHB volumetric productivity of 1.1 g l⁻¹ h⁻¹.     

Sequential liquid-liquid extraction of d-amino acid oxidase from Trigonopsis variabilis

A method for isolation of d-amino acid oxidase (DAAO) from disrupted Trigonopsis variabilis cells has been developed. In an aqueous two-phase system consisting of PEG6000 (220 g l^–1), potassium phosphate (110 g l^–1, K₂HPO₄ + KH₂PO₄ = 10.1:1, mol mol^–1) and dl-methionine (11 g l^–1), the major portion of cellular proteins (87%) was partitioned into the salt phase. By sequential extraction, 48% of DAAO was recovered in PEG phase, giving a yield of 211 U mg protein^–1.     

Uptake and Transport of Calcium and Phosphorus in Lolium perenne in Response to N Supplied to Halves of a Divided Root System

The uptake and transport of Ca²⁺ and HPO₄^2? from roots of Lolium perenne L. was studied using variable N nutrition supplied to halves of a divided root system. Plants were grown for 4 weeks in solution containing 0.11 mM NO₃^?–N; then one-half of the root system was supplied with either 4.0 mM NO₃^?–N or 0.28 mM NH₄⁺–N while the other half of the root system remained in low-N solution. Uptake and transport of Ca²⁺ increased and uptake of HPO₄^2? declined in root halves supplied with high NO₃^?–N for 16 h. After supply of high NO₃^?–N or NH₄⁺–N to half the root system for 6 days, the roots supplied with high-N exhibited significantly higher rates of uptake and percentage transport to shoots of both Ca²⁺ and HPO₄^2?–. However, in neither the 16-h nor 6-day treatment did Ca²⁺ or HPO₄^2? uptake of the root half supplied with low N differ significantly from the control (low N supplied to both halves of the root). Significantly higher N concentrations were found in low-N supplied roots (compared to the control) as a result of internal translocation of N from high-N supplied roots to low-N supplied roots. Although N concentration in the low-N supplied roots increased, uptake rates of Ca²⁺ or HPO₄^2? did not change implying that external N concentration may be the important factor which influences or governs N mediated uptake responses. This would further suggest that the site of uptake regulation for Ca²⁺ and HPO₄^2? exists on the outer plasma membrane which is in direct contact with the external solution. Transport of Ca²⁺ and HPO₄^2? to the shoot was generally increased in low-N root halves after 6 days of high-N supply to the other half of the root. This implies that plant growth demand may be a major factor in regulating rates of Ca²⁺ and HPO₄^2? transport from roots to the shoot. It also reinforces the hypothesis that uptake and transport of ions out of the root are separately controlled or regulated in the plant.     

Investigation of chromatography and polymer/salt aqueous two-phase processes for downstream processing development of recombinant phenylalanine dehydrogenase

This work presents a comprehensive study between the polymer/salt aqueous two-phase systems (ATPS) and chromatography process for downstream processing of recombinant Bacillus badius phenylalanine dehydrogenase (PheDH). First, the partitioning behavior of recombinant PheDH in polyethylene glycol (PEG)/K₂HPO₄ ATPS was examined. For comparative purpose, a classical chromatographic protocol was performed as well. Investigation of chromatography and ATPS procedures revealed that the ATPS comprising of 9% (w/w) PEG-6000, 16% (w/w) K₂HPO₄ and 16% (w/w) KCl with pH of 8.0, volume ratio (V _R ) of 0.25, temperature of 25 °C and 40% (w/w) cell lysate ensured the most favorable approach for PheDH downstream process. A specific activity of 4,231.4 U/mg, a yield of 96.7% and a recovery of 162.0% were obtained. Furthermore, the shorter process time (4 vs. 48 h) and the lower total cost (4 vs. 20 €) were additionally features that confirmed the suitability of proposed technique.     

A NEWLY ANTI-Streptococcus suis BACTERIOCIN PRODUCING STRAIN FROM UNWEANED PIGLETS FECAL MATTER: ISOLATION,PRELIMINARY IDENTIFICATION,AND OPTIMIZATION OF MEDIUM COMPOSITION FOR ENHANCED BACTERIOCIN PRODUCTION

A newly isolated anti-Streptococcus suis bacteriocin-producing strain LPL1-5 was obtained from healthy unweaned piglets' fecal matter, and was designated as Lactobacillus pentosus LPL1-5 based on morphology, biochemical properties, and 16S rDNA sequencing analysis. The medium composition for enhanced bacteriocin production by L. pentosus LPL1-5 was optimized by statistical methodology. Yeast extract, K₂HPO₄ · 3H₂O, and MnSO₄ · H₂O were identified as significant components influencing pentocin LPL1-5 production using the Plackett–Burman method. Response surface methodology was applied for further optimization. The concentrations of medium components for enhanced pentocin LPL1-5 production were as follows (g/L): lactose 20.00, tryptone 10.00, beef extract 10.00, yeast extract 14.00, MnSO₄ · H₂O 0.84, K₂HPO₄ · 3H₂O 4.92, triammonium citrate 2.00, Na-acetate 5.00, MgSO₄ · 7H₂O 0.58, Tween 80 1.00. Under the optimized condition, a value of 3154.65 ± 27.93 IU/mL bacteriocin activity was achieved, which was 4.2-fold that of the original medium.     

Extracellular lipase of <Emphasis Type="Italic">Aspergillus niger</Emphasis> NRRL3; production,partial purification and properties

Four strains of Aspergillus niger were screened for lipase production. Each was cultivated on four different media differing in their contents of mineral components and sources of carbon and nitrogen. Aspergillus niger NRRL3 produced maximal activity (325U/ml) when grown in 3% peptone, 0.05% MgSO₄.7H₂O, 0.05% KCl, 0.2% K₂HPO₄ and 1% olive oil:glucose (0.5:0.5). A. niger NRRL3 lipase was partially purified by ammonium sulphate precipitation. The majority of lipase activity (48%) was located in fraction IV precipitated at 50–60% of saturation with a 18-fold enzyme purification. The optimal pH of the partial purified lipase preparation for the hydrolysis of emulsified olive oil was 7.2 and the optimum temperature was 60°C. At 70°C, the enzyme retained more than 90% of its activity. Enzyme activity was inhibited by Hg²⁺ and K⁺, whereas Ca²⁺ and Mn²⁺ greatly stimulated its activity. Additionally, the formed lipase was stored for one month without any loss in the activity.