Inhibition of susceptible water soaking and/or hypersensitive reaction in cotton by exopolysaccharide of avirulentXanthomonas campestris pv.malvacearum

The exopolysaccharide (EPS) of avirulentXanthomonas campestris pv.Malvacearum race-32 did not contain the watersoaking (WS)— inducing factor but contained necrotic reaction (NR)-inducing factor and induced NR on resistant cotton (cv. 101-102B) on which the viable cells of the same avirulent race-32 produced hypersensitive reaction (HR). NR and HR were differentiated on the basis of the induction period required, visible reaction on infiltrated areas, bacterial constituents or metabolite responsible, involvement of host constituent during these reactions and its chemical inhibition. Pre and/or challenge inoculation of EPS of avirulent race-32 (3 mg per infiltration or lesion) in susceptible or resistant cotton cultivars, on pre-and/or post-infiltrated (0–8 h) exponential-phase culture of virulent race-32 inhibited the WS and/or HR of the virulent race in susceptible or resistant cotton.     

Role of ammonium accumulation in bacteria-induced hypersensitive and compatible reactions of tobacco and cotton plants

Leaves of 12-week-old tobacco plants (Nicotiana tabacum L. cv. Samsun NN) were infiltrated with suspensions of Pseudomonas syringae pv, pisi (DSM 50291) to induce hypersensitive reaction (HR). Cotyledons of 2-week-old cotton plants (Gossypium hirsutum L. cv. Acala 442 and Coker BR) were infiltrated with Xanthomonas campestris pv. malvacearum (race 10) to induce the disease. In tobacco, HR-related increases in NH⁺₄ levels started within 2 h after infection and continued up to the time of tissue decay. Increase of NH⁺₄ and especially K⁺ efflux were detected in intercellular washing fluids (IWF). Antibiotics stopped and later reverted NH⁺₄ production and K⁺ efflux, but only if applied within 2 h after infection. When 10 mM NH⁺₄ was injected into leaves, it was rapidly consumed from the IWF, and also, although more slowly, within the leaf cells. The concomitant K⁺ efflux was strong but delayed, and most of the K⁺ was reabsorbed after 2 h. Bacterial cell multiplication in HR stopped before the appearance of HR symptoms and cell necrosis. In the compatible reaction in cotton cotyledons, both NH₊⁴accumulation and K⁺ efflux proceeded much more slowly than in the HR with tobacco, and bacteria continued to multiply until general cell necrosis occurred. The compatible reaction developed faster in constant darkness than in a light/dark rhythm. Bacterial enzymes produced NH⁺₄, mainly from proteins of host cells, in both light and darkness. Continuous light delayed the main peak of both NH⁺₄ production and K⁺ efflux. High CO₂ concentration inhibited both processes, thus indicating that photorespiration plays a role in enhancing the release of free ammonium during bacterial pathogenesis. This is supported by shifts in the pattern of amino acids. The results demonstrate the accelerating and aggravating effect of ammonium in pathogenesis and HR, though ammonium is not the primary agent.     

Microbial leaching of arsenic from low‐sulfide gold mine material

Drainages from high‐sulfide tailings near abandoned lode deposits in Alaska, U.S.A., and Yukon, Canada, were found to be acidic, to contain large numbers of Thiobacillus ferrooxidans, and to have high concentrations of dissolved arsenic. Drainages from active placer gold mines are not acidic, but T. ferrooxidans and concentrations of dissolved arsenic exceeding 10 μg/L are found in some streams affected by placer mine drainage. Placer mine material containing low amounts of sulfides (326 (μg/g) and moderately high amounts of arsenic (700 μg/g) was leached with growing cultures of T. ferrooxidans, T. ferrooxidans‐spent filtrate, and acid ferric sulfate. The results showed that while more arsenic was released from this material by growing cultures of T. ferrooxidans than by abiotic controls, acid ferric sulfate released much more arsenic than did either growing cultures of T. ferrooxidans or spent culture filtrate containing oxidized iron. Cation exchange chromatography showed that oxidized iron from T. ferrooxidans culture filtrate is chemically less reactive than the iron in aqueous solutions of ferric sulfate salt. These results indicate that arsenic release from both high‐ and low‐sulfide mine wastes is enhanced biologically, but that rates and amounts of arsenic release are primarily controlled by iron species.     

Essential Oil Variability in Natural Populations of Artemisia campestris (L.) and Artemisia herba‐alba (Asso) and Incidence on Antiacetylcholinesterase and Antioxidant Activities

The intraspecific variability of Artemisia herba‐alba and A. campestris essential oils and the evaluation of their antioxidant and antiacetylcholinesterase activities were determined. Artemisia herba‐alba essential oil was found rich in camphor (19.61%), α‐thujone (19.40%), β‐thujone (9.44%), chrysanthenone (9.26%), and trans‐sabinyl acetate (8.43%). The major compounds of A. campestris essential oil were germacrene D (16.38%), β‐pinene (16.33%), and limonene (9.17%). Significant variation in the essential oil composition was observed among populations of each species. The divergence between populations was attributed to the variation of some climatic factors such as altitude, annual rainfall, winter cold stress, summer precipitation, summer drought stress, evapotranspiration, and humidity. Artemisia herba‐alba and A. campestris essential oils exhibited promising antioxidant and antiacetylcholinesterase activities. The level of activity varied significantly according to the species and the essential oil. The highest scavenging activity (IC₅₀ = 0.14 mg/ml) and the uppermost capacity to prevent β‐carotene bleaching (IC₅₀ = 0.10 mg/ml) characterized A. campestris from population 6. A. campestris population 3 possessed the uppermost ability to reduce ferric ions (450.7 μmol Fe²⁺/g EO). The population 2 of A. campestris showed the strongest antiacetylcholinesterase activity (IC₅₀ = 0.02 mg/ml). The variation of these activities between the essential oils was explained by their composition differences.     

A 13‐lipoxygenase is Expressed Early in the Hypersensitive Reaction of Cotton Plants to Xanthomonas campestris pv. malvacearum

Lipoxygenases (LOXs) are enzymes responsible for lipid peroxidation processes during plant defence responses to pathogen infection. Jasmonates are lipid‐derived signals that mediate plant stress responses with chloroplastic LOXs implicated in the biosynthesis of oxylipins like jasmonic acid (JA). Hypersensitive reaction (HR) cell death of cotton to the incompatible race 18 of Xanthomonas campestris pathovar malvacearum (Xcm) is associated with 9S‐lipoxygenase activity and expression of a 9‐LOX GhLOX1. Here, we report the cloning of cotton (Gossypium hirsutum L.) LOX gene GhLOX2. Sequence analysis showed that GhLOX2 is a putative 13‐LOX with a chloroplast‐transit peptide in the amino acid terminus. GhLOX2 was found to be significantly expressed in the first hour of Xcm‐induced HR. Investigation into LOX signalization on cotyledons incubated with methyl‐jasmonate (MeJA) or infiltrated with salicylic acid (SA) or ethylene (ET) revealed that the first two treatments induced GhLOX2 gene expression. Our results show that GhLOX2 gene expression occurred at the stage of the HR prior biochemical events previously highlighted. The role that GhLOX2 may have in the defence strategy of cotton to Xcm is discussed regarding the HR.     

Jarosite in cultures of iron‐oxidizing thiobacilli

Jarosite [KFe₃(SO₄)2(OH)₆] was precipitated in cultures of Thio‐bacillus ferrooxidans growing on ferrous sulfate. This basic ferric sulfate was characterized by x‐ray diffraction patterns and infrared spectra and was very similar to jarosite produced chemically from acidic ferric sulfate.     

Optimum Culture Conditions for Production of Exfoliative Toxin by Staphylococcus hyicus

Optimum culture conditions for the production of exfoliative toxin by Staphylococcus hyicus (shET) were examined. High shET activity was obtained from the culture filtrate of HI and TY broth inoculated with S. hyicus. The pH in these two media ranged from 7 to 8.5 during bacterial culture, while the lowest pH in TS and BHI broth was less than 6. shET activity in the culture filtrate from TY broth inoculated with 10⁷ CFU of S. hyicus per ml was higher than that in TY broth inoculated with 10⁶ and 10⁸ CFU of bacteria per ml. When shET activity in the culture filtrate was measured under various shaking conditions, the culture filtrate shaken at 75 oscillations per min had the highest shET activity of the five shaking conditions. shET activity of the culture filtrate of TY broth to which protease inhibitor had been added was the same as that of TY broth without inhibitor. shET activity in a shaking culture in an Erlenmeyer flask was also the same as that in sac culture and that in shaking culture using a shaking (Sakaguchi) flask. shET activity in TY broth supplemented with 100 mM glucose was significantly lower than that in TY broth without glucose. Based on the above results, the optimum culture conditions for the production of shET were as follows: inoculation of 3 × 10⁹ CFU of S. hyicus strain P-1 into 300 ml of TY broth in a 2,000-ml Erlenmeyer flask, and incubation at 37 C with shaking at 75 oscillations per min. Then shET activity of the culture filtrate under appropriate culture conditions was measured after various incubation periods. shET activity was detected 6 hr after inoculation, reached the maximum (2⁵³ exfoliative unit/0.1 ml) at 16 hr and decreased between 20 and 48 hr. Thus, the optimum incubation period was determined to be 16 hr. Then the optimum concentration of ammonium sulfate for isolation of shET from the culture filtrate under appropriate culture conditions was examined. The greatest shET activity was obtained from the fraction salted out with 90% saturated ammonium sulfate. Thus, the optimum concentration of ammonium sulfate for the isolation of shET was determined to be 90% saturation.     

Effects of iron sources on the growth and lipid/carbohydrate production of marine microalga <Emphasis Type="Italic">Dunaliella tertiolecta</Emphasis>

The effects of iron sources with different speciation and anionic moieties (ferric chloride, ferrous chloride, ferric EDTA, ferrous EDTA, ferric ammonium sulfate, and ferrous ammonium sulfate) on the cell growth and the production of energy storage (lipid and carbohydrate) from Dunaliella tertiolecta were investigated. The influence of iron dosage was also compared in the range from 0.65 mg/L (1X) to 6.5 mg/L (10X) as Fe concentration. Best cell growth rate was achieved when ferrous ammonium sulfate was used. Ferric EDTA resulted in higher lipid content than other iron sources, while ferrous ammonium sulfate favored the accumulation of carbohydrate among six iron sources. The accumulations of lipid and carbohydrate as energy storage competed each other and thus both contents did not increase together. In the presence of ferric EDTA, lipid content is increasing, while carbohydrate content is decreasing. On the contrary, lipid content is decreasing while carbohydrate is increasing in the presence of ferric ammonium sulfate. Because the overall carbohydrate content was larger than that of lipid, bioethanol production would be more advantageous than biodiesel production with the present D. tertiolecta strain if the carbohydrate in D. tertiolecta contains a high fraction of glucose with a good saccharification yield.     

The Extracellular Proteases of the Phytopathogenic Bacterium Xanthomonas campestris

The culture liquids of three Xanthomonas campestris pv. campestris strains were found to possess proteolytic activity. The culture liquid of strain B611 with the highest proteolytic activity was fractionated by salting-out with ammonium sulfate, gel filtration, and ion-exchange chromatography. The electrophoretic analysis of active fractions showed the presence of two proteases in the culture liquid of strain B611, the major of which was serine protease. The treatment of cabbage seedlings with the proteases augmented the activity of peroxidase in the cabbage roots by 28%.     

Isolation and Purification of Ascorbate Oxidase from Acremonium sp. HI-25

A screening test was undertaken to isolate microorganisms that produced ascorbate oxidase. The enzyme activity was found in a culture filtrate of a fungal strain (HI-25), newly isolated from a soil sample. Based on the morphological characteristics, this isolate was identified as Acremonium sp. From the examinations of cultural conditions, optimum conditions for enzyme production were found; strain HI-25 was aerobically cultured by a jar fermenter at 25°C in a medium containing 5% glycerol, 2% defatted soybeans, 0.1% monosodium L-glutamate, 0.1% KH₂PO₄, 0.02% MgSO₄ ·7H₂O, and 0.01% KCl, pH 6.0. After cultivation, an ascorbate oxidase was purified from the culture filtrate by an ammonium sulfate fractionation, column chromatographies on DEAE-cellulose and Butyl-Toyopearl, and gel filtration twice on Sephadex G-100. The purification was 850-fold with an activity yield of 8.8%. The purified enzyme gave a single band on SDS polyacrylamide gel electrophoresis, and had a molecular weight of 80,000 by SDS polyacrylamide gel electrophoresis and 76,000 by native gel filtration. This enzyme was most active at pH 4.0, 45°C, and was most stable between pH 6.0–10.0 and at temperatures below 60°C.     

Stomatal conductance and transpirational responses of field-grown cotton to ozone

Abstract Stomatal conductance and transpiration were measured on normally-irrigated (NI) and water-stressed (WS) field-grown cotton (Gossypium hirsutum L.) exposed throughout the growing season to a gradient of ozone (O₃) concentrations. Environmental conditions during the growing season strongly affected stomatal responses and yield reductions due to O₃ exposure. Maximum stomatal conductance and transpiration decreased with increased O₃ concentration both in NI and WS treatments. Maximum conductance in severely O₃-stressed plants averaged 30% lower than charcoal-filtered (control) plants, but maximum transpiration was only 17% lower. Conductance in WS plots averaged 22% lower than in NI plots but transpiration rates were the same in both treatments. Yield reductions induced by O₃ were highly correlated (r²= 0.84) with daily transpiration. Stomata of O₃-stressed plants opened and closed at the same rate as control plants in response to changes in light intensity, suggesting that the mechanism of stomatal movement had not been impaired by exposure to O₃. Reductions in conductance and transpiration in O₃-stressed plants were attributed to inhibition of photosynthesis by O₃, leading to accumulation of CO₂ in intercellular spaces.     

Isolation and Crystallization of Extracellular 3β-Hydroxysteroid Oxidase of Brevibacterium sterolicum nov. sp.

Among about 500 strains tested, a newly isolated soil bacterium, Brevibacterium sterolicum nov. sp. KY 3463 (ATCC 21387) showed the highest potency in production of 3β-hydroxysteroid oxidase in the culture fluid.

The 3β-hydroxysteroid oxidase was purified from the culture filtrate by a procedure involving ammonium sulfate fractionation, DEAE-cellulose and hydroxyapatite column chromatographies and Sephadex G–75 gel filtration. Crystals of the enzyme were obtained from solutions of the purified preparation by the addition of ammonium sulfate. The crystals appeared as fine rods, with a bright yellow color.

The enzyme is homogeneous by disc gel electrophoresis and ultracentrifugation. Sedimentation velocity yields a value of . It exhibits a typical flavoprotein spectrum of absorption maxima at 280, 390, and 470 mμ.     

Evaluation of in vitro free radical scavenging potential of Streptomyces sp. AM-S1 culture filtrate

The present study was carried out to determine the free radical scavenging potential of culture filtrate of Streptomyces sp. AM-S1. Antioxidant activity of culture filtrate, lyophilized culture filtrate and ethyl acetate extract of Streptomyces sp. AM-S1 was determined by various in vitro assays such as ferric reducing power assay, phosphomolybdenum reduction, DPPH and ABTS radical scavenging activities. The results revealed that the culture filtrate of Streptomyces sp. AM-S1 effectively scavenged DPPH (IC₅₀ 90.2 μl/ml) and ABTS (IC₅₀ 13.2 μl/ml) radicals in a concentration dependent manner. In all the assays, ethyl acetate extract registered higher antioxidant activity when compared with the lyophilized culture filtrate (LCF). In addition, ethyl acetate extract (1123.4 μmole Fe(II)/mg extract) exhibited higher ferric reducing activity than the standard BHA (814.4 μmole Fe(II)/mg extract). Further works are needed on the isolation and identification of antioxidant molecules from the ethyl acetate extract of Streptomyces sp. AM-S1 culture filtrate.     

Trehalase from Sclerotinia sclerotiorum

Summary Cell-free extracts of mycelia and sclerotia of Sclerotinia sclerotiorum (Lib.) D By. grown on synthetic liquid medium with various carbon sources contained trehalase (,-glucoside 1-glucohydrolase; EC3.2.1.28) activity. The enzyme was not usually detected in the culture filtrate. Treatment with ammonium sulfate or MnSO₄ and alumina resulted in a 2- to 3-fold purification. The optimum pH (5.0), K _m with trehalose (1.7×10^-3 M) and other properties are within the range reported for trehalase from other fungi.     

Improving operational stability of thermostable Pythium myriotylum secretory serine protease by preparation of cross-linked enzyme aggregates (CLEAs)

Abstract

Present study was undertaken to develop cross-linked enzyme aggregate (CLEA)of alkaline serine proteases (sp) from Pythium myriotylum (Pm), a necrotrophic oomycete reported to considerably secrete serine proteases. Among various precipitants screened for spPm1-CLEA preparation, ammonium sulfate at 80% saturation (w/v) yielded 100% activity recovery and retention of spherical morphology as observed by SEM analysis. Addition of glutaraldehyde as cross-linker at 1% (v/v) concentration with optimized ammonium sulfate concentration for 1?hour at 100?rpm yielded 100% activity recovery of spPm1-CLEA from 8-day old P. myriotylum culture filtrate. Addition of BSA (10?mg/ml) to CLEA cross-linking reaction mix reduced CLEA size from the range of 1.82–1.19?µm to 394–647?nm. spPm1-CLEA preparations retained 100% activity at temperature of 80?°C and pH 12.0 signifying their potential commercial applications. In terms of kinetic parameters, present process enhanced kinetic parameters as revealed by 1.67?U.mg^?1 specific activity, K_m of 0.062?mM and V_max of 0.145?µmol.min^?1.mg^?1 for the spPm1-CLEA compared to 0.288?U.mg^?1 specific activity, K_m of 0.060?mM and V_max of 0.20?µmol.min^?1.mg^?1 determined for the free spPm1 enzyme. Study has successfully demonstrated the concept of CLEA in enhancing spPm1 stability and the results so generated can be translated in future towards development of robust biocatalysts.     

Block of the sheep cardiac sarcoplasmic reticulum Ca2+-release channel by tetra-alkyl ammonium cations

Summary The purified ryanodine receptor channel of the sheep cardiac muscle sarcoplasmic reticulum (SR) membrane functions as a calcium-activated cation-selective channel under voltage-clamp conditions following reconstitution into planar phospholipid bilayers. We have investigated the effects of the tetra-alkyl ammonium (TAA) cations, (C _n H_2n+1)₄N⁺ and the trimethyl ammonium cations, ethyltrimethyl ammonium and propyltrimethyl ammonium, on potassium conductance through the receptor channel. Small TAA cations (n = 1–3) and the trimethyl ammonium derivatives act as asymmetric, voltage-dependent blockers of potassium current. Quantitative analysis of the voltage dependence of block indicates that the conduction pathway of the sheep cardiac SR ryanodine receptor channel contains two distinct sites for the interaction of these small organic cations. Sites are located at approximately 50% for tetramethyl ammonium (TMA ⁺) and 90% for tetraethyl ammonium (TEA⁺) and tetrapropyl ammonium (TPrA⁺) of the voltage drop across the channel from the cytosolic face of the protein. The chemical substitution of an ethyl or propyl group for one of the methyl groups in TMA⁺ increases the voltage dependence of block to a level similar to that of TEA ⁺ and TPrA⁺. The zero-voltage dissociation constant (K _b(0)) falls with the increasing number of methyl and methylene groups for those blockers acting 90% of the way across the voltage drop. This is interpreted as suggesting a hydrophobic binding site at this point in the conduction pathway. The degree of block increases as the concentration of small TAA cations is raised. The concentration dependence of tetraethyl ammonium block indicates that the cation interacts with a single site within the conduction pathway with a K _m of 9.8±1.7 mm (mean±sd) at 40 mV. Larger TAA cations (n = 4–5) do not induce voltage-dependent block of potassium current of the form seen with the smaller TAA cations. These data support the contention that the sheep cardiac SR ryanodine receptor channel may be occupied by at most one ion at a time and suggest that a large proportion of the voltage drop falls over a relatively wide region of the conduction pathway.This work was supported by funds from the Medical Research Council and the British Heart Foundation. We would like to thank Richard Montgomery for his considerable help with the chemical synthesis. We are grateful to Drs. John Chambers, Nick Price and staff for showing us the intricacies of NMR spectroscopy.     

Evaluation of enrichments of sulfate reducing bacteria from pristine hydrothermal vents sediments as potential inoculum for reducing trichloroethylene

The evaluation of enrichments from pristine hydrothermal vents sediments on its capability of reducing trichloroethylene (TCE) under sulfate reducing conditions with lactate and volatile fatty acids (VFAs) as substrates was performed. Effect of the possible TCE biodegradation intermediates cis and trans 1,2 dichloroethenes on sulfate reduction (SR) was also evaluated. The influence of cyanocobalamin (CNB₁₂) and riboflavin (RF) on the SR and biodegradation of TCE was also determined. Sediments from the vents were incubated at 37°C and supplemented with 4 g l⁻¹ SO₄ ²⁻, lactate or VFAs and amended in the corresponding treatments with either CNB₁₂ or RF in separated experiments. A percentage of TCE removal of 86 (150 μmol l⁻¹ initial concentration) was attained coupled to 48% sulfate depletion with lactate as substrate. Up to 93% removal of TCE (300 μmol l⁻¹ initial concentration) and 40% of sulfate was reached for VFAs as electron donor. A combination of lactate and CNB₁₂ yielded the best SR. The overall results suggest a syntrophic association in this microbial community in which sulfate reducers, dehalogenating, and probably halorespiring bacteria may be interacting and taking advantage of the fermentation of substrates differently, but without interruption of SR in spite of the fact that TCE was always present. It was also clear that sulfate reduction must be established in the cultures before any degradation can occur. The microbial community present in these hydrothermal vents sediments could be a new source of inoculum for bioreactors designed for dechlorination purposes.     

Purification and characterization of tannase from Paecilomyces variotii: hydrolysis of tannic acid using immobilized tannase

An extracellular tannase (tannin acyl hydrolase) was isolated from Paecilomyces variotii and purified from cell-free culture filtrate using ammonium sulfate precipitation followed by ion exchange and gel filtration chromatography. Fractional precipitation of the culture filtrate with ammonium sulfate yielded 78.7% with 13.6-folds purification, and diethylaminoethyl–cellulose column chromatography and gel filtration showed 19.4-folds and 30.5-folds purifications, respectively. Molecular mass of tannase was found 149.8 kDa through native polyacrylamide gel electrophoresis (PAGE) analysis. Sodium dodecyl sulphate–PAGE revealed that the purified tannase was a monomeric enzyme with a molecular mass of 45 kDa. Temperature of 30 to 50°C and pH of 5.0 to 7.0 were optimum for tannase activity and stability. Tannase immobilized on alginate beads could hydrolyze tannic acid even after extensive reuse and retained about 85% of the initial activity. Thin layer chromatography, high performance liquid chromatography, and ¹H-nuclear magnetic resonance spectral analysis confirmed that gallic acid was formed as a byproduct during hydrolysis of tannic acid.     

Purification and Properties of API–2b→API–2c Converting Protease from Streptomyces griseoincarnatus Strain No. KTo–250, an API–2 Producer

Among three alkaline protease inhibitors (API-2a, -2b, -2c) produced by Streptomyces griseoincarnatus strain No. KTo-250, API-2b was converted to API-2c in the growing system.

The cultural conditions were examined exclusively for the production of API-2b→ API-2c converting protease in the culture filtrate. The protease was purified about 1080-folds by salting-out with ammonium sulfate, column chromatography on DEAE-cellulose and gel filtration on Sephadex G–100.

The optimal and maximal caseinolytic activities of the protease were around pH 9.0 and at 28°C, respectively. The protease activity was inhibited by EDTA and DFP, but not by PCMB, o-phenanthroline, TPCK, TLCK, AP-I and S-SI. The protease was a DFP and EDTA-sensitive alkaline protease, and it required Ca²⁺ ion for its activity and stability.     

Sequence and expression of endogenous S-locus glycoprotein genes in self-compatible Brassica napus

Brassica napus is an amphidiploid plant which is self-compatible even though it is derived from hybridisation of the self-incompatible species B. oleracea and B. campestris. Experiments were undertaken to establish if S-locus glycoprotein (SLG) genes exist in B. napus and whether these are expressed as in self-incompatible Brassica species. Two different stigma-specific cDNA sequences homologous to SLG genes were obtained from the B. napus cultivar Westar. One of these sequences, SLG _WS1, displayed highest homology to class I SLG alleles, whereas the other, SLG _WS2, showed greatest homology to class II SLG genes. Both were expressed at high levels in Westar stigmas following a developmental pattern typical of SLG genes in the self-incompatible diploids. We infer that they represent the endogenous SLG genes at the two homoeologous S-loci. The occurrence of normally expressed SLG genes and its relevance to the self-compatible phenotype of B. napus is discussed.